literature review on operating cash flow

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Research Article

Cash flow management and its effect on firm performance: Empirical evidence on non-financial firms of China

Roles Investigation

Affiliation School of Accounting, Xijing University, Xi’an City, Shaanxi Province, People’s Republic of China

Affiliation Department of Economics and Management Sciences, NED University of Engineering & Technology, Karachi City, Pakistan

* E-mail: [email protected]

Affiliation Department of Business and Economics, University of Almeria, Almería, Spain

• Fahmida Laghari, 
• Farhan Ahmed, 
• María de las Nieves López García

• Published: June 20, 2023
• https://doi.org/10.1371/journal.pone.0287135
• Reader Comments

The main purpose of this research is to investigate the impact of changes in cash flow measures and metrics on firm financial performance. The study uses generalized estimating equations (GEEs) methodology to analyze longitudinal data for sample of 20288 listed Chinese non-financial firms from the period 2018:q2-2020:q1. The main advantage of GEEs method over other estimation techniques is its ability to robustly estimate the variances of regression coefficients for data samples that display high correlation between repeated measurements. The findings of study show that the decline in cash flow measures and metrics bring significant positive improvements in the financial performance of firms. The empirical evidence suggests that performance improvement levers (i.e. cash flow measures and metrics) are more pronounced in low leverage firms, suggesting that changes in cash flow measures and metrics bring more positive changes in low leverage firms’ financial performance relatively to high leveraged firms. The results hold after mitigating endogeneity based on dynamic panel system generalized method of moments (GMM) and sensitivity analysis considering the robustness of main findings. The paper makes significant contribution to the literature related to cash flow management and working capital management. Since, this paper is among few to empirically study, how cash flow measures and metrics are related to firm performance from dynamic stand point especially from the context of Chinese non-financial firms.

Citation: Laghari F, Ahmed F, López García MdlN (2023) Cash flow management and its effect on firm performance: Empirical evidence on non-financial firms of China. PLoS ONE 18(6): e0287135. https://doi.org/10.1371/journal.pone.0287135

Editor: Chenguel Mohamed Bechir, Universite de Kairouan, TUNISIA

Received: February 23, 2023; Accepted: May 31, 2023; Published: June 20, 2023

Copyright: © 2023 Laghari et al. This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Data Availability: The data used in this study is taken from China Stock Market and Accounting Research (CSMAR) database.

Funding: Funded studies the grant has been awarded to the author María de la Nieves López García from the grant PID2021-127836NB-I00 (Spanish Ministry of Science and Innovation and FEDER). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Competing interests: The authors have declared that no competing interests exist.

Introduction

Firms’ efficient cash flow management is significant tool to enhance financial performance [ 1 , 2 ]. Exercising proper management of cash flow is vital to the persistence of business [ 3 ]. Cash flow management is primarily concerned with identifying effective policies that balance customer satisfaction and service costs [ 4 ]. Firms manage efficiently of cash flows via working capital by balancing liquidity and profitability [ 5 – 7 ]. Working capital management, which is the main source of firm cash flow has significant importance in the context of China, where firms are restricted with limited access to external capital markets. In order to fulfill their cash flow needs firms heavily depend on internal funds, short-term bank loans, and trade credit in order to finance their undertakings [ 5 ]. For such firms’ working capital plays the role of additional source of finance. Consistent with this view, KPMG China [ 8 ] declared that effective management of working capital has played a vital role to alleviate the effects of recent financial crisis. Additionally, in recent times the remarkable growth of China roots to Chinese private firms’ effective management of working capital in general and their accounts receivables in particular [ 9 ]. Therefore, efficient management of working capital is an avenue that highly influence firm profitability [ 10 – 12 ], liquidity [ 7 , 13 ], and value. Since corporates cash flow management policies settle working capital by account receivables, inventories and accounts payables. Hence, existing theories of working capital management support the view that by cash flow manipulation firms can enhance liquidity and competitive positioning [ 6 , 14 , 15 ]. Therefore, firms manipulate cash flows through its measures, as by way speedy recovery of accounts receivables, reducing inventories, and delaying accounts payables [ 16 ]. Hence, the first research question is whether changes in cash flow measures are the tools that could bring positive changes in firm financial performance.

From the accounting perspective, liquidity management evaluates firm’s competence to cover obligations with cash flows [ 17 , 18 ], as uncertainty about cash flow increases the risk of collapse in most regions, industries, and other subsamples [ 19 ]. There are two extents: static or dynamic views, through which corporate liquidity can be inspected. The balance sheet data at some given point of time is a basis for static view. This comprises of traditional ratios such as, current ratios and quick ratios, in order to evaluate firms ability to fulfill its obligations through assets liquidation [ 20 ]. The static approach is commonly used to measure corporate liquidity, however, authors also declare that financial ratio’s static nature put off their capability to effectively measure liquidity [ 21 , 22 ]. The dynamic view is to be utilized to capture the firms’ ongoing liquidity from firm operations [ 16 , 21 ]. Therefore as a dynamic measure, the cash conversion cycle (CCC) is used by authors to measure liquidity in empirical studies of corporate performance [ 23 ]. For instance; Zeidan and Shapir [ 24 ] and Amponsah-Kwatiah and Asiamah [ 25 ] find that reducing the CCC by not affecting the sales and operating margin increases share price, profits and free cash flow to equity. Accordingly, Farris and Hutchison [ 20 ] find that shorter cash conversion cycle leads to higher present value of net cash flows generated by asset which contribute to higher firm value. Moreover, Kroes and Manikas [ 1 ] used operating cash cycle as a measure for cash flow metrics, which combines accounts receivables and firm inventory. As explained by Churchill and Mullins [ 26 ] that all other things being constant shorter the operating cash cycle faster the company can reassign its cash and can have growth from its internal resources. The second research question therefore is that whether changes in cash flow metrics bring positive improvements in firm financial performance.

Study uses CSMAR database of Chinese listed companies from the period 2018:q2-2020:q1. In the study, measure of firm performance is Tobin’s-q. Study uses three cash flow measures; accounts receivables turning days, inventory turning days and accounts payable turning days, and cash conversion cycle and operating cash cycle as measure for cash flow metrics. Consistent with the prediction, study finds that changes in cash flow measures and metrics bring positive improvements in firm financial performance. In particular decline in cash flow measures (ARTD, ITD, and APTD) to one unit would increase firm performance approximately 6.8%, 0.03%, and 7.2%; respectively. Additionally, one unit decline in cash conversion cycle would increase firm performance approximately 3.8%. Furthermore, study uses GMM estimator to alleviate the endogeneity and observe that the main estimation results still hold. In addition, study also employs a sensitivity analysis specifications to better isolate the impact of changes in cash flow measures and metrics on firm financial performance in previous period and observe that negative association is still sustained.

The sizable number of listed firms in China enable the study to divide sample into two subsamples: firms in high leverage industry and firms in low leverage industry. The study repeats the test on these two subsamples. Significant and negative association between cash flow measures, metrics and firm financial performance is still sustained. Moreover, the results of differential coefficients across two sub samples via seemingly unrelated regression (SUR) systems indicated that cash flow measures and metrics are more pronounced in low debt industries.

The paper makes significant contribution to the literature related to cash flow management and working capital management. First, this paper is among few to empirically study, how cash flow measures and metrics are related to firm performance from dynamic stand point especially in the Chinese context. The study sheds light on the role of cash flow management in improving the firm’s financial performance. Second, extant researches on cash flow management focus on the manufacturing industries. Unlike others this paper investigates the relation between cash flow measures, metrics and firm performance in the context of whole Chinese market, which is essential to know how these performance levers contribute to financial performance of other industries also. Third, results highlight the role of cash flow management in improving financial performance by taking firms’ leverage into consideration and declare that low leveraged industries are better off in terms of influence of changes in cash flow measures and metrics on firm performance. Fourth, the present paper uses generalized estimating equations (GEEs) Zeger and Liang [ 27 ] technique which is robust to estimate variances of regression coefficients for data samples that display high correlation between repeated measurements. Finally, to ensure robustness of findings the study uses sensitivity analysis, and in order to control for the potential issue of endogeneity the present study also uses generalized method of moments (GMM) following statistical procedures of Arellano and Bover [ 28 ] and Blundell and Bond [ 29 ].

The remainder of the paper is organized as follows. Section two discusses the role of cash flow management in China. Section three discusses the relevant literature, theoretical framework and development of hypotheses. Section four presents the data and variables of the study. Section five reports the methodology, empirical results and discussions. Section six concludes the paper.

Cash flow management in China

The economy of China has undergone a massive economic growth rates followed by high rates of fixed investment in the past three decades [ 5 , 30 ]. This growth miracle is outcome of highly productive firms and their ability to accrue significant cash flows [ 31 ], despite inadequate financial system. Moreover, although Chinese economy has seen fast growth and development in the past two decades but still the legal environment in China cannot be regarded as conducive [ 32 , 33 ]. As, in the credit market of China government plays a decisive role in credit distribution [ 34 , 35 ], and mostly the credit is granted to companies owned by state or closely held firms [ 34 , 36 ]. The Chinese firms have restricted admittance to the long-standing funds marketplace [ 37 ], therefore, companies held private or non-SOE find difficulty to access credit from financial market relatively to state owned firms. Although by the 1998 leading Chinese banks were authorized to lend credit to privately held firms but still these firms face troublesome to get external finance comparatively to state owned firms [ 32 ]. The prior literature also indorses this and states that with the presence of regulatory discrimination amid privately held and state owned firms, the privately held firms to the extent are often the subject of state predation [ 38 , 39 ].

Given country’s poor financial system, firms in China have managed their growth rates from their internal resources. Working capital management from where firms manage cash flows is the source of financing of the growth by Chinese firms. Accordingly, Ding et al . [ 5 ] mentioned that in their sample of Chinese firms about 66.6% dataset were characterized by a large average ratio of working capital to fixed capital, as it is a source and use of short term credit. Additionally, Dewing [ 40 ] termed working capital as one of the vital elements of the firm along with fixed capital. Moreover, Ding et al . [ 5 ] conclude that in the presence of financial constraints and cash flow shocks still Chinese firms can manage high fixed investment levels which correspond more to working capital than fixed capital. They further state that this all roots to the efficient management of working capital that Chinese firms use in order to mitigate liquidity constraints.

Literature review, theoretical background and hypothesis development

Literature review and theoretical background.

Corporate finance theory states that the main goal of a corporation is to maximize shareholder wealth [ 41 ]. Neoclassical capital theory is based on the proposition put forward by Irving Fisher [ 42 ] that individual consumption decisions can be separated from investment decisions. Fisher’s separation theorem holds true in perfect capital markets, where companies and investors can lend and borrow on the same terms without incurring transaction costs. In such a world, the choice to change income streams by lending and borrowing to meet preferences of consumption means that investors rank income streams according to their present value. Therefore, the value of the company is maximized by choosing the set of investments that generate the largest net present value over returns. When the company pays cash dividends with capital reserves, cash dividends can be maintained at a certain level, and when the ratio of capital reserves to cash dividends is high, accrual income management is low [ 43 ]. Since Gitman’s [ 44 ] seminal work, in which he introduced the concept of cash circulation as a means of managing corporate working capital and its impact on firm liquidity. Richards and Laughlin [ 16 ] then transformed the cash cycle concept into the Cash Conversion Cycle (CCC) theory for analyzing the working capital management efficiency of firms. CCC theory holds that effective working capital management (i.e., shorter cash conversion cycles) will increase a company’s liquidity, all else being equal. Signal theory can illustrate how a company can provide excellent signals to users of financial and non-financial statements [ 45 ]. In addition, this theory can also be used as a reference for investors to see how good or bad a company is as an investment fund. This theory explains the relationship between working capital turnover and profitability.

The trade-off theory in capital structure is a balance of benefits and sacrifices that may occur due to the use of debt [ 46 ]. The higher the amount a company spends on financing its debt, the greater the risk that they will face financial hardship due to excessive fixed interest payments to debt holders each year and uncertain net income. Higher cash flow uncertainty leads to an increased risk of business collapse [ 19 ]. Companies with high levels of leverage should keep their liquid assets high, as leverage increases the likelihood of financial distress. This theory is used to explain the relationship between leverage and profitability. Pecking order theory explains that companies with high liquidity levels will use more debt funds than companies with low liquidity levels [ 47 ]. Liquidity measures a company’s ability to meet its cash needs to pay short-term debts and fund day-to-day operations as working capital. The better the company’s current ratio, the more the company will gain the trust of creditors so that creditors will not hesitate to lend the company funds used to increase capital, which will benefit the company.

Prevailing working capital management theories argue that firms can improve their competitive position by manipulating cash flow to improve liquidity [ 14 , 15 , 20 , 48 – 50 ]. In addition, the company’s ability to convert materials into cash from sales reflects the company’s ability to effectively generate returns from investments [ 51 ]. It’s better to combine investment spending with cash flow from ongoing operations than to measure and report both discretely [ 52 ]. Three factors directly affect the company’s access to cash: (i) the company’s inability to obtain cash receivables while waiting for the customer to pay for the delivered goods; (ii) the company is unable to obtain cash receivables; (iii) the company is unable to obtain cash receivables. (ii) Cash invested in goods is tied up and unavailable and the goods are inventoried; and (iii) cash may be made to the company if it chooses to delay payment to suppliers for goods or services provided [ 16 ]. While a company’s cash payments and collections are typically managed by the company’s finance department, the three factors that affect cash flow are primarily manipulated by operational decisions [ 53 ].

In the literature, the prevailing view is that the presence of liquidity is not always good for the company and its performance, because sometimes liquidity can be overinvested. Since emerging markets are characterized by imperfect markets, companies maintain internal resources in the form of liquidity to meet their obligations. As in emerging markets, financial markets are inefficient in allocating resources and releasing financial constraints, resulting in underinvestment by financially constrained companies [ 54 ]. In addition, access to capital markets, external financing costs, and availability of internal financing are financial factors on which a company’s investments rely [ 55 ]. Alternatively, the pecking order theory [ 56 ] argues that due to information asymmetry, companies adopt a hierarchical order of financing preferences, so internal financing takes precedence over external financing. A study by Zimon and Tarighi [ 7 ] argue that businesses must use the right working capital strategy to achieve sustainable growth as it optimizes operating costs and maintains financial liquidity. Moreover, asset acquirements affect a company’s output and performance [ 57 ].

The existing literature provides different evidence of the impact of working capital management on firm performance. A study by Sharma and Kumar [ 58 ] examine the relationship between working capital management and corporate performance in Indian firms. Considering a sample of 263 listed companies during the period 2000–2008, they found that CCC had a positive impact on ROA. Similarly, of the 52 Jordanian listed companies in the period 2000–2008, Abuzayed [ 11 ] found a positive impact of CCC on total operating profit and Tobin’s-Q. Similar findings have been reported by companies in China [ 59 ], the Czech Republic [ 60 ], Ghana [ 25 ], Indonesia [ 6 ], Spain [ 61 ], and Visegrad Group countries [ 62 ]. In contrast, few studies reported an inverse correlation between CCC and firm performance in India [ 63 ], Malaysia [ 2 ], and Vietnam [ 64 ]. A negative correlation indicates that a higher CCC leads to lower company performance. A study by Afrifa et al. [ 65 ] did not find any significant relationship between CCC and firm performance. The findings of the relationship between NWC and company performance are not much different from CCC. Companies in European countries [ 66 ], and the United Kingdom [ 67 ] reported positive correlations, and those in Poland reported negative correlations [ 68 ]. Although previous operations management studies have explored the relationship between working capital and firm performance, the results of these studies remain inconclusive, and the study has found positive, curved, and even insignificant relationships. This is mainly since accidental factors make this relationship both complex and special. Therefore, to enhance the beneficial impact of working capital and cash flow on corporate performance, companies must make appropriate investments to promote more objective, informed, and business-specific working capital and cash flow management choices [ 69 ]. Collectively, these mixed pieces of evidence provide sufficient motivation for this study to develop hypotheses based on positive and negative relationships.

The cash flow measures and firm financial performance

The firms’ trade where merchandise sold on credit instead of calling for instantaneous cash imbursement, such transaction generate accounts receivables [ 70 ]. Accounts receivable directly affect the liquidity of the enterprise, and thus the efficiency of the enterprise [ 71 ]. From the stands of a seller, the investment in accounts receivables is a substantial component in the firm’s balance sheet. Firms’ progressive approach towards significant investment in accounts receivables with respect to choice of policies for credit management contributes significantly to enhance firm value [ 72 ]. Firms can utilize cash received from customers by investing in activities which contribute to enhance sales [ 1 ]. Firms can improve liquidity position with capability to collect overheads from customers for supplied goods and services rendered in a timely manner [ 17 ]. However, credit sales is instrumental to increase sales opportunities for firms but may also increase collection risk which can lead to cash flow stresses even to healthy sales growth companies [ 73 ]. Firms offer sales discounts which may not increase sales but may increase payments by customers and improve firms’ cash flow, reduce uncertainty of future cash flows, reduce risk and required rate of return [ 74 ].

Literature suggests that firm performance increases with shorter period of day’s sales outstanding [ 15 , 20 , 26 ]. Accordingly, Deloof [ 75 ] by working on Belgians firms find negative relationship between number of days accounts receivables and gross operating income. However, models of trade credit (such as; Emery, [ 21 ]) endorse that higher profits also lead to more accounts receivables as firms with higher profits are rich in cash to lend to customers. In a study by García-Teruel and Martinez- Solano [ 76 ] suggest that managers of firms with fewer external financial resources available generally dependent on short term finance and particularly on trade credit that can create value by shortening the days sales outstanding. Furthermore, Gill et al . [ 10 ] declare that firm can create value and increase profitability by reducing the credit period given to customers. Kroes and Manikas [ 1 ] analyzed manufacturing firms and suggested that decline in days of sales outstanding relates to improvements in firm financial performance and persists to several quarters. According to Moran [ 77 ] suppliers happily offer reasonable sales discounts for early payments which improve their cash flow position, locks the receivables, remove the bad debt risk at early stage, and reduce their day’s sales outstanding significantly which ultimately improve their working capital position. Fig 1 depicts this relationship. In consistent with discussion the following hypothesis is proposed:

• H1a : A decrease (increase) in the duration of accounts receivables turning days increases (decreases) firm financial performance.

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https://doi.org/10.1371/journal.pone.0287135.g001

The research has mixed views whether reduction in inventory is beneficial to firm performance or increase in inventory leads to increased performance. Despite high cash flow, inventory level management has been neglected [ 78 ]. In this regard literature has evidenced three themes of relationships: positive relationship, negative relationship or no relationship, and inclusion of moderators and mediators to the relationship of number of day’s inventory and firm performance [ 79 ]. However, the inventory management revolutionized after the launch of lean system with familiarizing just-in-time inventory philosophy by Japanese companies [ 80 , 81 ]. Afterwards, research related to inventory management evidenced that firms which adopted lean system not only improved customer satisfaction but also attained greater level of asset employment that ultimately leads to higher organizational growth, profitability, and market share [ 82 , 83 ]. Moreover, in a JIT context firms experience positive effects on organizational performance due to reduced inventory, and reduction in inventory significantly improves three performance measures such as: profits, firms return on sales, and return on investments [ 84 ]. Additionally, Fullerton and McWatters [ 85 ] found positive influence of reduced inventory on organizational performance which corresponds to JIT context.

However, generally literature considers that better inventory performance such as: higher inventory turns or decreased level of inventory is normally attributed to better firm financial performance [ 86 ]. Moreover, it is a mutual consent by researchers that high level of inventory also signifies demand and supply misalliance and often related to poor operational performance [ 87 , 88 ]. In a study by Elsayed and Wahba [ 79 ] indicated that there is influence of organizational life cycle on the relationship of inventory and organizational performance. Their results indicated that at initial stage though ratio of inventory to sales negatively affects organizational performance, but it put forth significant and positive coefficient on organizational performance at the revival phase or rapid growth phase. Additionally, literature has documented negative influence of reduced inventory on performance. In a study by Obermaier and Donhauser [ 89 ] evidenced that lowest level of inventory leads to poor organizational performance and suggest that moving towards zero inventory case is not always favorable. Fig 1 depicts this relationship. Accordingly the hypothesis is proposed as follows:

• H1b : A decrease (increase) in the duration of inventory turning days increases (decreases) firm financial performance.

According to Deloof [ 75 ] payment delays to suppliers are beneficial to assess the quality of product bought, and can serve as a low-cost and flexible basis of financing for the firm. On the contrary, delaying payments to suppliers may also prove to be costly affair if firm misses the discount for early payments offered [ 90 ], hence firms by reducing days payable outstanding (DPO) likely to enhance firm financial performance [ 76 ]. In line with this, Soenen [ 22 ] states that firms try to collect cash inflows as quickly as possible and delay outflows to possible length. Payment delays enable firms to hold cash for longer duration which ultimately increases firms’ liquidity [ 50 ]. As discussed by Farris and Hutchsion [ 20 ] that firms can improve cash to cash cycle by extending the average accounts payable along with inventory and get interest free financing. A study by Sandoval et al . [ 91 ] speculate that investors are more sensitive to accruals of long-term operating assets than to accruals of long-term operating liabilities because the former is more associated with recurring profits than the latter. Moreover, Fawcett et al . [ 92 ] indorsed that by extending the duration of accounts payable cycle companies can improve their cash to cash cycle. However, longer payment cycles not only harm relationship with suppliers, but may also lead to lower level of services from suppliers [ 93 ].

As discussed by Raghavan and Mishra [ 94 ] firms may be reluctant to produce or order at optimal point followed by cash restraints for fast growing firms where money plays the role of catalyst when demand is significantly high but firms are financially restricted to order less and this situation may mark the harmful effects over the performance of whole supply chain at least on temporary basis until restored. Hence, this situation is favoring that firms encourage and motivate their customers for quicker payments in order to increase cash to cash cycles [ 92 ]. Fig 1 depicts this relationship. Accordingly based on discussion hypothesis is proposed as follows:

• H1c : A decrease (increase) in the duration of accounts payable turning days’ increases (decreases) firm financial performance.

The cash flow metrics and firm financial performance

As shown by Richards and Laughlin [ 16 ] that firms should collect inflows as quickly as possible and postpone cash outflows as long as possible which is a general view based on the concepts of operating cash cycle (OCC) and cash conversion cycle (CCC). This shows that firms by reducing CCC cycle can make internal operation more efficient that ensures the availability of net cash flows, which in turn depicts a more liquid situation of the firm, or vice versa [ 25 ]. They further said that cash conversion cycle (CCC) is based on accrual accounting and linked to firm valuation. Baños-Caballero et al . [ 95 ] suggested that however, higher level of CCC increases firm sales and ultimately profitability, but may have opportunity cost because firms must forgo other potential investments in order to maintain that level. On the contrary, longer duration of CCC may hinder firms to be profitable because this is how firms’ duration of average accounts receivables and inventory turnover increase which may lead firms towards decline in profitability [ 96 ]. Therefore, cash conversion cycle (CCC) can be reduced by shortening accounts receivables period and inventory turnover with prolonged supplier credit terms which ultimately enable firms to experience higher profitability [ 97 , 98 ]. A shorter duration of CCC helps managers to reduce some unproductive assets’ holdings such as; marketable securities and cash [ 23 ]. Because with low level of CCC firms can conserve the debt capacity of firm which enable to borrow less short term assets in order to fulfill liquidity. Therefore, shorter CCC is beneficial for firms that not only corresponds to higher present value of net cash flows from firm assets but also corresponds to better firm performance [ 60 , 62 ].

Operating cash cycle is a time duration where firm’s cash is engaged in working capital prior cash recovery when customers make payments for sold goods and services rendered [ 16 , 26 ]. Literature endorses that shorter the operating cash cycle better the firm liquidity and financial performance because companies can quickly reassign cash and cultivate from internal sources [ 16 ]. In a study by Kroes and Manikas [ 1 ] find that there is significant negative relationship between changes in OCC with changes in firm financial performance. They further suggested that OCC can be taken by managers as a metric to monitor firm performance and can be used as lever to manipulate in order to improve firm performance. A study by Farshadfar and Monem [ 99 ] also found that when the company’s operating cash cycle is shorter and the company is small, the cash flow component improves earnings forecasting power better than the accrual component. Moreover, Nobanee and Al Hajjar [ 100 ] recommend the optimum operating cycle as a more accurate and complete working capital management measure to maximize the company’s sales, profitability, and market value. Fig 1 depicts this relationship. Hence, based on above discussion the proposed hypotheses are:

• H2a : A decrease (increase) in cash conversion cycle increases (decreases) firm financial performance.
• H2b : A decrease (increase) in operating cash cycle increases (decreases) firm financial performance.

Data and variables

Samples selection.

The data used in this study is taken from China Stock Market and Accounting Research (CSMAR) database. The study includes quarterly panel data of non-financial firms with A-shares listed on Shanghai Stock Exchange (SHSE) and Shenzhen Stock Exchange (SZSE). The data comprises on eight quarters ranging from 2018:q2-2020:q1, and four lag effects are included that make data up to twelve quarters. The use of quarterly data ensures greater granularity in the findings of the study as prior studies have mainly used annual data, therefore, this study uses two years plus one year of lagged data which offers exclusively a robust sample period that is instrumental to effective inference [ 1 ]. The main benefit of this method of examining quarterly changes within a company is that the company cannot have any missing data items throughout the sample period. Because any missing data will lead to design errors and imbalance panel data. Therefore, this problem led to now selection of a 12-quarter observation frame (two years plus one year of lagging data) because it delivers a reliable sample period from which effective conclusions can be prepared. Moreover, the data is further refined and maintained from unobserved factors, unbalanced panels, and calculation biases. Moreover, deleted firm-year observation with missing values; excluded all financial firms; as their operating, investing, and financing activities are different from non-final firms [ 75 , 101 ], eliminated firms with traded period less than one year, and excluded all firms with less than zero equity. The data is further winsorized up to one percent tail in order to mitigate potential influence of outliers [ 76 ]. Additionally, the firms’ data with negative values for instance; sales and fixed assets is also removed [ 67 , 101 ]. The final sample left with balanced panel of 20288 firm year observations consists of 2536 groups. The change (Δ) in all dependent and independent variables of the study sample represents variable period t measured as difference between value at the end of current quarter and value of the variable at the end of prior quarter divided by value of the variable at the end of prior quarter.

Dependent variable

The firm’s financial performance is dependent variable in the study and is measured through Tobin’s-q. Tobin’s-q is the ratio of firm’s market value to its assets replacement value and it is widely used indictor for firm performance [ 1 , 102 – 105 ]. Tobin’s-q diminishes most of the shortcomings inherent in accounting profitability ratios as accounting practices influence accounting profit ratios and valuation of capital market applicably integrates firm risk and diminishes any distortion presented by tax laws and accounting settlements [ 106 ]. Moreover, this variable has preference over other accounting measures (such as; ROA) as an indicator of relative firm performance [ 107 ].

Independent variables

Based on established literature [ 1 , 5 , 12 , 75 , 76 ] this study has used three cash flow measures and two composite metrics as independent variables. Each one of them is discussed below.

Accounts receivables turning days (ARTD).

The increasing days of sales outstanding specifies that firm is not handling its working capital efficiently, because it takes longer duration to collect its payments, which signifies that firm may be short of cash to finance its short term obligations due to the longer duration of cash cycle [ 5 ].

Inventory turning days (ITD).

A higher ratio of inventory turnover is a good sign for firm as it signifies that firm is not having too many products in idle condition on shelves [ 5 ].

Accounts payable turning days (APTD).

A firm with higher days of payable outstanding ratio shows that it takes longer duration to make payments to suppliers which is a sign of poor efficiency of working capital, however longer duration of DPO also signifies that company has good terms with suppliers which is also beneficial [ 5 ].

Cash conversion cycle (CCC).

It is generally considered that lower the CCC cycle better the firm efficiency and able to accomplish its working capital [ 5 ]. Additionally, longer duration of CCC shows more time duration between cash outlay and recovery of cash [ 76 ].

Operating cash cycle does not take into account the payables, and hence comprises of days where cash is detained as inventory prior receipts of payments from customer [ 1 ]. Besides, generally it is considered that firm having shorter OCC is with better liquidity and performance [ 26 ].

Control variables

This study uses firm size and return on assets as control variables. Following Deloof [ 75 ] the study uses firm size by taking natural logarithm of quarterly sales. The firm size has significant impact on market value of firms [ 103 , 108 ]. Study uses quarterly sales instead of total assets as measure for firm size to avoid the potential multicollinearity problem because total asset is denominator for the dependent variable [ 1 ]. Following Baños-Caballero et al . [ 95 ] study controls for return on asset (ROA) which is accounting measure of firms. Return on assets (ROA) is a ratio of earnings before interest and taxes (EBIT) divided by total assets [ 109 ].

Descriptive statistics

Table 1 shows the descriptive statistics of variables of the study. The mean and median value of ARTD is 92.89 and 73.14, respectively. On average, the firms in our sample have relatively higher median value of days of sales outstanding than evidence of Ding et al . [ 5 ], which shows that Chinese firms take longer to collect their payments from customers. The mean and median value of APTD is 105 and 82.25, respectively. The mean and median value of ITD is 166.18 and 107.13, respectively. On average it shows relatively high inventory turnover in our sample firms which signifies that Chinese firms are quite efficient in inventory management and products are not sitting idle in shelves. The mean and median value of CCC is 150.62 and 115.30, respectively. On average the CCC of Chinese firms is relatively high. However, in a study by Hill et al . [ 101 ] indicated that higher CCC also signifies higher firm profitability. The mean and median value of OCC is 250.71 and 206.44, respectively. The firm performance (Tobins-q) has a mean and median value of 2.86 and 2.27. The ROA shows mean and median value of 2.46 and 1.67, respectively. On average the size of Chinese firms is 20.79 with median value of 20.71.

https://doi.org/10.1371/journal.pone.0287135.t001

The Table 2 reports results for correlation matrix. The correlation coefficient between Tobin’s-Q and CCC is significant and negative at 1 percent level which is consistent to the findings of Afrifa [ 67 ]. The correlation between all the measures of cash flows and ROA is significant and negative at 1 percent, consistent with the results of Deloof [ 75 ]. Moreover the correlation between ROA and CCC is also significant and negative at 1 percent, similar evidences find by García-Teruel and Martinez-Solano [ 76 ] for the sample of Spanish firms. Furthermore, the correlation coefficients among all the variables are significantly lower than 0.80 indicating no sign of multicollinearity [ 110 ]. The formal test of variance inflation factor (VIF) for all the independent variables of study were examined to check if there is presence of multicollinearity. The variance inflation factor (VIF) also indicated no multicollinearity among analysis variables with all values below the threshold level of 10 proposed by Field [ 110 ], which shows that multicollinearity may not be the case and data is suitable for further analysis.

https://doi.org/10.1371/journal.pone.0287135.t002

Methodology, empirical analysis and discussion

Effect of cash flow measures on firm financial performance.

Where ΔY it represents Tobin’s-q for industry i and time t. The ΔX 1it is accounts receivable turning days (ΔARTD), and ΔX 1it-1 to ΔX 1it-4 are lags for ΔARTD. The ΔX 2it is inventory turning days (ΔITD), and ΔX 2it-1 to ΔX 2it-4 are lags for ΔITD. The ΔX 3it is accounts payable turning days (ΔAPTD), and ΔX 3it-1 to ΔX 3it-4 are lags for ΔAPTD. The CONTROLS it represent control variables; Size and ROA. The U it is probabilistic term. Study included four lag effects in Eq 6 for cash flow measures to examine how long the impact of changes in cash flow measures on changes in firm performance persists.

Table 3 provides detailed results of GEEs model’s parameters estimation analysis. The dependent variable is firm performance (Tobin’s-q) in all the models columns 2 through 4. H1a , H1b , and H1c posits that changes in measures of cash flow (ΔARTD, ΔITD, and ΔAPTD) changes firm financial performance. The coefficient of accounts receivable turning days (ΔARTD) in model 1 is -0.0068297, which is statistically significant at 0.1% confidence level in the current quarter. It is consistent with the study’s argument that decline in firms’ days of accounts receivables increases firm financial performance. Similar evidences were found by Shin and Soenen [ 13 ], Wilner [ 114 ], Deloof [ 75 ], and Kroes and Manikas [ 1 ]. According to Deloof [ 75 ] the negative relationship between days sales outstanding and firm performance suggests that managers can create value for their shareholders by reducing number of day’s accounts receivables to a reasonable minimum.

https://doi.org/10.1371/journal.pone.0287135.t003

The coefficient of inventory turning days (ΔITD) in model 1 is -0.0003014, which is statistically significant at 0.1% confidence level in the current quarter. These results are consistent with the argument given in hypothesis H1b . Significant number of studies conclude that low inventory period increases liquidity and firm performance [ 75 , 86 , 115 , 116 ]. Moreover, this finding is consistent with literature as firms sound inventory position exhibits better operational and financial performance [ 117 , 118 ].

The coefficient of accounts payable turning days (ΔAPTD) in model 1 is -0.0717425, which is statistically significant at 0.1% confidence level in the current quarter. These results are consistent with present study’s argument that decline in accounts payable turning days brings positive improvements in firm performance. The findings of results for APTD present strong evidence that when companies reduce their APTD by taking advantage of early discounts payment from suppliers, firms may have a persistent duration of perpetual firm financial performance improvement. As suggested by Moran [ 77 ] that firms may be more beneficial by taking advantage of early payment discounts than prolonging the cycle because of reduction in purchase price of components and materials by them.

Next, study estimated Eq 6 by dividing the sample into two subsamples based on firm leverage level, which is measured by firms’ debt to assets ratio. The high leverage (low leverage) contains firms in industries where their debt to assets ratio is greater (smaller) than the median value. Model 2 and 3 obtain similar patterns when applied on Eq (6) for high and low leveraged firms. The findings of results for high leverage and low leverage firms still hold as of full sample firms and strongly support hypotheses H1a , H1b , and H1c . Conclusively, the findings of results imply that reduction in three cash flow measures (ARTD, ITD, and APTD) relate to significant positive improvements in financial performance of firms at current quarter.

Effect of cash flow metrics on firm financial performance

Where ΔY it represents Tobin’s-q for industry i and time t. The ΔX it is ΔCCC and from ΔX 1it-1 to ΔX 1it-4 are lags for ΔCCC. The ΔX 2it is OCC and from ΔX 2it-1 to ΔX 2it-4 are lags for ΔOCC. The CONTROLS it shows the control variables; Size and ROA. The U it is probabilistic term. Study includes four lag effects in Eq 7 for cash flow metrics to examine how long the impact of changes in CCC and OCC on changes in firm performance persists.

Table 4 represents results for cash flow metrics (CCC and OCC). H2a and H2b predict that changes in ΔCCC and ΔOCC bring positive changes in the firm financial performance. The coefficient for the cash conversion cycle (ΔCCC) is -0.0382176, which is statistically significant at a 5% confidence level in the current quarter (as shown in Table 4 column 2).

https://doi.org/10.1371/journal.pone.0287135.t004

Next, the study estimated Eq 7 by dividing the sample into two subsamples based on firm leverage level which is measured by firms’ debt to assets ratio. The results in Table 4 Column 3 posit findings for highly leveraged firms. The coefficient for ΔCCC is -0.4038345, which is statistically significant at a 1% confidence level in the current quarter, as shown in Table 4 Column 3. The coefficient for ΔOCC is -0.0572725, which is statistically significant at a 1% confidence level in the current quarter, as shown in Table 4 Column 3. The coefficient for ΔCCC is -0.027272, which is statistically significant at a 0.1% confidence level, as shown in Table 4 column 4 for low-leverage firms at the current quarter.

As predicted by the hypothesis H2a ; the findings of results also show significant negative association of CCC with firm financial performance at current quarter for full sample firms, high leveraged firms, and low leveraged firms. These evidences of results are consistent with existing literature and show that decline in cash conversion cycle brings positive improvements in firm financial performance [ 13 , 23 , 75 , 76 , 96 , 97 , 119 ]. A study by Zeidan and Shapir [ 24 ] finds that reducing the CCC by not affecting the sales and operating margin increases the prices of shares, profits, and free cash flow to equity. Moreover, Prior research view that careful handling of the cash conversion cycle leads firms to significantly higher returns [ 13 , 23 , 75 , 76 , 97 ]. This outcome is consistent with the research by Simon et al. [ 120 ], Soukhakian and Khodakarami [ 121 ], Basyith et al. [ 6 ], Yousaf et al. [ 60 ], and Bashir and Regupathi [ 2 ]. The findings of the results show a significant negative association of OCC with firm financial performance in the current quarter for highly leveraged firms. The findings suggest that change in OCC led to changes in corporate performance provides significant support to the use of OCC as an indicator for managers to monitor performance and as a lever to manipulate to improve the corporate financial performance. The findings show that OCC in the current quarter posits a significant negative relationship with firm financial performance for highly leveraged firms. This evidence is consistent with the empirical findings of Churchill and Mullins [ 26 ].

Difference of coefficients across high leverage and low leverage firms

In addition, in the next section the present study analyzed the difference of coefficients across two groups by dividing sample into two subsamples, high leveraged and low leveraged firms based on their total debt to total assets ratios. In order to check the difference of coefficients across two groups study applied seemingly unrelated regression (SUR) system on Eqs ( 6 ) and ( 7 ) to better isolate the effect of cash flow measures and metrics on firm financial performance. The study computed standard errors for differenced coefficients via the seemingly unrelated regression (SUR) system that combines two groups.

The Table 5 reports results for differential impact of cash flow measures and metrics on firm performance across high leverage and low leverage industries. The study finds that the estimated coefficients for differences are positive and statistically significant. These findings of results imply that low leveraged industries are better off in terms of changes in cash flow measures and metrics that bring more positive changes in low debt industries financial performance. Since, low cash conversion cycle (CCC) conserves the debt capacity of the firm as in this situation firms need less short term borrowing to provide liquidity [ 97 ]. Therefore, lower cash conversion cycle (CCC) lessens the requirement for lines of credit and contributes to the firms’ debt capacity [ 23 ]. Due to high financial distress and higher likelihood of bankruptcy high leverage firms are more bounded by financial constraints which may hinder them to take valuable investments and, thus, harm their profitability [ 122 ]. This also suggests that firms with low leverage are high value firms and maintain lower duration of cash conversion cycle (CCC) at low levels that counts to higher profitability which ultimately leads to higher retained earnings and reduce the need for debt.

https://doi.org/10.1371/journal.pone.0287135.t005

Test of endogeneity effect and sensitivity analysis

Where ΔY it represents firm performance, ΔY it-1 is first lag of dependent variable firm performance. All the independent variables (cash flow measures and metrics) are denoted with ΔX it . CONTROLS it represents control variables and λ t shows time fixed effects, Ƞ i represents industry fixed effects, and ɛ it represents unobserved heterogeneity factors.

Table 6 represents estimated results obtained using Eq (8) . The findings of study observes significant negative association between cash flow measures, metrics and firm financial performance in the full sample, high leverage and low leverage subsamples, indicating that firms’ changes in cash flow measures and metrics bring significant positive improvements in financial performance. Overall, the results still hold after study considers the endogeneity problem, supporting the hypotheses of the study.

https://doi.org/10.1371/journal.pone.0287135.t006

Where ΔY it represents firm performance. All the independent variables (cash flow measures and metrics) are denoted with ΔX it-1 , and CONTROLS it represents control variables. D t shows time fixed effect, D i represents industry fixed effects, and ɛ it represents unobserved heterogeneity factors.

Table 7 represents estimated results of sensitivity analysis regression. The study finds that estimated coefficients of cash flow measures (ΔARTD t-1 , ΔITD t-1 , ΔAPTD t-1 ) and cash flow metrics (ΔCCC t-1 , ΔOCC t-1 ) are negative and significant, indicating that changes in previous period’s cash flow measures (ΔARTD t-1 , ΔITD t-1 , ΔAPTD t-1 ) and cash flow metrics (ΔCCC t-1 , ΔOCC t-1 ) bring significant positive changes in firm financial performance. The study finds similar results to the previously reported findings for alternative subsamples of high leverage and low leverage firms. Overall, the sensitivity analysis results still hold in consistent with the primary analysis results and ensure robustness of main analysis results of the study.

https://doi.org/10.1371/journal.pone.0287135.t007

Practical, managerial, and regulatory implications

This study provides significant practical, managerial, and regulatory implications for cash flow management and working capital management decisions in the corporate sector to improve performance. Most studies on cash flow management have focused on its relationship to profitability from the perspective of manufacturing companies. This research focuses on cash flow management by linking the leverage of non-financial firms in the Chinese context, a fundamental issue of corporate cash flow management and working capital investment that has not been studied much in the emerging markets scenario. Practically study suggests that a decline in cash flow measures and metrics positively enhances a company’s financial performance. Moreover, the paper determines that low-leverage industries perform healthier to cash flow measures and metrics changes. The study also reveals that companies in low-debt industries experience more positive improvements in their financial performance relative to high-debt industry companies. Therefore, the findings of this paper suggest that highly leveraged companies may be less conducive to improving corporate performance in industries where competitors’ leverage is relatively low.

Thus, from managers’ and policymakers’ points of view, the analysis found that changes in cash flow measures (ARTD, ITD, and APTD) and metrics (CCC and OCC) have led to significant positive improvements in the company’s financial performance. These positive changes in the CCC mean that changes in the accounts payable cycle appear to mitigate the combined impact of changes in the accounts receivable and inventory cycles. For managers, this finding suggests that reducing CCC simply by lowering APTD can translate into improvements in company performance. These findings provide rich insights and practical implications for managers and policymakers to use CCC as an operational tool to improve company performance. Therefore, managers and policymakers must actively evaluate the company’s policies regarding cash flow management, working capital management, corporate leverage, and capital budgeting policy before capitalizing on these companies.

Conclusion, limitations, and future implications

Cash flow management is the central issue of company operational strategies that affect a firm’s operational decisions and financial position. Firms’ effective policy of cash flow management is achievable through efficient management of working capital, which is possible through shorter days of accounts receivables, giving discounts on prompt payments, offering cash incentives, reducing inventory turning days through sound inventory management policies, shortening days of accounts payable by achieving rebate on early outlays. Likewise, inventory turnover may lead to a significant positive relationship with organizational performance symbolized by return on assets, cash flow margins, and return on sales in the JIT context. Moreover, high-performance firms may have a lengthier duration of days of accounts payables, which ensures the presence of liquidity. Many firms invest a large portion of their cash in working capital, which suggests that efficient working capital management significantly impacts corporate profitability.

This paper offers a strong insight and findings on cash flow management and firm financial performance by examining the Chinese full sample firms, high debt, and low debt firms to investigate the impact of changes in cash flow measures and metrics on firm performance. Using the exclusive cash flow measures and metrics data, study finds that decline in cash flow measures and metrics bring significant positive changes in firm financial performance. Moreover, study finds that low leveraged industries are better off in terms of changes in cash flow measures and metrics that bring more positive improvements in low debt industries firms’ financial performance relatively to high debt industries firms. This paper also demonstrates that, following firms’ leverage, high-leveraged firms may be less advantageous to enhance firm performance in industries where rivals are relatively low-leveraged.

The results of the study are consistent with the argument that changes in cash flow measure (ARTD, ITD and APTD) and metrics (CCC and OCC) bring significant positive improvements in firm financial performance. These findings furnish a great amount of insight and practical implication for manager to utilize CCC as operating tool in order to enhance firm performance. Firms by actively monitoring and controlling levers such as; ARTD, ITD, APTD, CCC, OCC can enhance financial performance. The findings of results are robust to different measures and metrics of cash flow and firm financial performance, following sensitivity analysis and endogeneity test still main results hold and ensures the robustness of primary analysis.

Study limitations and directions for future research

This research is of great significance to the studies on the relationship between cash flow management and enterprise performance in the Chinese market environment. However, the study did not consider some aspects that need consideration in future studies. This study uses Tobin Q to measure a company’s performance. However, it is also possible to include other company performance indicators that are important in the strategic impact of studies and may provide significant insights. The lack of data availability is a major constraint due to companies’ exits and entry into the sample period. This paper uses secondary data; however, studies can also use primary data to understand and gain appropriate knowledge of corporate cash flow management by combining archived and survey data to improve the robustness and significance of research findings in the context of emerging markets. This study focuses on the financial performance of firms. However, future studies can also use non-financial performance as a consequence variable.

Future extensions of this work may examine whether a company’s cash flow management policies in other areas of the supply chain have a similar relationship to company performance.

In addition, further inquiries that explore the directional association amid inventory and performance changes may extend the understanding of the cash flow management role in a company’s success. In addition, there is a need to explore more the impact of cash flow and working capital investment on firm performance by taking the market imperfections within the framework of emerging economies. Finally, the evidence of this research from the fastest emergent economy of the world may also use other transition economies to generalize for a widespread population group. Finally, studies in the future can consider linking product market competition with the cash flow measures, metrics, and firm performance relationship.

Supporting information

S1 appendix..

https://doi.org/10.1371/journal.pone.0287135.s001

Acknowledgments

The authors wish to thank anonymous referees for all value comments. The authors are responsible for any remaining errors.

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• Corporate Finance
• Financial statements: Balance, income, cash flow, and equity

Cash Flow Statements: Reviewing Cash Flow From Operations

What Is Operating Cash Flow?

Operating cash flow is cash generated from the normal operating processes of a business. A company's ability to generate positive cash flows consistently from its daily business operations is highly valued by investors. In particular, operating cash flow can uncover a company's true profitability. It’s one of the purest measures of cash sources and uses.

The purpose of drawing up a cash flow statement is to see a company's sources and uses of cash over a specified time period. The cash flow statement is traditionally considered to be less important than the income statement and the balance sheet , but it can be used to understand the trends of a company's performance that can't be understood through the other two financial statements .

While the cash flow statement is considered the least important of the three financial statements, investors find the cash flow statement to be the most transparent . That's why they rely on it more than any other financial statement when making investment decisions.

Key Takeaways

• Operating cash flow is cash generated from the normal operating processes of a business and can be found in the cash flow statement.
• The cash flow statement is the least important financial statement but is also the most transparent.
• The cash flow statement is broken down into three categories: operating activities, investment activities, and financing activities.
• Cash flow is calculated using the direct (drawing on income statement data using cash receipts and disbursements from operating activities) or the indirect method (starts with net income, converting it to operating cash flow).
• OCF helps investors gauge what's going on behind the scenes and is a better indicator of profitability than net income.

The Cash Flow Statement

Operating cash flow can be found in the cash flow statement, which reports the changes in cash compared to its static counterparts—the income statement, balance sheet, and shareholders’ equity statement. Also known as the cash flow from operations (CFO) , it specifically reports where cash is used and generated over specific time periods, tying the static statements together.

By taking net income on the income statement and making adjustments to reflect changes in the working capital accounts on the balance sheet (receivables, payables , inventories ) and other non-cash charges, the operating cash flow section shows how cash was generated during the period. It is this translation process from accrual accounting to cash accounting that makes the operating cash flow statement so important.

The cash flow statement is broken down into three categories. These are segregated so that analysts develop a clear idea of all the cash flows generated by a company’s various activities:

• Cash flow from operating activities : This category records a company's operating cash movement, the net of which is where operating cash flow is derived.
• Cash flow from investing activities : This category records changes in cash from the purchase or sale of property, plants, equipment (PP&E) , or long-term investments .
• Cash flow from financing activities : This category reports cash level changes from the purchase of a company’s own stock or issue of bonds and payments of interest and dividends to shareholders.

In some cases, there is a supplemental activities category as well. Supplemental information basically refers to anything else that does not relate to the other major categories.

Net income refers to the total sales minus the cost of goods sold and expenses related to sales, administration, operations, depreciation, interest, and taxes .

Breakdown of Activities

Operating activities are normal and core activities within a business that generate cash inflows and outflows. They include:

• Total sales of goods and services collected during a period
• Payments made to suppliers of goods and services used in production settled during a period
• Payments to employees or other expenses made during a period

Cash flow from operating activities is anything it receives from its operations. This means it excludes money spent on capital expenditures , cash directed to long-term investments, and any cash received from the sale of long-term assets . Also excluded are the amounts paid out as dividends to stockholders, amounts received through the issuance of bonds and stock, and money used to redeem bonds.

Investing activities consist of payments made to purchase long-term assets, as well as cash received from the sale of long-term assets. Examples of investing activities are the purchase or sale of a fixed asset or property, plant, and equipment and the purchase or sale of a security issued by another entity.

Financing activities consist of activities that will alter the equity or borrowings of a company. Examples of financing activities include the sale of a company's shares or the repurchase of its shares.

Calculating Cash Flow

To see the importance of changes in operating cash flows, it’s important to understand how cash flow is calculated. Two methods are used to calculate cash flow from operating activities, both of which produce the same result:

• Direct method: This method draws data from the income statement using cash receipts and cash disbursements from operating activities. The net of the two values is the operating cash flow.
• Indirect method: This method starts with net income and converts it to OCF by adjusting for items that were used to calculate net income but did not affect cash.

Image by Sabrina Jiang © Investopedia 2021

Direct Method

The direct method adds up all the various types of cash payments and receipts, including cash paid to suppliers, cash receipts from customers and cash paid out in salaries. These figures are calculated by using the beginning and ending balances of a variety of business accounts and examining the net decrease or increase of the account.

The exact formula used to calculate the inflows and outflows of the various accounts differs based on the type of account. In the most commonly used formulas, accounts receivables are used only for credit sales, and all sales are done on credit .

If cash sales also occur, receipts from cash sales must also be included to develop an accurate figure of cash flow from operating activities. Since the direct method does not include net income, it must also provide a reconciliation of net income to the net cash provided by operations.

Indirect Method

Under the indirect method , cash flow from operating activities is calculated by first taking the net income from a company's income statement. Because a company’s income statement is prepared on an accrual basis , revenue is only recognized when it is earned and not when it is received.

Net income is not a perfectly accurate representation of net cash flow from operating activities, so it becomes necessary to adjust earnings before interest and taxes (EBIT) for items that affect net income even though no actual cash has yet been received or paid against them. The indirect method also makes adjustments to add back non-operating activities that do not affect a company's operating cash flow.

Which Method Should You Use?

The direct method for calculating a company's cash flow from operating activities is a more straightforward approach in that it reveals a company's operating cash receipts and payments, but it is more challenging to prepare since the information is difficult to assemble. Still, whether you use the direct or indirect method for calculating cash from operations, the same result will be produced.

The image below shows reported cash flow activities for AT&T ( T ) for the 2012 fiscal year . All figures reflected are in millions. Using the indirect method, each non-cash item is added back to net income to produce cash from operations. In this case, cash from operations is over five times as much as reported net income, making it a valuable tool for investors in evaluating AT&T's financial strength.

Operating Cash Flows (OCF)

OCF is a prized measurement tool as it helps investors gauge what’s going on behind the scenes. For many investors and analysts, OCF is considered the cash version of net income, since it cleans the income statement of non-cash items and non-cash expenditures ( depreciation , amortization , non-cash working capital items).

OCF is a more important gauge of profitability than net income as there is less opportunity to manipulate OCF to appear more or less profitable. With the passing of strict rules and regulations on how overly creative a company can be with its accounting practices, chronic earnings manipulation can easily be spotted, especially with the use of OCF. It is also a good proxy of a company’s net income. For instance, a reported OCF higher than NI is considered positive as income is actually understated due to the reduction of non-cash items.

The Bottom Line

Operating cash flow is just one component of a company’s cash flow story, but it is also one of the most valuable measures of strength, profitability, and the long-term future outlook. It is derived either directly or indirectly and measures money flow in and out of a company over specific periods.

Unlike net income, OCF excludes non-cash items like depreciation and amortization, which can misrepresent a company's actual financial position. It is a good sign when a company has strong operating cash flows with more cash coming in than going out. Companies with strong growth in OCF most likely have a more stable net income, better abilities to pay and increase dividends , and more opportunities to expand and weather downturns in the general economy or their industry.

If you think cash is king, strong cash flow from operations is what you should watch for when analyzing a company.

U.S. Securities and Exchange Commission. " AT&T, Inc., Form 10-K, For Fiscal Year Ended December 31, 2012 ." Page 37.

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Cash management strategies and firm financial performance

2022, Bussecon Review of Social Sciences (2687-2285)

Cash(liquidity) management is at the heart of a firm’s financial management. It is a silver lining between the bankruptcy and the success story of a company. Therefore, this study intends to contribute some insights into cash management practices and how firms can use them to achieve sound financial performance. This study provides a comprehensive literature review on existing theories and cash management practices that are useful in decision making. After the analysis of the available literature, the study highlights important theories including trade-off theory (TOT), transaction model, precautionary measures, financial hierarchy, and cash flow theory. Furthermore, management practices such as stochastic cash management model, speeding up cash collections, centralization & decentralization of management, asset portfolio diversification, and cash disbursement are discussed. The study suggests that a sound financial performance can be achieved through a hybrid approach and through ...

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• Published: 15 March 2023

A multidimensional review of the cash management problem

• Francisco Salas-Molina   ORCID: orcid.org/0000-0002-1168-7931 1 ,
• Juan A. Rodríguez-Aguilar 2 &
• Montserrat Guillen 3  

Financial Innovation volume  9 , Article number:  67 ( 2023 ) Cite this article

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In this paper, we summarize and analyze the relevant research on the cash management problem appearing in the literature. First, we identify the main dimensions of the cash management problem. Next, we review the most relevant contributions in this field and present a multidimensional analysis of these contributions, according to the dimensions of the problem. From this analysis, several open research questions are highlighted.

Introduction

Cash managers must make daily decisions about the number of transactions between cash holdings and any other type of available investment asset. On the one hand, a certain amount of cash must be kept for operational and precautionary purposes. On the other hand, idle cash balances may be invested in short-term assets such as interest-bearing accounts or treasury bills for profit. Since Baumol ( 1952 ), several cash management models have been proposed to address the cash management problem(CMP).

Keynes ( 1936 ) initially identified three motives for holding cash: the transaction motive, the precautionary motive and the speculative motive. Other authors have added other motives for holding cash, such as the agency motive (Jensen 1986 ) or tax motive (Foley et al. 2007 ). More recently, other authors have highlighted other determinants of corporate cash policies (e.g., Gao et al. ( 2013 ) and Pinkowitz et al. ( 2016 )). As a result, the first objective of this study is to review the literature related to CMP from an economic and financial perspective, derived from the analysis of the main motives for holding cash.

While most cash management literature stems from the seminal paper by Baumol ( 1952 ), many cash management works approach CMP from a decision-making perspective. Our second objective is to review the literature related to CMP from a decision-making perspective, considering models proposed by different researchers to deal with cash when the ultimate goal is to elicit a cash management policy, namely, a temporal sequence of transactions between accounts.

To the best of our knowledge, only three surveys on cash management have been published since the 1950s. Gregory ( 1976 ) covered the beginning of the cash management literature including the important works by Baumol ( 1952 ) and Miller and Orr ( 1966 ). Ten years later, Srinivasan and Kim ( 1986 ) extended the analysis to models not considered by Gregory ( 1976 ). Finally, da Costa Moraes et al. ( 2015 ) reviewed several stochastic models since the 1980s. However, there is a lack of taxonomy for classifying models and identifying open research questions in cash management.

Within the context of CMP, from a decision-making perspective, we propose a taxonomy based on the main dimensions of the cash management problem: (i) the model deployed, (ii) the type of cash flow process considered, (iii) the particular cost functions used, (iv) the objectives pursued by cash managers, (v) the method used to set the model and solve the problem, and (vi) the number of accounts considered. These six dimensions provide a sound framework to classify the cash management models proposed in the literature. Here, we focus on the most relevant models in terms of number of citations. For a comprehensive review, we refer interested readers to Gregory ( 1976 ), da Costa Moraes et al. ( 2015 ) and Srinivasan and Kim ( 1986 ).

Our taxonomy helps researchers use a common framework to establish cash management areas. In addition, our multidimensional analysis enhances the understanding of the cash management problem, making it easier to identify open research questions. Note that the multidimensional framework described in this paper is not limited to the six dimensions mentioned above. Researchers may extend the number of dimensions, thereby enriching the analysis of the cash management problem.

The remainder of this paper is organized as follows. In " Motives for holding cash and related literature " in section, we consider the main motives for holding cash and review the literature related to CMP from an economic and financial perspective. In " A multidimensional taxonomy of the cash management problem " in section, we introduce and motivate the six dimensions of the CMP that define our taxonomy proposal. In " A review of the main contributions to the cash management problem " in section, we review the most relevant contributions to CMP from a decision-making perspective. Next, " A multidimensional analysis of the cash management problem " in section, we perform a comparative analysis of alternative cash management models that are directly linked to " Open research questions in cash management " in section, which identifies several open research questions in cash management. Finally, " Concluding remarks " in section concludes the paper.

Motives for holding cash and related literature

In this section, we consider the main motives for holding cash and review the literature related to CMP from an economics and finance perspective. We first consider the three motives for holding cash, initially identified by Keynes ( 1936 ), as follows:

The transaction motive, which is the need for cash for the current transaction of personal and business exchanges.

The precautionary motive, which is the desire for security as the future cash equivalent of a certain proportion of total resources acts as a financial reserve.

The speculative motive or the object of securing profit from knowing better than the market what the future will bring forth. The goal is to take advantage of future investment opportunities.

Later, Jensen ( 1986 ) argued that managers tend to accumulate cash rather than increase payouts to shareholders because of agency motives. Cash holdings may act as a buffer to cover eventual bad management decisions. One possible reason for this behavior is information asymmetry. Information is distributed asymmetrically throughout the organization; thus, managers usually have an advantage over shareholders in handling specific events because of information asymmetry (Eisenhardt 1989 ; Dierkens 1991 ). In addition, managers have an incentive to make the company bigger when compensation is linked to the size of the company, even when the company has poor investment opportunities. The motive for holding cash stems from the financial implications of agency theory (Jensen and Meckling 1976 ; Fama 1980 ; Fama and Jensen 1983 ; Eisenhardt 1989 ). In this theory, the firm is viewed as a set of contracts among the factors of production, in which each one is motivated by self-interest (Fama 1980 ). Consequently, the relationship between corporate managers (including cash managers) and owners presents friction due to conflicts of interest. The concept of agency costs defined by Jensen and Meckling ( 1976 ) is derived from an agency relationship in which managers and owners present divergences that result in monitoring costs, bonding costs to avoid certain actions, and other residual losses. One of these divergences relates to cash holdings. For example, consider that cash outflows to shareholders in the form of dividends reduce resources under managers’ control.

Kaplan and Zingales ( 1997 ) investigated the relationship between sensitivity of investment to cash flow and financing constraints, expressed as the differential cost between internal and external finance. They found that even though investment is sensitive to cash flow for the vast majority of firms analyzed, investment-cash flow sensitivities do not increase monotonically with the degree of financing constraints. Most of the firms analyzed could increase their investment if they choose to do so, thus providing further evidence of the agency motive for holding cash. Contrary to what was thought before, the authors concluded that higher sensitivities cannot be interpreted as evidence that firms are more financially constrained.

Leland ( 1998 ) argued that the key insight by Jensen and Meckling ( 1976 ) is that the firm’s choice of risk may depend on capital structure, hence challenging the Modigliani and Miller ( 1958 , 1963 ) assumption that investment decisions are independent of capital structure. Consequently, Leland ( 1998 ) proposed integrating both approaches to derive the optimal capital structure of a firm. The model reflects the interaction of different cash flow policies, namely, financing decisions and investment risk strategies. When investment policies are chosen, agency costs appear as a critical element in the model.

Further evidence of the agency motive for holding cash can be found in Dittmar et al. ( 2003 ), Pinkowitz et al. ( 2006 ), Dittmar and Mahrt-Smith ( 2007 ) and Harford et al. ( 2008 ). More recently, but still within the context of agency theory, Tran ( 2020 ) emphasized how external factors, such as the economic cycle, including the eventual financial crisis, affect cash holdings. The author found that the 2008 global financial crisis decreased the controlling effect of shareholder rights on corporate cash holdings, regardless of any control agency mechanism. Following a similar line of research, Tekin ( 2020 ) and Tekin et al. ( 2021 ) examined whether an agency cost explanation is valid for cash holdings during and after the financial crisis. During a financial crisis, agency costs tend to be higher than usual and the agency motive for holding cash is greater. The authors assessed the role of governance in cash management in 26 Asian developing countries and found that firms with poor governance increased their cash levels after the financial crisis. They concluded that cash holdings had a substitution effect on governance due to changes in managers’ risk aversion perceptions.

Cash management relates to financial constraints. The impact of financial restrictions on optimal cash holdings in the context of a financial crisis was considered by Tekin and Polat ( 2020 ), who compared firms in a highly regulated market with firms in a relatively unregulated market in the United Kingdom. The authors found that less-regulated firms had a faster adjustment of cash over the period 2002-2017. However, these firms decreased their cash adjustment speed more than highly regulated firms did during the financial crisis. Using a sample of firms from 26 developing Asian economies from 1991 to 2016, Tekin ( 2022 ) recently showed that financially constrained firms increased their cash levels more than financially unconstrained firms after the 2008 global financial crisis. In summary, exogenous shocks such as financial crises represent an important external factor in cash management.

Conversely, Foley et al. ( 2007 ) identify the tax motive for holding cash. More precisely, they found that the U.S. corporations, that would incur tax consequences associated with repatriating foreign earnings, hold higher levels of cash. Bates et al. ( 2009 ) showed that the average cash-to-assets ratio for U.S. industrial firms doubled from 1980 to 2006. They argue that the precautionary motive for cash holdings plays an important role in explaining the increase in cash ratios. From an analysis of the literature, Bates et al. ( 2009 ) summarized two additional motives for holding cash:

The agency motive, which is the need for cash derived from conflicts of interest among managers and owners.

The tax motive, which is the desire to avoid tax consequences associated with repatriation of foreign earnings.

Gao et al. ( 2013 ) analyzed a sample of public and private U.S. firms during the period 1995-2011 to conclude that public firms hold more cash than private firms. By examining the drivers of cash policies for each group, the authors attribute this difference to the much higher agency costs in public firms. Using a similar period (1998–2011), Pinkowitz et al. ( 2016 ) showed that U.S. firms held more cash on average than similar foreign firms. However, they argued that country characteristics had negligible explanatory power for the differences in cash holdings between U.S. firms and their foreign twins. Graham and Leary ( 2018 ) included the historic perspective in the analysis by studying average and aggregate cash holdings of companies in the U.S. from 1920 to 2014. Corporate cash holdings doubled in the first 25 years of the sample before returning to 1920 levels by 1970. Since then, the average and aggregate patterns have diverged.

Interest rates and environmental and health motives have recently been included in cash holding analyses. Gao et al. ( 2021 ) highlighted a non-monotonic relation between corporate cash and both real and nominal interest rates in both aggregate and firm-level data. The authors argue that these results imply that interest rates are unlikely to be the cause of the recent increase in corporate cash. Tan et al. ( 2021 ) compared cash holdings before and after the Environmental Inspection Program in China during the period 2014-2018 for manufacturing firms included and non-included in the program. The results suggest that this environmental program enhanced cash management efficiency because firms included in the program accumulated less cash. Finally, Alvarez and Argente ( 2022 ) focused on the impact of COVID-19 in household’s cash management behavior, considering the choice of means of payment and the average size and frequency of cash withdrawals. The authors used data on ATM (automated teller machine) cash disbursements in Argentina, Chile, and the U.S. to show that the intensity of the virus increased transaction costs.

A multidimensional taxonomy of the cash management problem

Cash flow management concerns the efficient use of a company’s cash and short-term investments (Gregory 1976 ). Cash is then viewed as a stock, a buffer, such as an inventory of wheat or bolts. Holding cash has a cost because of it being idle but, at the same time, transferring idle money to alternative investments is also costly. How much money should companies keep to operate efficiently? Identifying an appropriate answer to this question is the main goal of CMP. However, several aspects and dimensions must be considered to establish the boundaries of the problem. Hereafter, we focus on the main dimensions of the cash management problem, defining a cash management problem taxonomy to classify past research and identify open research questions.

Cash management models

In an attempt to solve CMP, several cash management models have been proposed to control cash balances based on a set of levels or bounds. CMP was first proposed from an inventory control perspective by Baumol ( 1952 ) in a deterministic manner. Later, Miller and Orr ( 1966 ) followed a stochastic approach, assuming that cash balance changes are random. Many other models have been developed based on these two seminal works. Most previous models assume a set of bounds to control cash balances; however, alternative configurations are also suitable.

Cash flow process

Cash flow statistical characterization is also a key issue in understanding cash management. Separation between inflows and outflows, or receipts and disbursements, is the basic breakdown, but a more detailed separation can be helpful when trying to extract patterns from data. In this sense, Stone and Miller ( 1981 , 1987 ) suggest the utility of problem structuring, or breaking down a problem into different subproblems, to appropriately handle cash flow forecasting as a key task in cash management. In addition, common assumptions on the statistical properties of cash flows include (i) normality, meaning that its values are centered around the average following a Gaussian distribution; (ii) independence, meaning that its values are not correlated with each other; and (iii) stationarity, meaning that its mean and variance are constant with time. However, little empirical evidence on the statistical properties of cash flow has been provided, with the exception of Mullins and Homonoff ( 1976 ), Emery ( 1981 ), Pindado and Vico ( 1996 ).

Costs in cash management

The main objective of managing cash is to keep the amount of available cash as low as possible while still keeping the company operating efficiently. Additionally, companies may place idle cash in short-term investments (Ross et al. 2002 ). Thus, the cash management problem can be viewed as a trade-off between holding and transaction costs. On the one hand, holding costs are usually opportunity costs due to idle cash that can be allocated to alternative investments. Holding too much cash is inefficient but holding too little may result in high shortage costs. On the other hand, transaction costs are associated with the movement of cash from/into a cash account into/from any other short-term available asset, such as treasury bills and other marketable securities. In summary, if a company tries to keep balances too low, holding costs will be reduced, but undesirable situations of shortage will force the sale of available marketable securities, thereby increasing transaction costs. By contrast, if the balance is too high, low trading costs will be incurred due to unexpected cash flow, but the company will carry high holding costs because no interest is earned on cash. Therefore, the company must optimize its target cash balance.

Desired objectives

In cash management literature, the focus is typically placed on a single objective, namely, cost. Except for Zopounidis ( 1999 ), Salas-Molina et al. ( 2018 ), cash management and multi-criteria decision-making are not usually linked concepts in financial literature. However, risk management is an important task in decision-making, and since different cash strategies entail different degrees of risk, a quantitative approach to measure risk is required. Furthermore, due to the different degrees of risk that firms are willing to accept, risk preferences are also an important issue for decision-makers.

Solving the cash management problem

Cash management poses a general optimization problem, namely, determining a policy that optimizes objective functions. However, several different techniques have been used to solve this optimization problem, ranging from mathematical programming, such as dynamic programming (Eppen and Fama 1968 ; Penttinen 1991 ) and control theory methods Sethi and Thompson ( 1970 ), to approximate techniques such as genetic algorithms (Gormley and Meade 2007 ; da Costa Moraes and Nagano 2014 ). An important question regarding alternative solvers is the optimality of solutions, which is a desired objective, but must be balanced with computational and deployment costs.

Managing multiple bank accounts

In cash management literature, cash management systems with multiple bank accounts have received little attention from the research community, with the exception of Baccarin ( 2009 ). However, cash management systems with multiple bank accounts are a rule, rather than an exception, in most firms.

Once the six main dimensions of the CMP are established, namely, models, cash flow, costs, objectives, solvers and number of accounts, we are in a position to review the most relevant cash management models proposed in the literature.

A review of the main contributions to the cash management problem

Although the advancement of a specific research topic is gradual rather than sharp, the history of CMP is long enough to distinguish at least two main periods: the classical period up to 2000 and the modern period from 2000 onwards. Since the initial inventory approach to CMP by Baumol ( 1952 ), the classical period is characterized by the common two-assets framework, linear cost functions, and the minimization of cost as the single goal of cash managers. However, a multidimensional approach to CMP emerges with Baccarin ( 2009 ), who considered cash management systems with multiple bank accounts and non-linear cost functions. We argue that this change in perspective and implied complexity gives rise to a new period in the study of CMP. In the following sections, we present a review of the most relevant works on CMP from Baumol ( 1952 ) to Baccarin ( 2009 ) and consider the most recent contributions. We respect the authors’ notations and clarify issues regarding notation when necessary for comparison purposes.

Baumol ( 1952 )

The inventory control approach to the cash management problem was introduced by Baumol ( 1952 ). The author expected that inventory theory and monetary theory would learn from one another. However, several important assumptions were made to, using the exact Baumol’s words, abstract from precautionary and speculative demands. The most important was that transactions were perfectly foreseen and occurred in a steady stream. Baumol assumed that an outflow of T dollars occurred for a given period in a steady stream. To offset these outflows, inflows can be obtained by borrowing or withdrawing from an investment at a cost of i dollars per dollar per period. An additional assumption is made by considering that these withdrawals are performed in many C dollars, evenly spaced in time, with a fixed cost of b dollars (see Fig. 1 ).

The Baumol model

Under these constraints, cash managers make T / C withdrawals for a given period, and the total cost is given by

where the first part of the equation is the number of transactions multiplied by the unitary fixed cost of each transaction and the second part is the average cash balance multiplied by the cost of holding this balance. Then, the goal for cash managers is to choose C such that Eq. ( 1 ) is minimized. Setting the derivative of the total cost with respect to C to zero, we obtain the value of C that minimizes ( 1 ) as follows:

The steady stream of payments and absence of receipts during the relevant period make this model impractical in many real applications. It was “only a suggestive oversimplification,” in the author’s own words. However, the first step in the inventory control approach to the cash management problem was performed. Interestingly, Baumol also envisioned the inherent task of forecasting cash flow by stating that with sufficient foresight, if receipts can meet payments, savings in the use of cash can be achieved.

Summarizing, Baumol ( 1952 ) initiated the inventory approach to the cash management problem proposing a deterministic model with uniform cash flows, with the objective of minimizing fixed transaction and holding costs for a single bank account using analytical methods.

Tobin ( 1956 )

Tobin argued that cash requirements depend inversely on the interest rate for a given volume of transactions, governed by the lack of synchronization of receipts and disbursements. The higher the lack of synchronization, the higher the need for transaction balances. However, there is no need to hold a cash balance. Instead, cash managers have the opportunity to maintain balances in assets with higher yields, such as bonds or marketable securities. When cash is needed, these assets could be shifted to cash again for payments. Consequently, it is likely that the amount of cash held for transaction purposes is inversely related to the interest rates of such alternative assets.

Given an interest rate r , the problem is to find the relationship between what is held in cash and what is held in alternative assets to maximize interest earnings, net of transaction costs. At the beginning of each period \(t=0\) , an amount Y is held by the cash manager that is uniformly disbursed until the end of period \(t=1\) when no cash is available, as shown in Fig. 2 . Thus, the total transaction balance is \(T(t)=Y(1-t)\) with \(0 \ge t \ge 1\) . However, this total T ( t ) can be divided between cash C ( t ) and bonds B ( t ) such that \(T(t)=C(t)+B(t)\) , where B ( t ) yields interest r per time period. Three different questions are then faced by Tobin: (i) given r and a fixed number n of transactions, determine the optimal timing and amounts to be held in cash and bonds; (ii) given r but a variable number n of transactions, determine the optimal \(n^*\) ; and (iii) how does \(n^*\) depends on r ?

The Tobin model

Considering transaction x between bonds and cash, the transaction cost is given by \(a + b \cdot x\) , with \(a,b >0\) . Then, for the general case, Tobin proves that the average number of bonds is given by

where \(n \ge 2\) and \(r \ge 2b\) . In order to determine the optimal number of transactions, the next profit function is maximized:

that is a decreasing function of n . Then, the optimal number of transactions \(n^*\) is greater than two when \(1/12 Y r (1 - 2b/r)^2 \ge a\) holds true. Finally, the relationship between the optimal number of transactions \(n^*\) and interest rate is given by Eq. ( 3 ). Since \(B_n\) is an increasing function of n , and \(n^*\) directly varies with r , the optimal proportion of bonds also directly varies with r ; consequently, the proportion of cash inversely varies with  r for sufficiently high rates.

Smith ( 1986 ) proposed a Dynamic Baumol-Tobin Model of Money Demand . However, this Baumol-Tobin model is more closely related to the Constantinides and Richard ( 1978 ) model than with the initial proposals by Baumol ( 1952 ) and Tobin ( 1956 ). More recently, Mierzejewski ( 2011 ) followed Tobin’s approach, according to which companies hold cash as a behavior towards risk, to propose a theoretical model of equilibrium in cash-balance markets, which is beyond the scope of this thesis.

Summarizing the above, the Tobin ( 1956 ) model is also a deterministic model dealing with a uniform cash flow such as the Baumol ( 1952 ) but incorporating the interest rate as a key parameter. In addition, Tobin considered not only fixed costs, but also variable transaction costs between two alternative assets, namely, bonds and cash. The goal was to minimize costs, and an analytical solution was provided.

Miller and Orr ( 1966 )

Miller and Orr introduced the stochastic cash balance problem by relying on the fact that the cash balance does not fluctuate steadily but rather irregularly for many companies, resulting in an impractical application of the Baumol model. Miller and Orr developed a simple model following an opposite approach to Baumol by considering stochastic cash flows. From a predictability point of view, Miller and Orr shifted from the perfect knowledge of cash flows in Baumol model to cash flows generated by a stationary random walk, from a deterministic approach to completely stochastic cash flows. They considered cash flows to be characterized as a sequence of independent and symmetric Bernoulli trials. They supposed that the cash balance will either increase or decrease by m dollars with probability \(p=1/2\) . The main features of this approach are independence, stationarity, zero-drift, and the absence of regular swings in cash flows. Moreover, they ignored shortages and variable transaction costs.

In their first attempt to deal with the corporate cash management problem, they assumed that companies seek to minimize the long-term average costs of managing the cash balance under a simple policy. This policy sets a lower bound, zero, and an upper bound, h , where cash balance is allowed to wander between the lower and upper levels. We say that the Miller and Orr ( 1966 ) is a Bound Based Model (BBM). Apart from the cash balance, the model also assumes the existence of a second asset of any kind, such as interest bearing assets or marketable securities grouped in a portfolio of investments that are easily transformed into cash at the company’s convenience. The policy implies that, when the upper bound reaches a withdrawal transfer, the balance is restored to a target level of z . Similarly, when the cash balance reaches zero, a positive transfer will be made to restore the balance to z , as shown in Fig. 3 .

The Miler-Orr model

Although Miller and Orr set the lower limit to zero in their work, in practice, a real cash manager should set the lower limit above zero for precautionary motives. This lower limit represents a safety cash buffer, and its selection depends on the level of risk the company is willing to accept. This model variation can be found in (Ross et al. 2002 ), which sets a lower limit l and an upper bound h . When h is reached, a withdrawal transfer is performed to restore the balance to the target level of z . Similarly, when the cash balance reaches l , a positive transfer is made to restore the balance to z . Formally, the transfer occurring at time t , \(x_t\) , is elicited by comparing the current cash balance, \(b_{t-1}\) , with the lower and upper bounds:

To obtain the limits, once the cash manager sets the lower limit l , the optimal values of the policy parameters h and z are derived from the expected cost per day over any planning horizon of T days, given by

where E ( c ) is the expected cost per day, E ( N ) is the expected number of transfers during the planning period T , \(\gamma\) is the cost per transfer, E ( M ) is the average daily cash balance, and v is the daily interest rate earned on the portfolio as the opportunity cost of idle cash. By letting \(Z=h-z\) , the problem can be stated in terms of the variance of the net cash flow as:

where the first part of the equation is the transfer cost term, and the second part is the holding cost term. The average cash balance is \((h+z)/3\) . Hence, the optimal parameters are given by

or in terms of the original parameters

The equivalent equations for the case of a lower bound ( l ) distinct from zero can easily be derived, as presented in Ross et al. ( 2002 ), to obtain

The major implication and main novelty of this model in comparison to the Baumol model is the presence of the observable variance of the net daily cash flow. As in the case of the Baumol model, the greater the transfer cost ( \(\gamma\) ), the higher the target cash balance ( z ), and the greater the daily interest rate ( v ), the lower the target cash balance ( z ). However, the greater the uncertainty of the net daily cash flow, measured by \(\sigma ^2\) , the higher the target cash balance ( z ), and the higher the difference between the lower bound ( l ) and the higher bound ( h ). This represents the first step towards a more practical approach to the corporate cash management problem because common sense shows that the greater the uncertainty, the greater the chance that the balance will drop below the lower bound.

Several extensions of the model have been considered to incorporate systematic drift in the cash balance and to allow for more than one portfolio asset with different transfers and holding costs. Despite the assumption of the totally stochastic mechanism of cash flow, the authors pointed out the presence of both stochastic and deterministic, or at least highly predictable, elements in cash flow, such as payroll disbursements or dividend payments. However, they argued that the gains from exploiting any cash flow patterns are by no means sufficiently large to offset the added costs of model development and implementation.

In summary, Miller and Orr ( 1966 ) was the first stochastic cash management model proposed in the literature. They introduced the concept of bounds or control limits, which are directly linked to the statistical properties of cash flows and are assumed to be random walks. Only fixed transaction costs were considered, and analytical solutions were provided for a single objective and cash account.

Eppen and Fama ( 1969 )

A variation of the Miller and Orr ( 1966 ) model was introduced by Eppen and Fama ( 1969 ) following a dynamic programming approach. However, it was a previous publication (Eppen and Fama 1968 ) which provided a complete analysis of the effect of variations in transfer, holding, and penalty costs on the optimal policies. The Eppen-Fama model is a generalization of the stochastic Miller-Orr model, in which transfer costs contain both fixed and variable components. They showed that if transfer costs have a fixed cost as well as a cost, proportional to the amount transferred, the optimal strategy is in the form of two limits ( u ,  d ) and two return points ( U ,  D ), one for each limit. In this model, when the cash balance reaches the upper bound ( d ), it is immediately restored to the upper return point ( D ), and when it reaches the lower bound ( u ), it is restored to the lower return point ( U ), as shown in Fig.  4 .

Eppen-Fama model representation with two return points

Following the Markovian approach, they assumed that the probability mass function of the transitions between different possible states is known and stationary. This assumption implies the process of discretization of the cash balance. At any point in time, the cash balance can be in one of N possible states, \(i=1,2,...N\) , each representing a discrete level of cash balance. The lowest level occurs in state 1 and the highest in state N , and each successive level differs by some constant R , for example 1000 €.

For the general case, two cost functions are defined. First, the transfer cost ( \(t_{i}^{k}\) ) caused by moving the cash balance from state i to state k :

where \(K_u\) and \(c_u\) are the fixed and variable components of a positive cash movement, respectively, and \(K_d\) and \(c_d\) are the fixed and variable components of a negative cash movement, respectively. Second, the holding or penalty cost ( L ( k )) associated with starting a period in state k can be defined as follows:

where \(c_p\) is the marginal penalty cost per period per R unit of cash, \(c_h\) is the marginal holding cost per period per R unit of cash, say 1000 €, and M is the minimum cash balance that must be maintained because of any condition required by banks. In the absence of this restriction, M is usually set to zero as the minimum cash balance required to be held in the bank account.

Recall that Miller and Orr ( 1966 ) suggests the use of two or three bounds. To account for fixed and variable transaction costs, Eppen and Fama ( 1968 ) proposed the use of four bounds. From an experimental perspective, the authors pointed out that higher dispersion in the probability distribution caused the outer bounds u and d and the return points U and D to be further away from zero. Therefore, in practical applications, it is highly recommended to carefully estimate the probability distribution, particularly in extremes. Moreover, when both the probability distribution and cost function are symmetric about zero, the optimal policies are symmetrical.

In summary, several interesting contributions on the practical side of the corporate cash balance problem were made by Eppen and Fama under the assumption of cash flow following a random walk. They considered both fixed and variable transaction costs, resulting in a policy based on four bounds aimed at minimizing costs. They proposed linear programming as a solver in Eppen and Fama ( 1968 ) and dynamic programming in Eppen and Fama ( 1969 ) for a single cash bank account.

Daellenbach ( 1971 )

Daellenbach proposes an improvement to the Eppen and Fama ( 1969 ) model, claiming that his model is a generalization of the Eppen-Fama model to situations where bank account overdrafts are not possible, and using two different sources of short-term funds, namely, marketable securities and short-term loans. Furthermore, in contrast to previous models, the probability distribution of cash flows is not necessarily stationary and the length of the review period may vary from period to period. Again, a decision about the adjustment of the cash balance must be made; however, in this model, an allocation decision about either marketable securities or borrowing transactions is also necessary. A dynamic programming approach was proposed for labeling periods in the planning horizon as \(n=N\) for the first period and \(n=1\) for the last period. Three state variables were then considered to describe the cash balance situation:

\(B_n\) or the cash balance at the beginning of period n carried forward from \(n+1\) .

\(Z_n\) or the borrowing balance at the beginning of period n carried forward from \(n+1\) .

\(S_n\) or the marketable securities balance at the beginning of period n carried forward from \(n+1\) .

If \(X_n\) and \(Y_n\) denote transactions in the form of borrowings or marketable securities, respectively, and \(R_n\) is the sum of uncontrollable cash transactions in period n with the probability density function \(f_n(r_n)\) , the following balance equation is used to link period \(n-1\) to period n :

subject to:

meaning that, (i) the initial cash balance before any adjustment has to be non-negative; (ii) the outstanding borrowing balance cannot be below zero; and (iii) marketable securities cannot be sold short.

According to the previous equations, the state variable set for the cash position at the beginning of period n , prior to any cash balance adjustment, is denoted by \(\Omega _n=(B_n,Z_n,S_n)\) , the decision variables are \((X_n,Y_n)\) , the total cost is the sum of (i) fixed and variable transaction costs for borrowing, (ii) fixed and variable transaction costs for marketable securities, (iii) interest cost on borrowings, (iv) returns on marketable securities (note that this is a negative cost or a benefit), and (v) penalty costs for cash shortages. These costs can be summarized as follows:

where \(H_1(X_n)\) is the borrowing cost function computed as

where \(b_{1}^{-}, b_{1}^{+}\) is the variable borrowing transaction costs for cash increases (+) and decreases (-), \(H_2(Y_n)\) is the marketable securities cost function computed as

where \(b_{2}^{-}, b_{2}^{+}\) are variable marketable security transaction costs for cash increases (+) and decreases (-), respectively; \(c_{1n}\) is the interest cost on ending loan balances; \(c_{2n}\) is the return on ending marketable securities holdings; \(L_n(B_n)\) is the expected cost of cash shortage incurred at the end of period n computed as:

where \(c_{3n}\) is the penalty for negative ending cash balances in period n .

Considering alternative funding sources, such as borrowings and marketable securities, introduces additional considerations on priorities based on feasible permutations of the cost coefficients as follows:

Case 1. If \(-b_{2}^{-}+c_2 \le -b_{1}^{-}+c_1 \le b_{1}^{+}+c_1 \le b_{2}^{+}+c_2\) , then borrowing transactions are preferred over marketable securities.

Case 2. If \(-b_{1}^{-}+c_1 \le -b_{2}^{-}+c_2 \le b_{2}^{+}+c_2 \le b_{1}^{+}+c_1\) , then marketable security transactions are preferred over borrowing.

Case 3. If \(-b_{2}^{-}+c_2 \le -b_{1}^{-}+c_1 \le b_{2}^{+}+c_2 \le b_{1}^{+}+c_1\) , then borrowing transactions are preferred over marketable securities for cash withdrawals, and marketable securities are preferred over borrowing for cash procurements.

Case 4. If \(-b_{1}^{-}+c_1 \le -b_{2}^{-}+c_2 \le b_{1}^{+}+c_1 \le b_{2}^{+}+c_2\) , then marketable securities are preferred over borrowing transactions for cash withdrawals, and borrowings are preferred over marketable securities for cash procurements.

Case 5. If \(-b_{2}^{-}+c_2 \le b_{2}^{+}+c_2 \le -b_{1}^{-}+c_1 \le b_{1}^{+}+c_1\) , then borrowing transactions are preferred over marketable securities for cash withdrawals, and marketable securities are preferred over borrowings for cash procurements.

As a result, the Daellenbach model can be regarded as an extension of the Eppen and Fama ( 1968 , 1969 ) model, but with four return points: \(\{U_{1n},D_{1n}\}\) denote the use of borrowings as the source of funds, and \(\{U_{2n},D_{2n}\}\) denote the use of marketable securities as the source of funds. The optimal policy gives preference to the source of funds dictated by the previous five cases based on the cost coefficients. If either constraint ( 19 ) or ( 20 ) prevents the completion of the transaction, then use the return point relevant to the other source of funds.

Subsequently, Daellenbach ( 1974 ) pointed out an important issue by posing the following general question: Are cash management models worthwhile? The objective was to determine the upper bounds of potential savings that could be realized by applying cash management models. In this study, a variant of the model in Daellenbach ( 1971 ) is proposed to consider fixed and variable transaction costs. In addition, a deterministic shortage cost function that charges negative cash balances at the end of the day is defined instead of the previous stochastic one. The main criticism of cash management models is based on the assumption of perfectly predictable cash flows. Any cost estimate based on perfect predictions will provide optimistic lower bounds for the actual cost incurred, which corresponds to determining what the optimal policy would have been given the actual cash flow. Using random normal simulations, the author estimated the upper bounds obtained by this variant of his cash management model on the performance of a hypothetical cash manager. The author concluded that the benefits of cash management optimization models were, in most cases, highly uncertain and offered a very small economic return.

In summary, Daellenbach ( 1971 ) used dynamic programming to provide a solution to the CMP as a set of control bounds but considered two available sources of funds, namely, marketable securities and short-term loans. In addition, the usual assumption on stationary cash flow was relaxed and fixed and variable transaction costs were considered as objectives to minimize.

Stone ( 1972 )

The use of forecasts and smoothing in control-limit models for cash management was proposed by Stone ( 1972 ). In this work, Stone first reviewed the assumptions of the Baumol ( 1952 ) and Miller and Orr ( 1966 ) models and pointed out a series of limitations of these models in real-world cash management situations. Stone argued that cash flows are neither completely certain, uniform, and continuous (as they are in the Baumol model) nor completely unpredictable (as they are in the Miller-Orr model). Most firms can forecast their cash flows. This is the first time that the concept of forecasting cash flows has been a key input to any cash management model. The author focused on the generally attempted tasks performed by cash managers. They usually:

Look ahead when buying and selling securities to incorporate data from their cash forecasts.

Smoothen cash flows by coordinating security maturities with predicted cash needs.

Buy the highest yielding securities subject to portfolio and liquidity constraints.

Maintain cash balances sufficient to meet banking requirements.

From these tasks, Stone derived the idea of including both forecasts and maturing securities in his model. The operation of this control-limit model is based on the ability to buy and sell securities of different maturities to reduce transaction costs by smoothing cash flows and thereby reducing the number of transactions. It is assumed that the current cash balance, \(CB_0\) , is known, and that a forecast of the net cash flow, \(E(C_t)\) , that will occur on each day t over the next k days is available. The expected level of cash balances k days from now is the sum of the current level of cash balances and the sum of k daily net cash flow. This can be expressed as

Alternatively, if the sum of net cash flows over the next k days is lumped into a single figure, the last equation can be rewritten as:

Next, a number of simple rules are proposed to be followed by cash managers to return to the desired target balance TB , based on two sets of control limits as shown in Fig. 5 . One set is defined by \(h_1\) and \(h_0\) as the upper and lower control limits for initiating considerations of a transactions. The other set is defined by \(h_1-\delta _1\) and \(h_0+\delta _0\) as the upper and lower limits, respectively, and determine if a transaction will actually be made.

Structure of the Stone model with two sets of limits

The set of rules followed by cash managers to operate the model are summarized as follows.

If the current cash balance \(CB_0\) is inside the control limits defined by \(h_1\) and \(h_0\) , no action is taken.

If the control limits \(h_1\) and \(h_0\) are exceeded, the forecasts over the next k days is considered to decide whether a transaction should be made.

If the expected cash balance in the next k days, \(E(CB_k)\) , exceed the control limits defined by \(h_1-\delta _1\) and \(h_0+\delta _0\) , a transaction is made to return the expected cash balance to the target level TB in k days.

No action is taken otherwise.

The innovation introduced by the Stone model is that when a transaction is made, the model returns the expected level of balance to the target level in k days rather than immediately returning the current balance to the target. Furthermore, the actual cash balance is the target plus the net cumulative forecast error. As \(K_t\) is the number of transactions to be made, these rules can be represented mathematically as follows:

Since the cash policy is fixed for a period of k-days, the use of forecasts forces the cash manager to monitor errors for k days after a transaction has occurred. However, the impact of the predictive accuracy of the forecasts on the policy performance was not evaluated. It is expected that a better prediction will lead to better policies, as hypothesized in Gormley and Meade ( 2007 ), and consequently, an evaluation of the impact of predictive accuracy is a mandatory step. Furthermore, efforts to improve predictive accuracy have associated costs that must be compared to the savings obtained to decide if further efforts are worthy. The impact of cash flow forecasts is an ongoing issue in cash management, which we address in Question 1, as we consider it a crucial challenge.

For the selection of the model parameters, no particular procedure was specified by Stone, although some suggestions were made, namely, not to treat them as fixed parameters, but rather adjust them as necessary. Simulation and the practitioner’s judgment were suggested as the best approaches to parameterization. The involvement of cash managers in the process of parameter selection was considered an advantage of this method. An alternative approach to deal with cash flow uncertainty was followed by Hinderer and Waldmann ( 2001 ) who developed a rigorous mathematical framework to include varying environmental factors in the cash manager decision-making process.

In summary, Stone was the first to formally develop a cash management model using forecasts as a key input. Consequently, they assume that cash flows are predictable to some extent. Several studies on daily cash flow prediction (Stone and Wood 1977 ; Stone and Miller 1981 ; Miller and Stone 1985 ; Stone and Miller 1987 ) represent an important contribution to cash management literature. However, the lack of a formal procedure to determine the set of parameters (bounds) of the look-ahead procedure, rather than the mere suggestion of using simulations, has become a serious limitation. No cost function was considered by Stone.

Constantinides and Richard ( 1978 )

Although Neave ( 1970 ) showed that the Eppen and Fama ( 1969 ) model was not optimal, Constantinides and Richard ( 1978 ) proved the existence of optimal simple policies for discounted costs when net cash flow followed a Wiener process. They studied the case of fixed and variable transaction costs and linear holding and penalty costs and used impulse control techniques to find sufficient conditions for an optimal policy defined by parameters \(d \le D \le U \le u\) . Similar to other bound-based models, control actions are only taken whenever the cash level either rises above u or falls below d money units.

Instead of the discrete time framework considered in Eppen and Fama ( 1968 ), Eppen and Fama ( 1969 ), Girgis ( 1968 ), Neave ( 1970 ), Constantinides and Richard assumed that decisions are made continuously over time. Moreover, they assumed that demand over any length of time is generated by a Wiener process, meaning that it is normally distributed with both the mean and standard deviation proportional to the length of time considered. However, they followed the impulse control approach of Bensoussan and Lions ( 1975 ) which was later extended by Richard ( 1977 ). This control technique is based on control actions taken at stochastic stopping times.

The problem formulation was similar to that used in previous studies on cash management. The cash balance at time t is defined as \(x=x(t)\) and it is charged with a holding/penalty cost \(C(x)={\text {max}} \{hx,-px\}\) , with \(h,p>0\) . The transaction cost of changing the cash level from \(x_0\) to \(x_1\) is

with \(k^+, k^-, K^+, K^- >0\) , such that a zero-control action incurs a fixed cost.

In addition, the cumulative demand for cash in interval [ t ,  s ], denoted by D ( t ,  s ), is independent and normally distributed with mean \(E[D(t,s)]=\mu (s-t)\) and variance \({\text {var}}[D(t,s)]=\sigma ^2(s-t)\) , where \(\mu\) and \(\sigma ^2\) are constants. Thus, the cumulative demand is given by

Where, w is a Wiener process in \(\mathbb {R}\) with zero drift and a diffusion coefficient of one. However, the use of diffusion processes to represent the cash holding evolution is not new (Miller and Orr 1966 ).

In this framework, cash managers continuously observe cash levels and perform control actions when necessary. At any stopping time \(\tau _i\) , the applied control \(\phi _i\) , is a random variable that is independent of the future state of the system. An impulse control policy v is represented as a sequence of stopping times and controls, \(v=[\tau _1,\phi _1; \tau _2,\phi _2; \ldots ]\) . If \(x(\tau _i^-)\) denotes the cash level at the stopping time \(\tau _i\) before the control action \(\phi _i\) is applied, and \(x(\tau _i)\) denotes the cash level after the control action, then the state equations of the cash level when policy v is applied are given by

when \(0 \le t < \tau _i\) , with \(x(0^-)=x_0\) , and:

when \(\tau _i \le t < \tau _{i+1}^-\) , with \(i \ge 1\) . Given a policy v and an initial cash balance \(x(0^-)=x_0\) , the expected total cost from time zero to infinity, discounted to time zero, is

where \(\beta\) denotes the discount rate. The final goal is to choose policy \(v^*\) such that \(J_{x_0}(v^*) \le J_{x_0}(v)\) , \(\forall v \in \Omega\) , where \(\Omega\) is the class of all impulse control policies.

Let \(V(x)=J_{x}(v)\) be the expected total cost from time t to infinity discounted to time t and conditional on the cash level \(x(t^-)=x\) . Note also that \(V(x)\ge 0\) since all costs are non-negative. There are only two possible alternatives for cash managers: taking no control action or making the most convenient transaction in terms of future costs. By applying dynamic programming and assuming that the subsequent decisions are also optimal, V ( x ) must satisfy

From this, the following theorem is derived.

Suppose that \(h>\beta k^-\) and \(p>\beta k^+\) hold true, then , an optimal policy exists for the cash management problem. This policy is simple and is given by

Note that the previous theorem implies that, if \(h<\beta k^-\) , it will never be optimal to reduce the cash level as long as \(K^->0\) . Similarly, if \(p<\beta k^+\) , it will never be optimal to increase the cash level, as long as \(K^+>0\) . If both conditions, \(h<\beta k^-\) and \(p<\beta k^+\) hold, the optimal policy prescribes no intervention. In the special case of \(h<\beta k^-\) and \(p>\beta k^+\) , it is optimal to increase the cash level, but not optimal to decrease the cash level. They then deal with an inventory problem in which the control action \(\xi (x)\) is constrained to be non-negative.

This model was later extended to the case of quadratic holding-penalty costs in Baccarin ( 2002 ) and to a multidimensional cash management system and general cost functions in Baccarin ( 2009 ), when cash balances fluctuate as a diffusion process. Premachandra ( 2004 ) also used a diffusion process to propose a more generalized version of the Miller-Orr model which relaxes most of its restrictive assumptions. The Wiener process is also a diffusion process (Itô 1974 ).

In summary, in addition to considering continuous cash flows, the most important contribution of the Constantinides and Richard ( 1978 ) model is Theorem 1 , which provides the necessary conditions to avoid the triviality of the cash policy. Furthermore, it represents the origin of several recent studies (Baccarin 2002 ; Premachandra 2004 ; Baccarin 2009 ) on cash management. However, the strong assumption of modeling cash flows as a diffusion process represents a serious limitation when dealing with empirical non-Gaussian cash flows.

Penttinen ( 1991 )

Penttinen presented myopic and stationary solutions for linear costs using a logistic distribution as the probability density function of random cash demand. Myopic one-period solutions have been suggested to avoid computational difficulties in multi-period applications with a large number of discrete states. In contrast to Constantinides and Richard ( 1978 ), Penttinen chose a discrete time framework because common planning and control practices in most organizations are typically performed in discrete intervals.

His main goal was to analyze the amount of suboptimality in myopic solutions. Thus, the problem formulation considers a stochastic cash balance in which demand \(\delta\) is a random variable. The amount of cash at the beginning of each period n is denoted by x and the cash balance after a control action is taken is denoted by y ( x ). The author considers the transaction costs \(a_n(y-x)\) as

where \(K_n,Q_n,k_n,q_n \ge 0\) . In addition, the retained and penalty costs \(m_n(y)\) charge the cash level y at the beginning of each period according to

Finally, the holding and shortage costs \(l_n(z)\) charge the cash level z at the end of each period. Here, the amount of cash remaining is given by \(z = y - \delta\) and the optimal balance at this point is zero because any positive balance is subject to a holding cost and any negative balance to a shortage cost:

The expected holding and shortage costs are given by the following loss function:

which is the convolution of \(l_n(y-\delta )\) with the probability density function \(\phi _n(\delta )\) . Then, the optimal discounted value of future costs at the beginning of period n is:

where \(\alpha\) is a discount factor, and \(*\) denotes convolution. Note that, when \(\alpha =0\) , the dynamic model is called a myopic model. The optimal policy of this general convex model is given by

where \(t \le T \le U \le u\) defines a transaction rule in the form of a simple policy \(y_n(x)\) such that

Penttinen introduced logistic distribution to ease calculations. In this case, the optimal myopic policy is given by

The reorder point t and disposal point u are derived numerically from T and U from Eqs. ( 42 ) and ( 43 ). To this end, an iterative procedure is presented to compute solutions that are expected to achieve rapid convergence. Different empirical results show the proportionality of policy parameters t , T , U , and u with the shortage cost ratio; thus, the higher the shortage cost, the higher the reorder and disposal points.

In contrast, stationary solutions are based on the assumption that each period possesses the same cost functions, and that cash demand is independent and identically distributed. Then, Penttinen presented additional empirical results on the amount of suboptimality between myopic and stationary solutions in the case of no fixed costs. His results show that the stationary model leads to slightly more cautious ordering policies.

In summary, it is important to highlight the assumption of the logistic distribution within the commonly used family of Gaussian cash flows to better represent empirical cash flows. Penttinen also assumed fixed and linear transaction costs to derive, by dynamic programming, two kinds of optimal policies, namely, myopic (minimizing short-term costs) and stationary (minimizing long-term costs). He considered both a single objective and single bank account in this proposal.

Gormley and Meade ( 2007 )

Gormley and Meade claimed the utility of cash flow forecasts in the management of corporate cash balances and proposed a Dynamic Simple Policy (DSP) to demonstrate that savings can be obtained using cash flow forecasts. They suggested the use of an autoregressive model as a key input for their model. However, gains in the forecast accuracy over the naive model are scant. Gormley and Meade expected that savings from using a non-naive forecasting model would increase if there were more systematic variations in cash flow and, consequently, higher forecast accuracy. If this hypothesis is correct, then the savings produced by a better forecasting model are expected to be significantly higher than those obtained by the naive forecasting model.

In their approach to the corporate cash management problem, Gormley and Meade used an inventory control stochastic model in which cash balances were allowed to move freely between two limits, as shown in Fig. 6 : the lower ( D ) and the upper balance limit ( V ). When the cash balance reaches any of these limits, a cash transfer returns to the corresponding rebalance level ( d ,  v ), as shown in Fig. 6 . Thus, the management of the cash balance over a period T is determined by a set of policy parameters or limits for the instant  t that can be extended \(\tau\) days ahead: \(D_{t+\tau }\) is the lower balance limit at time \(t+\tau\) , \(V_{t+\tau }\) is the upper balance limit at time \(t+\tau\) , \(d_{t+\tau }\) is the lower rebalance level at time \(t+\tau\) , and \(v_{t+\tau }\) is the upper rebalance level at time \(t+\tau\) .

The Dynamic Simple Policy of Gormley-Meade

The transfers for any prediction horizon are determined by

where \(\tilde{O}_{t+\tau -1}\) is the predicted opening balance at time \(t+\tau -1\) , \(\hat{w}_{t+\tau |t}\) is the predicted cash flow for \(t+\tau\) using a model that has been trained up to time t . In this model, \(D_{t+\tau } \le d_{t+\tau } \le v_{t+\tau } \le V_{t+\tau }\) and the following continuity function holds:

The expected cost over horizon T is given by the following objective function:

where the transfer cost function \(\Gamma\) is defined as

The notation used by the expected and transfer cost functions is as follows: h is the holding cost per money unit of a positive cash balance at the end of the day; u is the shortage cost per money unit of a negative cash balance at the end of the day; \(\gamma _{0}^{+}\) is the fixed cost of transfer into account; \(\gamma _{0}^{-}\) is the fixed cost of transfer from account; \(\gamma _{1}^{+}\) is the variable cost of transfer into account; \(\gamma _{1}^{-}\) is the variable cost of transfer from account; \(I_{\tilde{O}_{t+\tau }>0}\) is a boolean variable that equals one if \(\tilde{O}_{t+\tau }>0\) is true, zero otherwise; \(I_{\tilde{O}_{t+\tau }<0}\) is a boolean variable that equals one if \(\tilde{O}_{t+\tau }<0\) is true, zero otherwise.

The authors used genetic algorithms to solve the CMP, that is, to estimate the parameters \(\{D_{t+\tau }, d_{t+\tau }, v_{t+\tau }, V_{t+\tau }\}\) from \(\tau =1, \ldots , T\) . Moreover, because the model accepts forecasts as its main input, a cash flow autoregressive forecasting model was developed. To this end, a Box-Cox transformation (Box and Cox 1964 ) was used to achieve the normality of the real cash flow dataset used in this study.

In summary, Gormley and Meade ( 2007 ) proposed a cash management model that uses forecasts as a key input. Surprisingly, they did not refer to the work by Stone ( 1972 ) on the use of forecasts in cash management. They proposed evolutionary algorithms to derive cash policies within the usual context of fixed and linear transaction costs and a single objective. This solving procedure was recently followed in da Costa Moraes and Nagano ( 2014 ).

Chen and Simchi-Levi ( 2009 )

The concept of K-convexity was first used by Neave ( 1970 ) to show that the Eppen and Fama ( 1969 ) model may not be optimal. When fixed costs exist for both inflows and outflows, Chen and Simchi-Levi ( 2009 ) used the concept of (K,Q)-convexity by Ye and Duenyas ( 2007 ) to characterize the optimal policy in the stochastic cash balance problem. Their approach was closely related to inventory control, in that they used common inventory terminology rather than that usually employed in cash management research. For example, they speak about order and return rather than increase or decrease in cash transactions.

They considered a general cost function with holding and transaction costs. A transaction decision must be made at the beginning of each period. Let x be the cash balance at the beginning of period n before a decision is made and let y be the cash balance after a transaction is made. Transaction cost is computed as follows:

where \(K\ge 0\) , \(Q\ge 0\) , and \(k+q\ge 0\) , assuming that \(k\ge q\) ; that is, the positive variable transaction cost is greater than or equal to the negative variable transaction cost.

In contrast, the holding cost in time period n is described as a general cost function \(l_n(z)\) , which depends on the inventory level at the end of day z which, in turn, depends on the stochastic cash flow \(\xi _n\) . Therefore, the expected holding or penalty cost in period n is given by

In this study, the stochastic cash balance problem is formulated as a dynamic program, where \(C_n(x)\) is the cost-to-go function at the beginning of a period when there are n periods left in the planning horizon, and the initial inventory level is x :

where \(\gamma \in (0,1]\) denotes the discount factor.

They built a process to obtain the optimal policy based on the concept of ( K ,  Q )-convexity (Ye and Duenyas 2007 ) of the recursive function \(C_n(x)\) . A real value function is called ( K ,  Q )-convex for \(K,Q \ge 0\) . If for any \(x_0\) , \(x_1\) with \(x_0 \le x_1\) and \(\lambda \in [0,1]\) , the following condition holds:

We refer the interested reader to Chen and Simchi-Levi ( 2009 ) for further details on the properties of ( K ,  Q )-convex functions and for proof that the cost-to-go function \(C_n(x)\) is a ( K ,  Q )-convex function. However, several additional definitions are required to derive the optimal policy.

where \(t_n \le t'_n \le T_n\) and \(u'_n \le U_n \le u_n\) . Based on the previous definitions and assuming \(K>Q \ge 0\) , it is optimal to set the cash level \(y_n(x)\) after a decision is made according to

In summary, Chen and Simchi-Levi ( 2009 ) followed a sequential decision-making approach using dynamic programming to minimize the total expected costs over the planning horizon. They proposed a model based on bounds, without assuming any particular density function for cash flows, but rather a general one. However, no practical application has been provided to illustrate the model using a real case.

Baccarin ( 2009 )

To the best of our knowledge, quadratic holdings and penalty costs have been considered for the first time in Baccarin ( 2002 ). Furthermore, a general multidimensional approach to the cash management problem was first introduced by Baccarin ( 2009 ) using generalized cost functions and providing theoretical results for two bank accounts. Baccarin considered cash management systems with multiple bank accounts, in which cash balances fluctuate as a homogeneous diffusion process in \(\mathbb {R}^n\) . They formulated the model as an impulse control problem with unbounded cost functions and linear costs.

The optimization problem considers an n -dimensional Wiener cash flow process \(W_t\) that determines the dynamics of cash balances x ( t ) in the absence of any control action using the following Ito stochastic differential equation:

where \(b(x), \sigma (x) \in W^{1,\infty } (\mathbb {R}^n)\) . Then, an impulse control strategy within a continuous time framework is a sequence of control actions \(\xi _i\) at time \(t_i\) to form policy \(V=\{\xi _1,t_1; \ldots \xi _i,t_i; \ldots \}\) with \(t_i \le t_{i+1}\) . Subsequently, given policy V , the controlled process y ( t ) is defined as follows:

where \(\alpha _t = {\text {max}}\{n|t_n \le t\}\) . Holding costs are given by function f ( y ) and transaction costs by function \(C(\xi )\) , which is assumed to be lower semicontinuous and unbounded from above when \(|\xi |\rightarrow \infty\) . These holding and transaction cost functions satisfy the following inequalities:

As a result, each control policy V has an associated cost

where \(\gamma >0\) is the discount rate and \(\chi _{t_i < \infty } = 1\) if \(t_i<\infty\) , and zero otherwise. The problem is then to minimize \(J_x(V)\) over the set A of admissible controls V . The optimal control is obtained by dividing \(\mathbb {R}^n\) into two complementary regions: a continuation set, where the system evolves freely, and an intervention set, where the system is controlled in an optimal manner.

In summary, Baccarin ( 2009 ) provided a sound theoretical framework for cash management systems with multiple bank accounts within a continuous time framework with general cost functions and a single objective, namely, cost. Cash flows are assumed to follow a Wiener process, and the numerical solution to the optimization problem can be obtained by the finite element method, as described in Cortey-Dumont ( 1985 ), Boulbrachene ( 1998 ), which considers a discrete approximation of the continuous framework described above.

Recent contributions: the operation’s research perspective

In this section, we refer to several recent cash management works (after 2000) that deserve a mention because of some interesting characteristics. In this sense, Hinderer and Waldmann ( 2001 ) formally introduced the concept of environmental uncertainty in CMP by providing a rigorous mathematical framework and exploring different cases of cash flow processes. Premachandra ( 2004 ) used a diffusion process as in Baccarin ( 2009 ) to propose a generalized version of the Miller and Orr ( 1966 ) model. Baccarin ( 2002 ) also considered quadratic holding costs for the first time in the cash management literature. Bensoussan et al. ( 2009 ) extended the model by Sethi and Thompson ( 1970 ) by applying a stochastic maximum principle to obtain the optimal cash management policy.

Melo and Bilich ( 2013 ) proposed an Expectancy Balance Model to minimize combined holding and shortage costs in an attempt to deal with uncertainty. This model considers the existence of both deterministic flows, which are known in advance, and stochastic flows, grouped into intervals of occurrence. Recently, da Costa Moraes and Nagano ( 2014 ) proposed the use of genetic algorithms, as in Gormley and Meade ( 2007 ) and particle swarm optimization to solve the CMP using the Miller and Orr ( 1966 ) model. They provide numerical examples using Gaussian cash flows for both solvers within the structure of a single bank account and two alternative investment accounts.

Salas-Molina et al. ( 2018 ) proposed a multi-objective approach to the CMP by considering not only the cost but also the risk of alternative policies using the Miller and Orr ( 1966 ) model and compromise programming (Zeleny 1982 ; Yu 1985 ; Ballestero and Romero 1998 ). They proposed the use of the standard deviation (and upper semi-deviation) of daily costs as a measure of risk. The third goal (stability) was proposed in Salas-Molina et al. ( 2020 ). In Salas-Molina et al. ( 2017 ), the authors showed that forecasting accuracy is highly correlated to cost savings in cash management when using forecasts and the Gormley and Meade ( 2007 ) model. The authors used different cash flow forecasters based on time-series features. A similar approach, based on machine learning was proposed by Moubariki et al. ( 2019 ) and Salas-Molina ( 2019 ), developed a machine-learning approach to fit cash management models to specific datasets.

Herrera-Cáceres and Ibeas ( 2016 ) proposed a model predictive control approach in which a given cash balance function is used as a reference trajectory to be followed by means of the appropriate control actions. In this proposal, cash managers aim to minimize deviations from a reference trajectory instead of minimizing any cost function. In contrast, Schroeder and Kacem ( 2019 ), Schroeder and Kacem ( 2020 ) described online algorithms to deal with interrelated demands for cash flows without making any assumptions about the probability distribution of cash flows. Finally, a formal approach to managing cash with multiple accounts based on the graph theory was proposed by Salas-Molina et al. ( 2021 ).

A multidimensional analysis of the cash management problem

In the following section, we summarize the main cash management models presented in the literature according to the six dimensions introduced in Section 3, as shown in Tables  1 and  2 .

Models. The use of Bound-Based Models (BBM), whose policies are determined by a set of level or bounds, is a common pattern. From the initial inventory approach to the CMP by Baumol ( 1952 ), most models have attempted to derive optimal policies within the framework of some simple policy, typically employing constant cash balance bounds. A slight departure of this framework was considered by Stone ( 1972 ) and Gormley and Meade ( 2007 ) to introduce forecasts as key inputs to a BBM model. A more practical approach was followed by Archer ( 1966 ) to focus on the statistical exploration of data to deal with the lack of synchronization of inflows and outflows. Recently, Baccarin ( 2009 ), Bensoussan et al. ( 2009 ) and Schroeder and Kacem ( 2020 ) proposed models without relying on bounds.

Cash flow process. A wide variety of cash flow processes have been considered in the literature, ranging from the uniform and perfectly known cash flow in Baumol ( 1952 ) and Tobin ( 1956 ), to purely stochastic behavior in Miller and Orr ( 1966 ), Eppen and Fama ( 1969 ), Constantinides and Richard ( 1978 ), Premachandra ( 2004 ), Baccarin ( 2009 ), da Costa Moraes and Nagano ( 2014 ), which usually implies a Gaussian distribution. The selection of any cash flow process implies the assumption of either a continuous time framework (Constantinides and Richard 1978 ; Baccarin 2009 ) or a discrete time framework (Stone 1972 ; Penttinen 1991 ; Gormley and Meade 2007 ). Data sets are hardly used with the exception of Salas-Molina et al. ( 2018 ).

Cost functions. The linear cost assumption is also a common pattern with the exception of Baccarin ( 2002 , 2009 ), that considered more general cost functions. However, there also exist differences in the linear approach. While Baumol ( 1952 ) and Miller and Orr ( 1966 ) considered only fixed costs, Tobin ( 1956 ) and the subsequent works included fixed and variable costs in their models.

Objectives. It is also important to note that all models focus on a single objective, namely, cost, neglecting risk analysis. However, the works by Stone ( 1972 ), Hinderer and Waldmann ( 2001 ), Gormley and Meade ( 2007 ) are remarkable initial attempts to include uncertainty in the analysis of the best policies. The use of forecasts seems to be a sound strategy to reduce uncertainty in the CMP as shown in Salas-Molina et al. ( 2017 ). To handle the inherent uncertainty of cash flows, Salas-Molina et al. ( 2018 ) introduce the concept of risk analysis in a multi-objective approach to the CMP. Finally, Salas-Molina et al. ( 2020 ) extended the multi-objective approach to three different goals: cost, risk, and stability.

Solvers. There are also differences in the techniques used for solving the CMP. However, three solving techniques stand out: analytic solutions as in Baumol ( 1952 ), Tobin ( 1956 ), Miller and Orr ( 1966 ), Constantinides and Richard ( 1978 ), Hinderer and Waldmann ( 2001 ), Schroeder and Kacem ( 2020 ); dynamic programming as in Eppen and Fama ( 1969 ), Daellenbach ( 1971 ), Penttinen ( 1991 ), Chen and Simchi-Levi ( 2009 ); and approximate techniques as in Archer ( 1966 ), Stone ( 1972 ), Gormley and Meade ( 2007 ), da Costa Moraes and Nagano ( 2014 ).

Bank accounts. Although cash management systems with multiple bank accounts are the rule rather than the exception in practice, almost all previous models derive policies for a single bank account and provide no method to extend their results to multiple bank accounts. Only Baccarin ( 2009 ) approached the CMP from a multidimensional perspective to deal with multiple bank accounts. More recently, Salas-Molina et al. ( 2020 ) considered multiple bank accounts in the CMP and Salas-Molina et al. ( 2021 ) proposed a formal analysis of cash management models with multiple bank accounts based on graph theory.

Open research questions in cash management

From the previous review, it can be concluded that all relevant issues regarding cash management have been covered by the aforementioned cash management models. However, our taxonomy allows for the identification of open research questions in cash management, as we discuss next. From Table 1 , we can infer that bound-based models seem to be a common pattern in cash management. However, recent proposals have questioned the use of bounds (Baccarin 2009 ; Herrera-Cáceres and Ibeas 2016 ) and probability distribution assumptions to derive optimal policies (Schroeder and Kacem 2019 , 2020 ). Indeed, the ultimate goal of cash managers is not to find the best set of bounds but the best policy disregarding the required steps to achieve it. The utility of forecasts in cash management have been demonstrated in Gormley and Meade ( 2007 ) and Salas-Molina et al. ( 2017 ). These results must encourage cash managers to rely on time-series forecasting or machine learning techniques to reduce uncertainty in the near future.

In addition to its critical importance for real-world institutions, empirical cash flows are not common in cash management literature, with the exception of Emery ( 1981 ), Gormley and Meade ( 2007 ) and Salas-Molina et al. ( 2017 ), Salas-Molina et al. ( 2018 ). Common assumptions imply Gaussian, independent, and stationary cash flows in the form of a random walk or a diffusion process (Miller and Orr 1966 ; Constantinides and Richard 1978 ; Baccarin 2009 ). However, real-world cash flows may not accommodate such strong assumptions. As a result, the particular statistical properties of cash flows and their ability to predict them are research questions worth addressing.

The assumption of linear cost functions is not as restrictive in cash management as it may appear at first glance. However, considering piece-wise linear cost functions as in Katehakis et al. ( 2016 ) or even non-linear cost functions as in Baccarin ( 2002 , 2009 ) may allow a better representation of real-world cash management problems. A closely related topic is the selection of risk measures when considering not only cost but also the risk of alternative policies as an additional objective in cash management, as suggested by Salas-Molina et al. ( 2018 ). The authors used the standard deviation of daily costs as a measure of risk; however, alternative measures of risk can also be explored (Artzner et al. 1999 ; Szegö 2002 ; Rockafellar and Uryasev 2002 ). Indeed, a comprehensive risk analysis of cash management represents an appealing research area in cash management.

Obtaining a policy that optimizes some objective functions is not straightforward. Beyond the discussion about the required assumptions to apply one technique or another, a rather unexplored issue is the optimality of the solutions provided by each method. While dynamic or linear programming ensure optimality, evolutionary algorithms, or particle swarm optimization they return only approximate solutions. However, there is a lack of supporting technology in the form of software applications for cash management that deserves the attention of the research community. The computing times, robustness of the solutions provided, and deployment costs of alternative methods are also worth exploring. From Table 2 , we observe that only Baccarin ( 2009 ) and Salas-Molina et al. ( 2020 ) approached the cash management problem considering multiple bank accounts. Since the presence of several accounts is very common in practice, cash management models that can handle multiple bank accounts and transactions between them constitute an interesting topic.

It is important to highlight that open research questions do not arise by exploring only one dimension at a time. On the contrary, chances are that new research opportunities derive from a combination of values that received little attention of the research community. As an example, consider an unconstrained model using forecasts obtained from empirical cash flows that aim to minimize a multi-objective cost-risk function with piecewise linear cost functions through linear programming within a cash management system with multiple bank accounts.

The existence of multiple dimensions in CMP implies that the selection of cash management models, cost functions, solvers, and many other factors is a complex task. It seems clear that no cash management model is best for any decision-making context. As a result, the design of methodologies to select the appropriate models to solve CMP is an additional open research question. The set of all relevant operating conditions that are important in the decision-making context can be expressed as a set of parameters (Hernández-Orallo et al. 2013 ) that can ultimately be used to select models according to the preferences of practitioners. Multiple criteria decision-making techniques can help deal with multidimensional problems in finance. An example of the application of these techniques to the context of evaluating clustering algorithms in financial risk analysis can be found in Kou et al. ( 2014 ). More recently, Kou et al. ( 2021a ) proposed the use of a hybrid multicriteria decision-making process in which different models were used to rank available alternatives.

Except for Salas-Molina et al. ( 2017 ) and Salas-Molina et al. ( 2018 ), the use of datasets and the application of forecasting models in cash management are scarce. We argue that time-series prediction models and other machine learning techniques may enhance decision-making in finance. We refer interested readers to recent reference books by Dixon et al. ( 2020 ) and Consoli et al. ( 2021 ), reviews by West and Bhattacharya ( 2016 ) and Henrique et al. ( 2019 ), and applications by Moubariki et al. ( 2019 ), Li et al. ( 2021 ), Kou et al. ( 2021b ) and Manthoulis et al. ( 2021 ).

Finally, we must also point out that the integration of external factors, such as the impact of a financial crisis, in cash management models is also an interesting future line of research. In Section 2, we review the related literature on CMP from economic and financial perspectives. In Section 4, we review the most relevant contributions to CMP from the decision-making perspective. By combining these two approaches, we expect that cash management decision-making models can be enhanced with additional relevant factors. We consider this integration to remain an important open research question in cash management.

Concluding remarks

In this study, we review the research literature relevant to the cash management problem since the first contribution by Baumol ( 1952 ) to the most recent contributions. We use this review to identify several research opportunities in cash management. We propose a new taxonomy based on the main dimensions of the cash management problem: (i)the model deployed, (ii)the type of cash flow process considered, (iii)the particular cost functions used, (iv)the objectives pursued by cash managers, (v)the method used to set the model and solve the problem, and (vi)the number of accounts considered. We use these six important dimensions as a framework to classify the most relevant contributions in cash management. Linking the dimensions with the reviews, we performed a multidimensional analysis of these contributions, which ultimately allowed us to highlight several open research questions in cash management. As a result, topics such as risk analysis in cash management, the utility of forecasts, and the possibility of handling multiple accounts have been identified as new research opportunities. Researchers may extend the number of dimensions, suggest new instances for each dimension, or even link unexplored instances to enrich the analysis of the cash management problem.

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not applicable.

Abbreviations

Cash management problem

Automated teller machine

Bound based model

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Acknowledgements

We wish to express our thanks to Universitat Politècnica de València, the Spanish Ministry of Science, CSIC and ICREA Academia for their support.

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Salas-Molina, F., Rodríguez-Aguilar, J.A. & Guillen, M. A multidimensional review of the cash management problem. Financ Innov 9 , 67 (2023). https://doi.org/10.1186/s40854-023-00473-7

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Cash flow management and its effect on firm performance: Empirical evidence on non-financial firms of China

Fahmida laghari.

1 School of Accounting, Xijing University, Xi’an City, Shaanxi Province, People’s Republic of China

Farhan Ahmed

2 Department of Economics and Management Sciences, NED University of Engineering & Technology, Karachi City, Pakistan

María de las Nieves López García

3 Department of Business and Economics, University of Almeria, Almería, Spain

Associated Data

The data used in this study is taken from China Stock Market and Accounting Research (CSMAR) database.

The main purpose of this research is to investigate the impact of changes in cash flow measures and metrics on firm financial performance. The study uses generalized estimating equations (GEEs) methodology to analyze longitudinal data for sample of 20288 listed Chinese non-financial firms from the period 2018:q2-2020:q1. The main advantage of GEEs method over other estimation techniques is its ability to robustly estimate the variances of regression coefficients for data samples that display high correlation between repeated measurements. The findings of study show that the decline in cash flow measures and metrics bring significant positive improvements in the financial performance of firms. The empirical evidence suggests that performance improvement levers (i.e. cash flow measures and metrics) are more pronounced in low leverage firms, suggesting that changes in cash flow measures and metrics bring more positive changes in low leverage firms’ financial performance relatively to high leveraged firms. The results hold after mitigating endogeneity based on dynamic panel system generalized method of moments (GMM) and sensitivity analysis considering the robustness of main findings. The paper makes significant contribution to the literature related to cash flow management and working capital management. Since, this paper is among few to empirically study, how cash flow measures and metrics are related to firm performance from dynamic stand point especially from the context of Chinese non-financial firms.

Introduction

Firms’ efficient cash flow management is significant tool to enhance financial performance [ 1 , 2 ]. Exercising proper management of cash flow is vital to the persistence of business [ 3 ]. Cash flow management is primarily concerned with identifying effective policies that balance customer satisfaction and service costs [ 4 ]. Firms manage efficiently of cash flows via working capital by balancing liquidity and profitability [ 5 – 7 ]. Working capital management, which is the main source of firm cash flow has significant importance in the context of China, where firms are restricted with limited access to external capital markets. In order to fulfill their cash flow needs firms heavily depend on internal funds, short-term bank loans, and trade credit in order to finance their undertakings [ 5 ]. For such firms’ working capital plays the role of additional source of finance. Consistent with this view, KPMG China [ 8 ] declared that effective management of working capital has played a vital role to alleviate the effects of recent financial crisis. Additionally, in recent times the remarkable growth of China roots to Chinese private firms’ effective management of working capital in general and their accounts receivables in particular [ 9 ]. Therefore, efficient management of working capital is an avenue that highly influence firm profitability [ 10 – 12 ], liquidity [ 7 , 13 ], and value. Since corporates cash flow management policies settle working capital by account receivables, inventories and accounts payables. Hence, existing theories of working capital management support the view that by cash flow manipulation firms can enhance liquidity and competitive positioning [ 6 , 14 , 15 ]. Therefore, firms manipulate cash flows through its measures, as by way speedy recovery of accounts receivables, reducing inventories, and delaying accounts payables [ 16 ]. Hence, the first research question is whether changes in cash flow measures are the tools that could bring positive changes in firm financial performance.

From the accounting perspective, liquidity management evaluates firm’s competence to cover obligations with cash flows [ 17 , 18 ], as uncertainty about cash flow increases the risk of collapse in most regions, industries, and other subsamples [ 19 ]. There are two extents: static or dynamic views, through which corporate liquidity can be inspected. The balance sheet data at some given point of time is a basis for static view. This comprises of traditional ratios such as, current ratios and quick ratios, in order to evaluate firms ability to fulfill its obligations through assets liquidation [ 20 ]. The static approach is commonly used to measure corporate liquidity, however, authors also declare that financial ratio’s static nature put off their capability to effectively measure liquidity [ 21 , 22 ]. The dynamic view is to be utilized to capture the firms’ ongoing liquidity from firm operations [ 16 , 21 ]. Therefore as a dynamic measure, the cash conversion cycle (CCC) is used by authors to measure liquidity in empirical studies of corporate performance [ 23 ]. For instance; Zeidan and Shapir [ 24 ] and Amponsah-Kwatiah and Asiamah [ 25 ] find that reducing the CCC by not affecting the sales and operating margin increases share price, profits and free cash flow to equity. Accordingly, Farris and Hutchison [ 20 ] find that shorter cash conversion cycle leads to higher present value of net cash flows generated by asset which contribute to higher firm value. Moreover, Kroes and Manikas [ 1 ] used operating cash cycle as a measure for cash flow metrics, which combines accounts receivables and firm inventory. As explained by Churchill and Mullins [ 26 ] that all other things being constant shorter the operating cash cycle faster the company can reassign its cash and can have growth from its internal resources. The second research question therefore is that whether changes in cash flow metrics bring positive improvements in firm financial performance.

Study uses CSMAR database of Chinese listed companies from the period 2018:q2-2020:q1. In the study, measure of firm performance is Tobin’s-q. Study uses three cash flow measures; accounts receivables turning days, inventory turning days and accounts payable turning days, and cash conversion cycle and operating cash cycle as measure for cash flow metrics. Consistent with the prediction, study finds that changes in cash flow measures and metrics bring positive improvements in firm financial performance. In particular decline in cash flow measures (ARTD, ITD, and APTD) to one unit would increase firm performance approximately 6.8%, 0.03%, and 7.2%; respectively. Additionally, one unit decline in cash conversion cycle would increase firm performance approximately 3.8%. Furthermore, study uses GMM estimator to alleviate the endogeneity and observe that the main estimation results still hold. In addition, study also employs a sensitivity analysis specifications to better isolate the impact of changes in cash flow measures and metrics on firm financial performance in previous period and observe that negative association is still sustained.

The sizable number of listed firms in China enable the study to divide sample into two subsamples: firms in high leverage industry and firms in low leverage industry. The study repeats the test on these two subsamples. Significant and negative association between cash flow measures, metrics and firm financial performance is still sustained. Moreover, the results of differential coefficients across two sub samples via seemingly unrelated regression (SUR) systems indicated that cash flow measures and metrics are more pronounced in low debt industries.

The paper makes significant contribution to the literature related to cash flow management and working capital management. First, this paper is among few to empirically study, how cash flow measures and metrics are related to firm performance from dynamic stand point especially in the Chinese context. The study sheds light on the role of cash flow management in improving the firm’s financial performance. Second, extant researches on cash flow management focus on the manufacturing industries. Unlike others this paper investigates the relation between cash flow measures, metrics and firm performance in the context of whole Chinese market, which is essential to know how these performance levers contribute to financial performance of other industries also. Third, results highlight the role of cash flow management in improving financial performance by taking firms’ leverage into consideration and declare that low leveraged industries are better off in terms of influence of changes in cash flow measures and metrics on firm performance. Fourth, the present paper uses generalized estimating equations (GEEs) Zeger and Liang [ 27 ] technique which is robust to estimate variances of regression coefficients for data samples that display high correlation between repeated measurements. Finally, to ensure robustness of findings the study uses sensitivity analysis, and in order to control for the potential issue of endogeneity the present study also uses generalized method of moments (GMM) following statistical procedures of Arellano and Bover [ 28 ] and Blundell and Bond [ 29 ].

The remainder of the paper is organized as follows. Section two discusses the role of cash flow management in China. Section three discusses the relevant literature, theoretical framework and development of hypotheses. Section four presents the data and variables of the study. Section five reports the methodology, empirical results and discussions. Section six concludes the paper.

Cash flow management in China

The economy of China has undergone a massive economic growth rates followed by high rates of fixed investment in the past three decades [ 5 , 30 ]. This growth miracle is outcome of highly productive firms and their ability to accrue significant cash flows [ 31 ], despite inadequate financial system. Moreover, although Chinese economy has seen fast growth and development in the past two decades but still the legal environment in China cannot be regarded as conducive [ 32 , 33 ]. As, in the credit market of China government plays a decisive role in credit distribution [ 34 , 35 ], and mostly the credit is granted to companies owned by state or closely held firms [ 34 , 36 ]. The Chinese firms have restricted admittance to the long-standing funds marketplace [ 37 ], therefore, companies held private or non-SOE find difficulty to access credit from financial market relatively to state owned firms. Although by the 1998 leading Chinese banks were authorized to lend credit to privately held firms but still these firms face troublesome to get external finance comparatively to state owned firms [ 32 ]. The prior literature also indorses this and states that with the presence of regulatory discrimination amid privately held and state owned firms, the privately held firms to the extent are often the subject of state predation [ 38 , 39 ].

Given country’s poor financial system, firms in China have managed their growth rates from their internal resources. Working capital management from where firms manage cash flows is the source of financing of the growth by Chinese firms. Accordingly, Ding et al . [ 5 ] mentioned that in their sample of Chinese firms about 66.6% dataset were characterized by a large average ratio of working capital to fixed capital, as it is a source and use of short term credit. Additionally, Dewing [ 40 ] termed working capital as one of the vital elements of the firm along with fixed capital. Moreover, Ding et al . [ 5 ] conclude that in the presence of financial constraints and cash flow shocks still Chinese firms can manage high fixed investment levels which correspond more to working capital than fixed capital. They further state that this all roots to the efficient management of working capital that Chinese firms use in order to mitigate liquidity constraints.

Literature review, theoretical background and hypothesis development

Literature review and theoretical background.

Corporate finance theory states that the main goal of a corporation is to maximize shareholder wealth [ 41 ]. Neoclassical capital theory is based on the proposition put forward by Irving Fisher [ 42 ] that individual consumption decisions can be separated from investment decisions. Fisher’s separation theorem holds true in perfect capital markets, where companies and investors can lend and borrow on the same terms without incurring transaction costs. In such a world, the choice to change income streams by lending and borrowing to meet preferences of consumption means that investors rank income streams according to their present value. Therefore, the value of the company is maximized by choosing the set of investments that generate the largest net present value over returns. When the company pays cash dividends with capital reserves, cash dividends can be maintained at a certain level, and when the ratio of capital reserves to cash dividends is high, accrual income management is low [ 43 ]. Since Gitman’s [ 44 ] seminal work, in which he introduced the concept of cash circulation as a means of managing corporate working capital and its impact on firm liquidity. Richards and Laughlin [ 16 ] then transformed the cash cycle concept into the Cash Conversion Cycle (CCC) theory for analyzing the working capital management efficiency of firms. CCC theory holds that effective working capital management (i.e., shorter cash conversion cycles) will increase a company’s liquidity, all else being equal. Signal theory can illustrate how a company can provide excellent signals to users of financial and non-financial statements [ 45 ]. In addition, this theory can also be used as a reference for investors to see how good or bad a company is as an investment fund. This theory explains the relationship between working capital turnover and profitability.

The trade-off theory in capital structure is a balance of benefits and sacrifices that may occur due to the use of debt [ 46 ]. The higher the amount a company spends on financing its debt, the greater the risk that they will face financial hardship due to excessive fixed interest payments to debt holders each year and uncertain net income. Higher cash flow uncertainty leads to an increased risk of business collapse [ 19 ]. Companies with high levels of leverage should keep their liquid assets high, as leverage increases the likelihood of financial distress. This theory is used to explain the relationship between leverage and profitability. Pecking order theory explains that companies with high liquidity levels will use more debt funds than companies with low liquidity levels [ 47 ]. Liquidity measures a company’s ability to meet its cash needs to pay short-term debts and fund day-to-day operations as working capital. The better the company’s current ratio, the more the company will gain the trust of creditors so that creditors will not hesitate to lend the company funds used to increase capital, which will benefit the company.

Prevailing working capital management theories argue that firms can improve their competitive position by manipulating cash flow to improve liquidity [ 14 , 15 , 20 , 48 – 50 ]. In addition, the company’s ability to convert materials into cash from sales reflects the company’s ability to effectively generate returns from investments [ 51 ]. It’s better to combine investment spending with cash flow from ongoing operations than to measure and report both discretely [ 52 ]. Three factors directly affect the company’s access to cash: (i) the company’s inability to obtain cash receivables while waiting for the customer to pay for the delivered goods; (ii) the company is unable to obtain cash receivables; (iii) the company is unable to obtain cash receivables. (ii) Cash invested in goods is tied up and unavailable and the goods are inventoried; and (iii) cash may be made to the company if it chooses to delay payment to suppliers for goods or services provided [ 16 ]. While a company’s cash payments and collections are typically managed by the company’s finance department, the three factors that affect cash flow are primarily manipulated by operational decisions [ 53 ].

In the literature, the prevailing view is that the presence of liquidity is not always good for the company and its performance, because sometimes liquidity can be overinvested. Since emerging markets are characterized by imperfect markets, companies maintain internal resources in the form of liquidity to meet their obligations. As in emerging markets, financial markets are inefficient in allocating resources and releasing financial constraints, resulting in underinvestment by financially constrained companies [ 54 ]. In addition, access to capital markets, external financing costs, and availability of internal financing are financial factors on which a company’s investments rely [ 55 ]. Alternatively, the pecking order theory [ 56 ] argues that due to information asymmetry, companies adopt a hierarchical order of financing preferences, so internal financing takes precedence over external financing. A study by Zimon and Tarighi [ 7 ] argue that businesses must use the right working capital strategy to achieve sustainable growth as it optimizes operating costs and maintains financial liquidity. Moreover, asset acquirements affect a company’s output and performance [ 57 ].

The existing literature provides different evidence of the impact of working capital management on firm performance. A study by Sharma and Kumar [ 58 ] examine the relationship between working capital management and corporate performance in Indian firms. Considering a sample of 263 listed companies during the period 2000–2008, they found that CCC had a positive impact on ROA. Similarly, of the 52 Jordanian listed companies in the period 2000–2008, Abuzayed [ 11 ] found a positive impact of CCC on total operating profit and Tobin’s-Q. Similar findings have been reported by companies in China [ 59 ], the Czech Republic [ 60 ], Ghana [ 25 ], Indonesia [ 6 ], Spain [ 61 ], and Visegrad Group countries [ 62 ]. In contrast, few studies reported an inverse correlation between CCC and firm performance in India [ 63 ], Malaysia [ 2 ], and Vietnam [ 64 ]. A negative correlation indicates that a higher CCC leads to lower company performance. A study by Afrifa et al. [ 65 ] did not find any significant relationship between CCC and firm performance. The findings of the relationship between NWC and company performance are not much different from CCC. Companies in European countries [ 66 ], and the United Kingdom [ 67 ] reported positive correlations, and those in Poland reported negative correlations [ 68 ]. Although previous operations management studies have explored the relationship between working capital and firm performance, the results of these studies remain inconclusive, and the study has found positive, curved, and even insignificant relationships. This is mainly since accidental factors make this relationship both complex and special. Therefore, to enhance the beneficial impact of working capital and cash flow on corporate performance, companies must make appropriate investments to promote more objective, informed, and business-specific working capital and cash flow management choices [ 69 ]. Collectively, these mixed pieces of evidence provide sufficient motivation for this study to develop hypotheses based on positive and negative relationships.

The cash flow measures and firm financial performance

The firms’ trade where merchandise sold on credit instead of calling for instantaneous cash imbursement, such transaction generate accounts receivables [ 70 ]. Accounts receivable directly affect the liquidity of the enterprise, and thus the efficiency of the enterprise [ 71 ]. From the stands of a seller, the investment in accounts receivables is a substantial component in the firm’s balance sheet. Firms’ progressive approach towards significant investment in accounts receivables with respect to choice of policies for credit management contributes significantly to enhance firm value [ 72 ]. Firms can utilize cash received from customers by investing in activities which contribute to enhance sales [ 1 ]. Firms can improve liquidity position with capability to collect overheads from customers for supplied goods and services rendered in a timely manner [ 17 ]. However, credit sales is instrumental to increase sales opportunities for firms but may also increase collection risk which can lead to cash flow stresses even to healthy sales growth companies [ 73 ]. Firms offer sales discounts which may not increase sales but may increase payments by customers and improve firms’ cash flow, reduce uncertainty of future cash flows, reduce risk and required rate of return [ 74 ].

Literature suggests that firm performance increases with shorter period of day’s sales outstanding [ 15 , 20 , 26 ]. Accordingly, Deloof [ 75 ] by working on Belgians firms find negative relationship between number of days accounts receivables and gross operating income. However, models of trade credit (such as; Emery, [ 21 ]) endorse that higher profits also lead to more accounts receivables as firms with higher profits are rich in cash to lend to customers. In a study by García-Teruel and Martinez- Solano [ 76 ] suggest that managers of firms with fewer external financial resources available generally dependent on short term finance and particularly on trade credit that can create value by shortening the days sales outstanding. Furthermore, Gill et al . [ 10 ] declare that firm can create value and increase profitability by reducing the credit period given to customers. Kroes and Manikas [ 1 ] analyzed manufacturing firms and suggested that decline in days of sales outstanding relates to improvements in firm financial performance and persists to several quarters. According to Moran [ 77 ] suppliers happily offer reasonable sales discounts for early payments which improve their cash flow position, locks the receivables, remove the bad debt risk at early stage, and reduce their day’s sales outstanding significantly which ultimately improve their working capital position. Fig 1 depicts this relationship. In consistent with discussion the following hypothesis is proposed:

• H1a : A decrease (increase) in the duration of accounts receivables turning days increases (decreases) firm financial performance.

The research has mixed views whether reduction in inventory is beneficial to firm performance or increase in inventory leads to increased performance. Despite high cash flow, inventory level management has been neglected [ 78 ]. In this regard literature has evidenced three themes of relationships: positive relationship, negative relationship or no relationship, and inclusion of moderators and mediators to the relationship of number of day’s inventory and firm performance [ 79 ]. However, the inventory management revolutionized after the launch of lean system with familiarizing just-in-time inventory philosophy by Japanese companies [ 80 , 81 ]. Afterwards, research related to inventory management evidenced that firms which adopted lean system not only improved customer satisfaction but also attained greater level of asset employment that ultimately leads to higher organizational growth, profitability, and market share [ 82 , 83 ]. Moreover, in a JIT context firms experience positive effects on organizational performance due to reduced inventory, and reduction in inventory significantly improves three performance measures such as: profits, firms return on sales, and return on investments [ 84 ]. Additionally, Fullerton and McWatters [ 85 ] found positive influence of reduced inventory on organizational performance which corresponds to JIT context.

However, generally literature considers that better inventory performance such as: higher inventory turns or decreased level of inventory is normally attributed to better firm financial performance [ 86 ]. Moreover, it is a mutual consent by researchers that high level of inventory also signifies demand and supply misalliance and often related to poor operational performance [ 87 , 88 ]. In a study by Elsayed and Wahba [ 79 ] indicated that there is influence of organizational life cycle on the relationship of inventory and organizational performance. Their results indicated that at initial stage though ratio of inventory to sales negatively affects organizational performance, but it put forth significant and positive coefficient on organizational performance at the revival phase or rapid growth phase. Additionally, literature has documented negative influence of reduced inventory on performance. In a study by Obermaier and Donhauser [ 89 ] evidenced that lowest level of inventory leads to poor organizational performance and suggest that moving towards zero inventory case is not always favorable. Fig 1 depicts this relationship. Accordingly the hypothesis is proposed as follows:

• H1b : A decrease (increase) in the duration of inventory turning days increases (decreases) firm financial performance.

According to Deloof [ 75 ] payment delays to suppliers are beneficial to assess the quality of product bought, and can serve as a low-cost and flexible basis of financing for the firm. On the contrary, delaying payments to suppliers may also prove to be costly affair if firm misses the discount for early payments offered [ 90 ], hence firms by reducing days payable outstanding (DPO) likely to enhance firm financial performance [ 76 ]. In line with this, Soenen [ 22 ] states that firms try to collect cash inflows as quickly as possible and delay outflows to possible length. Payment delays enable firms to hold cash for longer duration which ultimately increases firms’ liquidity [ 50 ]. As discussed by Farris and Hutchsion [ 20 ] that firms can improve cash to cash cycle by extending the average accounts payable along with inventory and get interest free financing. A study by Sandoval et al . [ 91 ] speculate that investors are more sensitive to accruals of long-term operating assets than to accruals of long-term operating liabilities because the former is more associated with recurring profits than the latter. Moreover, Fawcett et al . [ 92 ] indorsed that by extending the duration of accounts payable cycle companies can improve their cash to cash cycle. However, longer payment cycles not only harm relationship with suppliers, but may also lead to lower level of services from suppliers [ 93 ].

As discussed by Raghavan and Mishra [ 94 ] firms may be reluctant to produce or order at optimal point followed by cash restraints for fast growing firms where money plays the role of catalyst when demand is significantly high but firms are financially restricted to order less and this situation may mark the harmful effects over the performance of whole supply chain at least on temporary basis until restored. Hence, this situation is favoring that firms encourage and motivate their customers for quicker payments in order to increase cash to cash cycles [ 92 ]. Fig 1 depicts this relationship. Accordingly based on discussion hypothesis is proposed as follows:

• H1c : A decrease (increase) in the duration of accounts payable turning days’ increases (decreases) firm financial performance.

The cash flow metrics and firm financial performance

As shown by Richards and Laughlin [ 16 ] that firms should collect inflows as quickly as possible and postpone cash outflows as long as possible which is a general view based on the concepts of operating cash cycle (OCC) and cash conversion cycle (CCC). This shows that firms by reducing CCC cycle can make internal operation more efficient that ensures the availability of net cash flows, which in turn depicts a more liquid situation of the firm, or vice versa [ 25 ]. They further said that cash conversion cycle (CCC) is based on accrual accounting and linked to firm valuation. Baños-Caballero et al . [ 95 ] suggested that however, higher level of CCC increases firm sales and ultimately profitability, but may have opportunity cost because firms must forgo other potential investments in order to maintain that level. On the contrary, longer duration of CCC may hinder firms to be profitable because this is how firms’ duration of average accounts receivables and inventory turnover increase which may lead firms towards decline in profitability [ 96 ]. Therefore, cash conversion cycle (CCC) can be reduced by shortening accounts receivables period and inventory turnover with prolonged supplier credit terms which ultimately enable firms to experience higher profitability [ 97 , 98 ]. A shorter duration of CCC helps managers to reduce some unproductive assets’ holdings such as; marketable securities and cash [ 23 ]. Because with low level of CCC firms can conserve the debt capacity of firm which enable to borrow less short term assets in order to fulfill liquidity. Therefore, shorter CCC is beneficial for firms that not only corresponds to higher present value of net cash flows from firm assets but also corresponds to better firm performance [ 60 , 62 ].

Operating cash cycle is a time duration where firm’s cash is engaged in working capital prior cash recovery when customers make payments for sold goods and services rendered [ 16 , 26 ]. Literature endorses that shorter the operating cash cycle better the firm liquidity and financial performance because companies can quickly reassign cash and cultivate from internal sources [ 16 ]. In a study by Kroes and Manikas [ 1 ] find that there is significant negative relationship between changes in OCC with changes in firm financial performance. They further suggested that OCC can be taken by managers as a metric to monitor firm performance and can be used as lever to manipulate in order to improve firm performance. A study by Farshadfar and Monem [ 99 ] also found that when the company’s operating cash cycle is shorter and the company is small, the cash flow component improves earnings forecasting power better than the accrual component. Moreover, Nobanee and Al Hajjar [ 100 ] recommend the optimum operating cycle as a more accurate and complete working capital management measure to maximize the company’s sales, profitability, and market value. Fig 1 depicts this relationship. Hence, based on above discussion the proposed hypotheses are:

• H2a : A decrease (increase) in cash conversion cycle increases (decreases) firm financial performance.
• H2b : A decrease (increase) in operating cash cycle increases (decreases) firm financial performance.

Data and variables

Samples selection.

The data used in this study is taken from China Stock Market and Accounting Research (CSMAR) database. The study includes quarterly panel data of non-financial firms with A-shares listed on Shanghai Stock Exchange (SHSE) and Shenzhen Stock Exchange (SZSE). The data comprises on eight quarters ranging from 2018:q2-2020:q1, and four lag effects are included that make data up to twelve quarters. The use of quarterly data ensures greater granularity in the findings of the study as prior studies have mainly used annual data, therefore, this study uses two years plus one year of lagged data which offers exclusively a robust sample period that is instrumental to effective inference [ 1 ]. The main benefit of this method of examining quarterly changes within a company is that the company cannot have any missing data items throughout the sample period. Because any missing data will lead to design errors and imbalance panel data. Therefore, this problem led to now selection of a 12-quarter observation frame (two years plus one year of lagging data) because it delivers a reliable sample period from which effective conclusions can be prepared. Moreover, the data is further refined and maintained from unobserved factors, unbalanced panels, and calculation biases. Moreover, deleted firm-year observation with missing values; excluded all financial firms; as their operating, investing, and financing activities are different from non-final firms [ 75 , 101 ], eliminated firms with traded period less than one year, and excluded all firms with less than zero equity. The data is further winsorized up to one percent tail in order to mitigate potential influence of outliers [ 76 ]. Additionally, the firms’ data with negative values for instance; sales and fixed assets is also removed [ 67 , 101 ]. The final sample left with balanced panel of 20288 firm year observations consists of 2536 groups. The change (Δ) in all dependent and independent variables of the study sample represents variable period t measured as difference between value at the end of current quarter and value of the variable at the end of prior quarter divided by value of the variable at the end of prior quarter.

Dependent variable

The firm’s financial performance is dependent variable in the study and is measured through Tobin’s-q. Tobin’s-q is the ratio of firm’s market value to its assets replacement value and it is widely used indictor for firm performance [ 1 , 102 – 105 ]. Tobin’s-q diminishes most of the shortcomings inherent in accounting profitability ratios as accounting practices influence accounting profit ratios and valuation of capital market applicably integrates firm risk and diminishes any distortion presented by tax laws and accounting settlements [ 106 ]. Moreover, this variable has preference over other accounting measures (such as; ROA) as an indicator of relative firm performance [ 107 ].

Independent variables

Based on established literature [ 1 , 5 , 12 , 75 , 76 ] this study has used three cash flow measures and two composite metrics as independent variables. Each one of them is discussed below.

Accounts receivables turning days (ARTD)

Accounts receivables turning days (ARTD) are the average number of days required by firms for collecting the payments from customers after the sales is done [ 76 ]. Following Ding et al . [ 5 ] and Tahir and Anuar [ 12 ] the accounts receivables turning days (ARTD) is measured as:

The increasing days of sales outstanding specifies that firm is not handling its working capital efficiently, because it takes longer duration to collect its payments, which signifies that firm may be short of cash to finance its short term obligations due to the longer duration of cash cycle [ 5 ].

Inventory turning days (ITD)

Inventory turning days (ITD) indicate that how many times the firm is capable to rotate its inventories into sales in duration of a year. Study following Kroes and Manikas [ 1 ] and Tahir and Anuar [ 12 ] measures proxy for days of inventory turnover as:

A higher ratio of inventory turnover is a good sign for firm as it signifies that firm is not having too many products in idle condition on shelves [ 5 ].

Accounts payable turning days (APTD)

Accounts payable turning days (APTD) are the average number of days taken by a company for payment to its creditors. Following Deloof [ 75 ]; Tahir and Anuar [ 12 ] the proxy for APTD is measured as:

A firm with higher days of payable outstanding ratio shows that it takes longer duration to make payments to suppliers which is a sign of poor efficiency of working capital, however longer duration of DPO also signifies that company has good terms with suppliers which is also beneficial [ 5 ].

Cash conversion cycle (CCC)

The cash conversion cycle (CCC) introduced by Gitman [ 44 ] (1974) is a dynamic measure of ongoing liquidity management which combines both balance sheet and income statement data. The CCC is a measure of cash outlays for resources and receipt of cash from the sales of a product. Following Deloof [ 75 ], Kroes and Manikas [ 1 ], and Yazdanfar and Öhman [ 96 ] the proxy for CCC is measured as:

It is generally considered that lower the CCC cycle better the firm efficiency and able to accomplish its working capital [ 5 ]. Additionally, longer duration of CCC shows more time duration between cash outlay and recovery of cash [ 76 ].

Operating Cash Cycle (OCC) : Operating cash cycle comprises only a subset of cash conversion cycle metric. Following Kroes and Manikas [ 1 ] the proxy for operating cash cycle (OCC) is measured as:

Operating cash cycle does not take into account the payables, and hence comprises of days where cash is detained as inventory prior receipts of payments from customer [ 1 ]. Besides, generally it is considered that firm having shorter OCC is with better liquidity and performance [ 26 ].

Control variables

This study uses firm size and return on assets as control variables. Following Deloof [ 75 ] the study uses firm size by taking natural logarithm of quarterly sales. The firm size has significant impact on market value of firms [ 103 , 108 ]. Study uses quarterly sales instead of total assets as measure for firm size to avoid the potential multicollinearity problem because total asset is denominator for the dependent variable [ 1 ]. Following Baños-Caballero et al . [ 95 ] study controls for return on asset (ROA) which is accounting measure of firms. Return on assets (ROA) is a ratio of earnings before interest and taxes (EBIT) divided by total assets [ 109 ].

Descriptive statistics

Table 1 shows the descriptive statistics of variables of the study. The mean and median value of ARTD is 92.89 and 73.14, respectively. On average, the firms in our sample have relatively higher median value of days of sales outstanding than evidence of Ding et al . [ 5 ], which shows that Chinese firms take longer to collect their payments from customers. The mean and median value of APTD is 105 and 82.25, respectively. The mean and median value of ITD is 166.18 and 107.13, respectively. On average it shows relatively high inventory turnover in our sample firms which signifies that Chinese firms are quite efficient in inventory management and products are not sitting idle in shelves. The mean and median value of CCC is 150.62 and 115.30, respectively. On average the CCC of Chinese firms is relatively high. However, in a study by Hill et al . [ 101 ] indicated that higher CCC also signifies higher firm profitability. The mean and median value of OCC is 250.71 and 206.44, respectively. The firm performance (Tobins-q) has a mean and median value of 2.86 and 2.27. The ROA shows mean and median value of 2.46 and 1.67, respectively. On average the size of Chinese firms is 20.79 with median value of 20.71.

Note: Please check S1 Appendix for variables descriptions.

The Table 2 reports results for correlation matrix. The correlation coefficient between Tobin’s-Q and CCC is significant and negative at 1 percent level which is consistent to the findings of Afrifa [ 67 ]. The correlation between all the measures of cash flows and ROA is significant and negative at 1 percent, consistent with the results of Deloof [ 75 ]. Moreover the correlation between ROA and CCC is also significant and negative at 1 percent, similar evidences find by García-Teruel and Martinez-Solano [ 76 ] for the sample of Spanish firms. Furthermore, the correlation coefficients among all the variables are significantly lower than 0.80 indicating no sign of multicollinearity [ 110 ]. The formal test of variance inflation factor (VIF) for all the independent variables of study were examined to check if there is presence of multicollinearity. The variance inflation factor (VIF) also indicated no multicollinearity among analysis variables with all values below the threshold level of 10 proposed by Field [ 110 ], which shows that multicollinearity may not be the case and data is suitable for further analysis.

*** denotes statistical significance at the 1% confidence level. Please check S1 Appendix for variables descriptions.

* (D.V) : Tobin’s-q is the dependent variable that’s why not shown VIF results.

Methodology, empirical analysis and discussion

Effect of cash flow measures on firm financial performance.

To investigate the relationship between cash flow measures and firm financial performance, study regresses firm financial performance on cash flow measures and specific control variables. The study followed generalized estimating equations (GEEs) of Zeger and Liang [ 27 ] population averaged technique for the analysis. One of the specific advantage of GEEs over other techniques is, its ability to robustly estimate the variances of regression coefficients for data samples that display high correlation between repeated measurements [ 111 , 112 ]. To model and check the relationship of importance amid the dependent variable and explanatory variables, GEEs practice a function named as link function. Conditional on the dissemination of the dependent variable, many link functions could be stated to line the association amid the forecasted variables and the dependent variable. In the data, the explanatory and explained variables are distributed normally; so, the examines employs the non-transforming function of identity link function Δ(ᴜ i )¼ Y i Ɓ, where ᴜ i ¼ È(ýi|Y i ), and ᵬ signifies the trajectory of coefficients of regression (ᵬ1,…, ᵬn) projected via the GEEs method. The GEEs method evaluates the parameters of model (ᵬ’s) over the iterative process which augments data fit to the research model. Repetitive time-series monetary quantities, for instance; the cash flow mechanisms, display a first order autoregressive link amid time phases [ 113 ]. So, the employed association matrix Ř(ẩ) is outlined with the auto-regressive first-order AR(1) condition [ 27 ]. The following estimation equations of (GEEs) demonstrates the model of regression for cash flow measures:

Where ΔY it represents Tobin’s-q for industry i and time t. The ΔX 1it is accounts receivable turning days (ΔARTD), and ΔX 1it-1 to ΔX 1it-4 are lags for ΔARTD. The ΔX 2it is inventory turning days (ΔITD), and ΔX 2it-1 to ΔX 2it-4 are lags for ΔITD. The ΔX 3it is accounts payable turning days (ΔAPTD), and ΔX 3it-1 to ΔX 3it-4 are lags for ΔAPTD. The CONTROLS it represent control variables; Size and ROA. The U it is probabilistic term. Study included four lag effects in Eq 6 for cash flow measures to examine how long the impact of changes in cash flow measures on changes in firm performance persists.

Table 3 provides detailed results of GEEs model’s parameters estimation analysis. The dependent variable is firm performance (Tobin’s-q) in all the models columns 2 through 4. H1a , H1b , and H1c posits that changes in measures of cash flow (ΔARTD, ΔITD, and ΔAPTD) changes firm financial performance. The coefficient of accounts receivable turning days (ΔARTD) in model 1 is -0.0068297, which is statistically significant at 0.1% confidence level in the current quarter. It is consistent with the study’s argument that decline in firms’ days of accounts receivables increases firm financial performance. Similar evidences were found by Shin and Soenen [ 13 ], Wilner [ 114 ], Deloof [ 75 ], and Kroes and Manikas [ 1 ]. According to Deloof [ 75 ] the negative relationship between days sales outstanding and firm performance suggests that managers can create value for their shareholders by reducing number of day’s accounts receivables to a reasonable minimum.

Note: Standard errors are in parentheses.

***, **, *; indicate significant at 0.1%, 1%, and 5% respectively.

Please check S1 Appendix for variables descriptions.

The coefficient of inventory turning days (ΔITD) in model 1 is -0.0003014, which is statistically significant at 0.1% confidence level in the current quarter. These results are consistent with the argument given in hypothesis H1b . Significant number of studies conclude that low inventory period increases liquidity and firm performance [ 75 , 86 , 115 , 116 ]. Moreover, this finding is consistent with literature as firms sound inventory position exhibits better operational and financial performance [ 117 , 118 ].

The coefficient of accounts payable turning days (ΔAPTD) in model 1 is -0.0717425, which is statistically significant at 0.1% confidence level in the current quarter. These results are consistent with present study’s argument that decline in accounts payable turning days brings positive improvements in firm performance. The findings of results for APTD present strong evidence that when companies reduce their APTD by taking advantage of early discounts payment from suppliers, firms may have a persistent duration of perpetual firm financial performance improvement. As suggested by Moran [ 77 ] that firms may be more beneficial by taking advantage of early payment discounts than prolonging the cycle because of reduction in purchase price of components and materials by them.

Next, study estimated Eq 6 by dividing the sample into two subsamples based on firm leverage level, which is measured by firms’ debt to assets ratio. The high leverage (low leverage) contains firms in industries where their debt to assets ratio is greater (smaller) than the median value. Model 2 and 3 obtain similar patterns when applied on Eq (6) for high and low leveraged firms. The findings of results for high leverage and low leverage firms still hold as of full sample firms and strongly support hypotheses H1a , H1b , and H1c . Conclusively, the findings of results imply that reduction in three cash flow measures (ARTD, ITD, and APTD) relate to significant positive improvements in financial performance of firms at current quarter.

Effect of cash flow metrics on firm financial performance

In this section, the study investigates how changes in cash flow metrics (CCC and OCC) change firm financial performance. Previous literature suggests that lower the level of CCC and OCC better the firm financial performance. Since with longer duration of cash conversion cycle firms may encounter with shortage of liquidity and firm operation may be affected. Hence, the study assumes that changes in CCC and OCC bring positive improvements in firm financial performance. Present study applied following estimation equations of (GEEs) model for cash flow metrics. The model is stated as:

Where ΔY it represents Tobin’s-q for industry i and time t. The ΔX it is ΔCCC and from ΔX 1it-1 to ΔX 1it-4 are lags for ΔCCC. The ΔX 2it is OCC and from ΔX 2it-1 to ΔX 2it-4 are lags for ΔOCC. The CONTROLS it shows the control variables; Size and ROA. The U it is probabilistic term. Study includes four lag effects in Eq 7 for cash flow metrics to examine how long the impact of changes in CCC and OCC on changes in firm performance persists.

Table 4 represents results for cash flow metrics (CCC and OCC). H2a and H2b predict that changes in ΔCCC and ΔOCC bring positive changes in the firm financial performance. The coefficient for the cash conversion cycle (ΔCCC) is -0.0382176, which is statistically significant at a 5% confidence level in the current quarter (as shown in Table 4 column 2).

Next, the study estimated Eq 7 by dividing the sample into two subsamples based on firm leverage level which is measured by firms’ debt to assets ratio. The results in Table 4 Column 3 posit findings for highly leveraged firms. The coefficient for ΔCCC is -0.4038345, which is statistically significant at a 1% confidence level in the current quarter, as shown in Table 4 Column 3. The coefficient for ΔOCC is -0.0572725, which is statistically significant at a 1% confidence level in the current quarter, as shown in Table 4 Column 3. The coefficient for ΔCCC is -0.027272, which is statistically significant at a 0.1% confidence level, as shown in Table 4 column 4 for low-leverage firms at the current quarter.

As predicted by the hypothesis H2a ; the findings of results also show significant negative association of CCC with firm financial performance at current quarter for full sample firms, high leveraged firms, and low leveraged firms. These evidences of results are consistent with existing literature and show that decline in cash conversion cycle brings positive improvements in firm financial performance [ 13 , 23 , 75 , 76 , 96 , 97 , 119 ]. A study by Zeidan and Shapir [ 24 ] finds that reducing the CCC by not affecting the sales and operating margin increases the prices of shares, profits, and free cash flow to equity. Moreover, Prior research view that careful handling of the cash conversion cycle leads firms to significantly higher returns [ 13 , 23 , 75 , 76 , 97 ]. This outcome is consistent with the research by Simon et al. [ 120 ], Soukhakian and Khodakarami [ 121 ], Basyith et al. [ 6 ], Yousaf et al. [ 60 ], and Bashir and Regupathi [ 2 ]. The findings of the results show a significant negative association of OCC with firm financial performance in the current quarter for highly leveraged firms. The findings suggest that change in OCC led to changes in corporate performance provides significant support to the use of OCC as an indicator for managers to monitor performance and as a lever to manipulate to improve the corporate financial performance. The findings show that OCC in the current quarter posits a significant negative relationship with firm financial performance for highly leveraged firms. This evidence is consistent with the empirical findings of Churchill and Mullins [ 26 ].

Difference of coefficients across high leverage and low leverage firms

In addition, in the next section the present study analyzed the difference of coefficients across two groups by dividing sample into two subsamples, high leveraged and low leveraged firms based on their total debt to total assets ratios. In order to check the difference of coefficients across two groups study applied seemingly unrelated regression (SUR) system on Eqs ( 6 ) and ( 7 ) to better isolate the effect of cash flow measures and metrics on firm financial performance. The study computed standard errors for differenced coefficients via the seemingly unrelated regression (SUR) system that combines two groups.

The Table 5 reports results for differential impact of cash flow measures and metrics on firm performance across high leverage and low leverage industries. The study finds that the estimated coefficients for differences are positive and statistically significant. These findings of results imply that low leveraged industries are better off in terms of changes in cash flow measures and metrics that bring more positive changes in low debt industries financial performance. Since, low cash conversion cycle (CCC) conserves the debt capacity of the firm as in this situation firms need less short term borrowing to provide liquidity [ 97 ]. Therefore, lower cash conversion cycle (CCC) lessens the requirement for lines of credit and contributes to the firms’ debt capacity [ 23 ]. Due to high financial distress and higher likelihood of bankruptcy high leverage firms are more bounded by financial constraints which may hinder them to take valuable investments and, thus, harm their profitability [ 122 ]. This also suggests that firms with low leverage are high value firms and maintain lower duration of cash conversion cycle (CCC) at low levels that counts to higher profitability which ultimately leads to higher retained earnings and reduce the need for debt.

***, **, *; indicate significant at 1%, 5%, and 10% respectively.

Test of endogeneity effect and sensitivity analysis

To further identify an endogeneity concern in estimated results following Arellano and Bover [ 28 ] and Blundell and Bond [ 29 ] study uses system GMM estimator to alleviate the endogeneity to further investigate the effect of changes in cash flow measures and metrics on firm financial performance. The system GMM method of estimation provides consistent parameter estimates by utilizing instruments that can be obtained from the orthogonality conditions that exist between the lagged values of the variables and disturbances [ 123 ]. The system GMM model controls unobserved heterogeneity and potential problems of endogeneity which cash literature has often highlighted [ 124 ]. The significant benefit of using GMM estimator is that GMM estimator is robust to capture endogeneity issues and also controls serial correlation problem. Precisely, the present study following Blundell and Bond [ 29 ] measured two estimators that can expand the accuracy of the standard first-differenced GMM estimator for the GMM models of this paper. One method enforces an added constraint on the primary settings process, under which all the moment conditions accessible can be exploited by a linear GMM estimator in a system of first-differenced and levels equations. The second method situations, on the pragmatic early standards, to gain a system that under certain conditions can be projected constantly by error components, known as generalized least square (GLS). The finite sample properties of these estimators were studied using Monte Carlo simulations. Both can increase vibrantly on the performance of the usual first-differenced GMM estimator when the autoregressive parameter is moderately high and the number of time-series observations are moderately small. Besides, asymptotic variance comparisons recommend that the system GMM estimator can be significantly more effectual than non-linear GMM in this case. Our results extend certainly towards dynamic models with regressors. The AR (2) test represents the test for residual’s second-order serial correlation in the differenced equation, asymptotically distributed as (0, N) under the hypothesis of no serial correlation. The study follows Monte Carlo simulation where in Eq (8) , i = 1, 2, …,N and t = 2, 3, …, T , wherein each case the Ƞi and ɛ i , t are drawn as mutually independent i.i.d. N(0,1) [ 29 ]. Moreover, following Blundell and Bond’s [ 29 ] study employed option robust to obtain robust standard errors after levels equations in all system GMM estimations. Sargan test represents the test for over-identifying restriction asymptotically distributed as chi-square under the null of instrument validity. The study employs following GMM equations:

Where ΔY it represents firm performance, ΔY it-1 is first lag of dependent variable firm performance. All the independent variables (cash flow measures and metrics) are denoted with ΔX it . CONTROLS it represents control variables and λ t shows time fixed effects, Ƞ i represents industry fixed effects, and ɛ it represents unobserved heterogeneity factors.

Table 6 represents estimated results obtained using Eq (8) . The findings of study observes significant negative association between cash flow measures, metrics and firm financial performance in the full sample, high leverage and low leverage subsamples, indicating that firms’ changes in cash flow measures and metrics bring significant positive improvements in financial performance. Overall, the results still hold after study considers the endogeneity problem, supporting the hypotheses of the study.

Note: The t-statistics in brackets.

In addition, the study further employs a sensitivity analysis specifications to better isolate the impact of changes in cash flow measures, metrics on firm financial performance. Since changes in cash flow measures and metrics may also affect the firm’s financial performance in previous period. In order to investigate influence of changes in cash flow measures and metrics on firm performance in previous period the present study replaced main independent variables with their one period lagged variables. The study regresses firm performance on cash flow measures and metrics with other potential determinants as follows:

Where ΔY it represents firm performance. All the independent variables (cash flow measures and metrics) are denoted with ΔX it-1 , and CONTROLS it represents control variables. D t shows time fixed effect, D i represents industry fixed effects, and ɛ it represents unobserved heterogeneity factors.

Table 7 represents estimated results of sensitivity analysis regression. The study finds that estimated coefficients of cash flow measures (ΔARTD t-1 , ΔITD t-1 , ΔAPTD t-1 ) and cash flow metrics (ΔCCC t-1 , ΔOCC t-1 ) are negative and significant, indicating that changes in previous period’s cash flow measures (ΔARTD t-1 , ΔITD t-1 , ΔAPTD t-1 ) and cash flow metrics (ΔCCC t-1 , ΔOCC t-1 ) bring significant positive changes in firm financial performance. The study finds similar results to the previously reported findings for alternative subsamples of high leverage and low leverage firms. Overall, the sensitivity analysis results still hold in consistent with the primary analysis results and ensure robustness of main analysis results of the study.

Practical, managerial, and regulatory implications

This study provides significant practical, managerial, and regulatory implications for cash flow management and working capital management decisions in the corporate sector to improve performance. Most studies on cash flow management have focused on its relationship to profitability from the perspective of manufacturing companies. This research focuses on cash flow management by linking the leverage of non-financial firms in the Chinese context, a fundamental issue of corporate cash flow management and working capital investment that has not been studied much in the emerging markets scenario. Practically study suggests that a decline in cash flow measures and metrics positively enhances a company’s financial performance. Moreover, the paper determines that low-leverage industries perform healthier to cash flow measures and metrics changes. The study also reveals that companies in low-debt industries experience more positive improvements in their financial performance relative to high-debt industry companies. Therefore, the findings of this paper suggest that highly leveraged companies may be less conducive to improving corporate performance in industries where competitors’ leverage is relatively low.

Thus, from managers’ and policymakers’ points of view, the analysis found that changes in cash flow measures (ARTD, ITD, and APTD) and metrics (CCC and OCC) have led to significant positive improvements in the company’s financial performance. These positive changes in the CCC mean that changes in the accounts payable cycle appear to mitigate the combined impact of changes in the accounts receivable and inventory cycles. For managers, this finding suggests that reducing CCC simply by lowering APTD can translate into improvements in company performance. These findings provide rich insights and practical implications for managers and policymakers to use CCC as an operational tool to improve company performance. Therefore, managers and policymakers must actively evaluate the company’s policies regarding cash flow management, working capital management, corporate leverage, and capital budgeting policy before capitalizing on these companies.

Conclusion, limitations, and future implications

Cash flow management is the central issue of company operational strategies that affect a firm’s operational decisions and financial position. Firms’ effective policy of cash flow management is achievable through efficient management of working capital, which is possible through shorter days of accounts receivables, giving discounts on prompt payments, offering cash incentives, reducing inventory turning days through sound inventory management policies, shortening days of accounts payable by achieving rebate on early outlays. Likewise, inventory turnover may lead to a significant positive relationship with organizational performance symbolized by return on assets, cash flow margins, and return on sales in the JIT context. Moreover, high-performance firms may have a lengthier duration of days of accounts payables, which ensures the presence of liquidity. Many firms invest a large portion of their cash in working capital, which suggests that efficient working capital management significantly impacts corporate profitability.

This paper offers a strong insight and findings on cash flow management and firm financial performance by examining the Chinese full sample firms, high debt, and low debt firms to investigate the impact of changes in cash flow measures and metrics on firm performance. Using the exclusive cash flow measures and metrics data, study finds that decline in cash flow measures and metrics bring significant positive changes in firm financial performance. Moreover, study finds that low leveraged industries are better off in terms of changes in cash flow measures and metrics that bring more positive improvements in low debt industries firms’ financial performance relatively to high debt industries firms. This paper also demonstrates that, following firms’ leverage, high-leveraged firms may be less advantageous to enhance firm performance in industries where rivals are relatively low-leveraged.

The results of the study are consistent with the argument that changes in cash flow measure (ARTD, ITD and APTD) and metrics (CCC and OCC) bring significant positive improvements in firm financial performance. These findings furnish a great amount of insight and practical implication for manager to utilize CCC as operating tool in order to enhance firm performance. Firms by actively monitoring and controlling levers such as; ARTD, ITD, APTD, CCC, OCC can enhance financial performance. The findings of results are robust to different measures and metrics of cash flow and firm financial performance, following sensitivity analysis and endogeneity test still main results hold and ensures the robustness of primary analysis.

Study limitations and directions for future research

This research is of great significance to the studies on the relationship between cash flow management and enterprise performance in the Chinese market environment. However, the study did not consider some aspects that need consideration in future studies. This study uses Tobin Q to measure a company’s performance. However, it is also possible to include other company performance indicators that are important in the strategic impact of studies and may provide significant insights. The lack of data availability is a major constraint due to companies’ exits and entry into the sample period. This paper uses secondary data; however, studies can also use primary data to understand and gain appropriate knowledge of corporate cash flow management by combining archived and survey data to improve the robustness and significance of research findings in the context of emerging markets. This study focuses on the financial performance of firms. However, future studies can also use non-financial performance as a consequence variable.

Future extensions of this work may examine whether a company’s cash flow management policies in other areas of the supply chain have a similar relationship to company performance.

In addition, further inquiries that explore the directional association amid inventory and performance changes may extend the understanding of the cash flow management role in a company’s success. In addition, there is a need to explore more the impact of cash flow and working capital investment on firm performance by taking the market imperfections within the framework of emerging economies. Finally, the evidence of this research from the fastest emergent economy of the world may also use other transition economies to generalize for a widespread population group. Finally, studies in the future can consider linking product market competition with the cash flow measures, metrics, and firm performance relationship.

Supporting information

S1 appendix, acknowledgments.

The authors wish to thank anonymous referees for all value comments. The authors are responsible for any remaining errors.

Funding Statement

Funded studies the grant has been awarded to the author María de la Nieves López García from the grant PID2021-127836NB-I00 (Spanish Ministry of Science and Innovation and FEDER). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Literature Review on Cash Flow Statements

Info: 4439 words (18 pages) Example Literature Review Published: 26th Aug 2021

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Tagged: Accounting

2.0 Introduction

The previous chapter has discussed the enquiry of the study, highlighted the overviews background of the company. This chapter looks at the concept of cash flow statement as given by other authors and researchers with importance to accountability, profit measurement, solvency, ambiguity, and disclosure and their specific relevance for proper financial management of commercial company. One of the aims and objectives of this dissertation was to review conceptual though and theoretical framework related to cash flow analysis. Developing a critical review of cash flow literature and any related issues help the researcher, manager and any potential reader to better understand the subject and also provide a framework for data analysis. Governance as stated in the UK charity commission standard for good governance code is “the systems and processes concerned with ensuring the overall direction, effectiveness, supervision and accountability of an organization.”

This chapter begins with a clarified concept of cash flow as stated by the Financial Accounting Standard Board (FASB) and also develop and update and utility of cash flow when managing commercial activities. How the better knowledge on that topic helps in business decision making nowadays.

2.1 Expansion of the reporting standard

The Financial Accounting Standards Board (FASB) introduced Statement of Financial Accounting Standards No. 95 which is the Statement of Cash Flows in November 1987. The requirement of FASB 95 regarding a full set of financial statements classified cash flow as the fourth required financial statement (along with a balance sheet, income statement, and statement of retained earnings). This statement established standards for cash flow reporting, and dated out the Accounting Principles Board (APB) Opinion No. 19, Reporting Changes in Financial Position. In March 1971, the APB Opinion No.19 gave chances to enterprises to report cash flow information in a statement of changes in financial position commonly called a funds statement. During that time, there was no formal or universally accepted definition to catalogue each statement even though the term “funds” was not sufficiently defined (Alves et al 2008). Every single industry however had different funds constitution to others since the statement referred to changes in funds. The term funds referred sometimes to cash for some company meanwhile some used cash and short term investment and some used quick asset, some used working capital. The relevance and the valuation of funds statement has been recognised in most company but the lack of consistency in format and focus from one firm to another was responsible of the main reason that the FASB obviously took up the matter and with extensive commentary from accountants and any other interested parties, adopted the standards espoused in FASB 95.it effectively took place in 1988 had not encouraged use of the world “funds” because it had been stated with so much (Alves et al 2008).

2.2 Cash flow statement

A cash flow statement is an important indicator of financial health because it is possible for a company to show profits while not having enough cash to sustain operations. It is a financial report that shows to the user the source of a company’s cash and how it was spent over a specific period of time. A cash flow statement counters the ambiguity regarding a company’s solvency that various accrual accounting measures create. It also categorizes the sources and uses of cash to provide the reader with an understanding of the amount of cash a company generates and uses in its operations, as opposed to the amount of cash provided by sources outside the company, such as borrowed funds or funds from stockholders. The cash flow statement also tells the reader how much money was spent for items that do not appear on the income statement, such as loan repayments, long-term asset purchases, and payment of cash dividends (Ryan 2007).

2.3 Requirements for cash flow statement

Thornton (2008) indicated that FASB 95 requires a statement of cash flows to classify cash receipts and cash payments in accordance with the prescribe format whether they start from operating activities, investing activities, or financing activities. The provisions given by FASB are as follows on the presentation of cash flow statement are:

It provides that the cash flows statement should be prepared under either direct or indirect method and provides examples of how to use each method when preparing statements.

It also provides that under the core concept, cash is stated as “cash and cash equivalents”. while cash is the most liquid assets within the asset portion of a company’s balance sheet including currency and bank deposit, in the other hand cash equivalents are asset that are ready to be converted into cash such as money market holding, short term government bond, bills, marketable securities and commercial paper. Other sources of investments such as stocks, bonds, futures contracts, and so forth are not considered cash.

2.4 Cash and profitability concepts

Cash is one of the most important aspects of running any large or small business. It is one of the single most important reasons why many businesses fail regardless of how good the business is. The physical aspect of cash can be any currency, coins on hand, bank balances, negotiable money and so forth. Managing cash flow therefore is vitally important in the soft running, survival and success of a business (Atrill P. 2004).

The use of some examples has illustrated how cash flow can make the difference between success and failure. The meaning of failure in this case is insolvency that is, the company is unable to pay its debts. The term bankrupt is sometimes used to describe that situation, even though it is only individual who can be declared bankrupt. But sometimes both terms can be confusing.

2.4.2 Significance of non-cash transactions

Also known as profitability, non-cash transactions are not included in the statement of cash flows, but often they need to be disclosed elsewhere in financial statements. Examples of these types of transactions include:

Conversion of bonds to stock

Acquisition of assets by assuming liabilities.

When there are some few of such transaction, it may be fairly recommended to include them on the same page as the statement of cash flows but in a separate schedule at the bottom of the statement of cash flows. Otherwise, the transactions may be reported elsewhere in the financial statements, clearly referenced to the statement of cash flows. Some other transactions are generally reported in combination with statement of cash; these include stock dividends, stock splits, and appropriation of retained earnings.

2.6 Classifications/ Presentation of cash flow statement

Nearly all business transactions completed during the fiscal year impact cash flow in one way or another, and in summary form they are factored into the year’s cash flow statement. Exactly where on the statement depends on the nature of the transaction. As noted, the three essential categories of cash flow are operating activities, investing activities, and financing activities. The components of each of these will be addressed separately.

2.6.1 Operating activities

Operating activities are the fundamental transactions that keep the business running. Most notably, they include incoming revenue (also known as net income) from the sale of goods or services and most kinds of outgoing payments. Cash flow from operating activities doesn’t include principal paid on or received from loans, and only includes transactions that were completed during the period. This simply means that an operating transaction is not considered cash flow until the cash is actually received or paid, as opposed to just being recorded as accounts receivable or payable. In general, if an activity would appear on the company’s income statement, it would be a candidate for the operating section of the cash flow statement. Net changes in balance sheet categories from period to period also represent cash flow; thus, a net decrease in accounts receivable from year to year normally suggests an increase in cash flow for that period. Sometimes goods or services are paid for prior to the period in which the benefit is matched to revenue (recognized). This results in a deferred or prepaid expense. Items such as insurance premiums that are paid in advance of the coverage period are classified as prepaid. Sometimes goods or services are received and used by the company before they are paid for, such as telephone service or merchandise inventory. These items are called accrued expenses, or payables, and are recognized on the income statement as an expense before the cash flow occurs. Operating activities include the production, sales and delivery of the company’s product as well as collecting payment from its customers. This could include purchasing raw materials, building inventory, advertising, and shipping the product.

Under IAS 7, operating cash flows include:

• Receipts from the sale of goods or services
• Receipts for the sale of loans, debt or equity instruments in a trading portfolio
• Interest received on loans
• Dividends received on equity securities
• Payments to suppliers for goods and services
• Payments to employees or on behalf of employees
• Interest payments (alternatively, this can be reported under financing activities in IAS 7, and US GAAP)
• Items which are added back to [or subtracted from, as appropriate] the net income figure (which is found on the Income Statement) to arrive at cash flows from operations generally include:
• Depreciation (decline in value of assets and, loss of tangible asset value over time)
• Deferred tax
• Amortization (loss of intangible asset value over time)

Any gains or losses associated with the sale of a non-current asset, because associated cash flows do not belong in the operating section.(unrealized gains/losses are also added back from the income statement

2.6.2 Investing activities

Investment activities represent the cash flow from the purchase of long term assets ( such as property and equipment) required to make or sell goods and services.  Investment activities also include purchases of stocks or other securities, loans made to other businesses.  A major issue that potential investors have with the investing activities section is that the money listed here represents activities paid for in cash. In other words, it includes only the principal or book value of the investment. So, if an example of company that wanted to purchase $5 million dollars worth of equipment with only $1 million cash and $4 million in financing, only the $1 million will show up under investing activities. Interest and depreciation are classified as operating cash flow, as are net gains or losses on investments. Because of these distinctions, cash flow from investment activities is typically more complex to calculate than that from other categories. Examples of investing activities are:

• Purchase or Sale of an asset (assets can be land, building, equipment, marketable securities, etc.)
• Loans made to suppliers or received from customers

2.6.3 Financing activities

Financing activities consist of transactions affecting a company’s liabilities and shareholder equity. Mainly involving how the company obtains capital and enhances the value of its stock, they include such things as issuing bonds, payments on debt, paying dividends, and issuing and buying back stock.

Financing activities include the inflow of cash from investors such as banks and shareholders, as well as the outflow of cash to shareholders as dividends as the company generates income. Other activities which impact the long-term liabilities and equity of the company are also listed in the financing activities section of the cash flow statement.

Under IAS 7,

Proceeds from issuing short-term or long-term debt

Payments of dividends

Payments for repurchase of company shares

Repayment of debt principal, including capital leases

For non-profit organizations, receipts of donor-restricted cash that is limited to long-term purposes

Items under the financing activities section include:

Dividends paid

Sale or repurchase of the company’s stock

Net borrowings

Payment of dividend tax

Disclosure of non-cash activities

Under IAS 7, noncash investing and financing activities are disclosed in footnotes to the financial statements. Under US General Accepted Accounting Principles (GAAP), noncash activities may be disclosed in a footnote or within the cash flow statement itself. Noncash financing activities may include

Leasing to purchase an asset

Converting debt to equity

Exchanging noncash assets or liabilities for other noncash assets or liabilities

Issuing shares in exchange for assets

Wrongly recommends the direct method but allows either method. The International Accounting Standard Committee (IASC) considers the indirect method less clear to users of financial statements. Cash flow statements are most commonly prepared using the indirect method, which is not especially useful in projecting future cash flows.

The cash flow statement was previously known as the flow of funds statement. The cash flow statement reflects a firm’s liquidity.

The balance sheet is a snapshot of a firm’s financial resources and obligations at a single point in time, and the income statement summarizes a firm’s financial transactions over an interval of time. These two financial statements reflect the accrual basis accounting used by firms to match revenues with the expenses associated with generating those revenues. The cash flow statement includes only inflows and outflows of cash and cash equivalents; it excludes transactions that do not directly affect cash receipts and payments. These noncash transactions include depreciation or write-offs on bad debts or credit losses to name a few. The cash flow statement is a cash basis report on three types of financial activities: operating activities, investing activities, and financing activities. Noncash activities are usually reported in footnotes.

The cash flow statement is intended to:

• provide information on a firm’s liquidity and solvency and its ability to change cash flows in future circumstances
• provide additional information for evaluating changes in assets, liabilities and equity
• improve the comparability of different firms’ operating performance by eliminating the effects of different accounting methods
• indicate the amount, timing and probability of future cash flows

The cash flow statement has been adopted as a standard financial statement because it eliminates allocations, which might be derived from different accounting methods, such as various timeframes for depreciating fixed assets.

2.7 Cash and Cash Equivalent

2.7.1 cash inflows and cash outflows.

The concept of cash flow can be broadly divided into two categories, namely the inflow and outflow. The cash inflow, which is also known as inward cash flow or just cash flow, is generated as a result of financing, ventures and sales. The cash outflow which is also known as onward flow of cash is seen as a result of many factors such as purchases, investments, salaries and administrative expenditures. The importance of cash flow statement was realized in the wake of the 2007 recession cycle. Business organizations have realized the importance of cash flow analysis, and have started regular audits of cash outflows as well as inflows. This study of inflow and outflow tends to play a highly instrumental role on general financial planning and financial management. 

Ideally, during the business cycle, money flows in than flows out. This allows manager to build up cash balances with which to plug cash flow gaps, seek expansion and reassure lenders and investors about the health of their business.

A point to note is that income and expenditure cash flows rarely occur together, with inflows often filling behind. The aim of this knowledge was to speed up the inflows and slow down the outflows.

Cash inflows key elements

Payment for goods or services from your customers.

Receipt of a bank loan.

Interest on savings and investments.

Shareholder investments.

Increased bank overdrafts or loans.

Cash outflows key elements

Purchase of stock, raw materials or tools.

Wages, rents and daily operating expenses.

Purchase of fixed assets – PCs, machinery, office furniture, etc.

Loan repayments.

Dividend payments.

Income tax, corporation tax, VAT and other taxes.

Reduced overdraft facilities.

Many of your regular cash outflows, such as salaries, loan repayments and tax, have to be made on fixed dates. You must always be in a position to meet these payments in order to avoid large fines or a disgruntled workforce.

2.8 Methods of preparing cash flow statement

FASB Statement No. 95 allows the preparer a choice of the direct or the indirect method of cash flow statement presentation, although the FASB prefers the direct method. The difference lies in the presentation of the operating cash flow information.

2.8.1 Direct method

Companies that use the direct method are required, at a minimum, to report separately the following classes of operating cash receipts and payments:

Cash collected from customers

Interest and dividends received

Other operating cash receipts, if any

Cash paid to employees and suppliers of goods or services (including suppliers of insurance, advertising, etc.)

Interest paid

Income taxes paid

Other operating cash payments, if any

Companies are encouraged to further break down any operating cash receipts and payments that they consider meaningful.

2.8.2 Indirect method

The indirect method, by contrast, reports operating cash flow based on changes in the balance sheet (the distribution of assets and liabilities) from period to period as they relate to net income. Thus, instead of reporting the total cash received from customers, an indirect statement only lists the change in cash received from the previous period. The net cash flow reported should be the same as in the direct method, but in the indirect method the level of detail tends to be less.

The key elements of the operating activities section using the indirect method are as follows:

• Depreciation and amortization
• Deferred income taxes
• Interest income
• Change in accounts receivable
• Change in accounts payable
• Change in inventories
• Net gains from sale of investments or assets

A few additional categories are used in some circumstances. Each category is either added or subtracted from net income depending on whether it corresponds to an inflow or outflow of cash. When all of these factors are combined, they equal the net operating cash flow for the period.

As an alternative, some cash flow statements using the indirect method report operating cash flow as a single line item and present the reconciliation details elsewhere in a supplementary schedule. According to FASB standards, the direct method also requires a supplementary schedule that essentially incorporates the indirect measures into the statement. Due to this added burden, the majority of companies tend to use the indirect method only, despite the FASB’s stated preference for the direct. Figure I shows a modified statement of cash flows from the Coca-Cola Company using the indirect method.

Regardless of whether the direct or the indirect method is used, the operating section of the cash flow statement ends with net cash provided (used) by operating activities. This is the most important line item on the cash flow statement. A company has to generate enough cash from operations to sustain its business activity. If a company continually needs to borrow or obtain additional investor capitalization to survive, the company’s long-term existence is in jeopardy.

The presentation of the investing and financing sections of the statement is the same in each method.

2.9 Balance sheet accounts and cash flow

Every balance sheet account reflects specific activity. There are only a few distinctive transactions that affect each account. Following are examples of some of the common changes in balance sheet accounts that register as cash flow.

Accounts receivable increases when the company sells merchandise or does a service on credit, and decreases when the customer pays its bill. Accounts receivable is associated with sales or revenue on an income statement. The change in accounts receivable or the cash collected from customers is classified as an operating activity.

Inventory increases when the company buys merchandise for resale or use in its manufacturing process, and decreases when the merchandise is sold. Inventory is associated with the income statement account cost of goods sold (COGS). The change in inventory or the cash paid for inventory purchases is classified as an operating activity.

Prepaid insurance increases when the company pays insurance premiums covering future periods and decreases when the time period of coverage expires. The change in prepaids or the amount paid for insurance is classified as an operating activity.

Land, building, and equipment accounts increase when the company purchases additional assets and decrease when the assets are sold. The only time the income statement is affected is when the asset is sold at a price higher or lower than book value, at which time a gain or loss on sale of assets appears on the income statement. The amount of cash used or received from the purchase or sale of such assets is classified as an investing activity. The gain or loss is reported as operating cash flow.

Accumulated depreciation increases as the building and equipment depreciates and decreases when building and equipment is sold. Depreciation expense does not appear on a cash flow statement presented using the direct method. Depreciation expense is added back to net income on a cash flow statement presented using the indirect method, since the depreciation caused net income to decrease during the period but did not affect cash.

1.4 significance of cash flow

There is a significant importance of cash flow to a business. Cash flow as defined above is the inflow and outflow of cash or liquidized finances. The following are some advantages of inward and outward flow of cash.

Income Assurance: The biggest importance of cash flow is that the business organization tends to have an assured income irrespective of the outside economic condition. Many business corporations have a very well balanced and uniform inward and outward cash flow.

Ensures Timely Payment: The uniform and assured cash flow, in both the directions, ensures two principal payments, namely, the salaries of employees are paid on time and instalments of all loans are made on time. This safeguards the trust of employees and upholds the credit rating.

Return Ratio: The analysis of cash flow ensures that the business is not investing finances in the wrong avenues, and investments already made are paying off well. This ratio is often termed as return over asset ratio.

Keeps You Out of Debt: The timely cash inflow plays a very instrumental role in keeping you out of debt, as a timely inflow of cash prevents you from taking small loans.

Saves Unnecessary Expenditure: The use of inward and outward cash flow prevents all unnecessary expenditure such as piled up interest, late payment charges, etc.

Timely Investments: As the inflow and outflow of cash is on time, you are left with adequate free and liquid finances, which you may invest in time bound instruments and securities.

Good cash flow practices ensure smooth operation of the company when accrued revenue is still sitting in accounts receivable. Often an increase in sales does not automatically mean an increase in cash flow at least not right away. for instance, a company with £3 million annual revenue and 30day gap days between the day of payment and the day of sales is likely to be more cash rich than the company with£5 million in sales and a 3 days float. By using cash flow forecasting practices, the company can anticipate when they are most likely to be cash flush and when they are most likely to be cash-strapped so that they can plan their capital purchase.

Effective cash flow management is vital to every organisation; it is an important aspect when planning business functioning. Earning income is (or should be ) one the main focus of company objectives. It can be profitable in and of itself. Cash shortages result in increased cost, such as interest charges on loans, late payment penalties, and loss of vendors discount for paying bill promptly. Cash flow improvements can eliminate these costs and create the opportunity for more favourable payment terms on some type of payments. A better understanding of cash flow management can be benefit to many organisation with a comprehensive guide for:

• Identifying and understanding organisation’s cash flow characteristics, strengths and weaknesses
• Improving cash flow through implementing relevant strategies
• Improving overall performance by using cash flow.

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Impact of Cash Flow Statement Elements on Financial Performance: The Mediating Role of Capital in Private Hospitals in Jordan

• First Online: 27 August 2023

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• Ola Khresat   ORCID: orcid.org/0000-0001-5154-9448 4 ,
• Fuad Al-Fasfus   ORCID: orcid.org/0000-0001-7647-5123 4 ,
• Omar Shaban   ORCID: orcid.org/0000-0002-3441-7010 4 ,
• Yousef Shahwan   ORCID: orcid.org/0000-0003-0752-1610 4 &
• Abdullah Alsilawi 5  

Part of the book series: Studies in Systems, Decision and Control ((SSDC,volume 488))

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The study aims to test the impact of the elements of the cash flow statement on the financial performance of private hospitals in Jordan. The study sample includes (5) private hospitals for the period between (2016–2020), with a capital of more than fifteen million JD. The path analysis method is also used, through the Structural Modeling Program (Smart PLS) in order to achieve the study’s objectives and answer the study’s hypotheses. This study finds, there is an impact of elements of cash flows of operating, investing, and financing activities on the financial performance measures through (liquidity ratios, financial leverage, and profitability). Also, there is an impact of cash flows of operating activities, on the volume of capital in private hospitals.

The study recommends decision-makers to pay attention to private hospitals of the elements of the cash flow list and manages it efficiently. The capital is taken into account when evaluating the financial performance of private hospitals. Finally, the study recommends to conduct the study variables on other sectors, such as the financial sector, industrial sectors, and other service sectors to understand how the elements of their cash flow affect performance.

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Ola Khresat, Fuad Al-Fasfus, Omar Shaban & Yousef Shahwan

University of Business and Technology, Jeddah, Kingdom of Saudi Arabia

Abdullah Alsilawi

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Khresat, O., Al-Fasfus, F., Shaban, O., Shahwan, Y., Alsilawi, A. (2023). Impact of Cash Flow Statement Elements on Financial Performance: The Mediating Role of Capital in Private Hospitals in Jordan. In: Alareeni, B.A.M., Elgedawy, I. (eds) Artificial Intelligence (AI) and Finance. Studies in Systems, Decision and Control, vol 488. Springer, Cham. https://doi.org/10.1007/978-3-031-39158-3_76

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Published : 27 August 2023

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Drivers of value creation and the effect of esg risk rating on investor perceptions through financial metrics.

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Puente De La Vega Caceres, A. Drivers of Value Creation and the Effect of ESG Risk Rating on Investor Perceptions through Financial Metrics. Sustainability 2024 , 16 , 5347. https://doi.org/10.3390/su16135347

Puente De La Vega Caceres A. Drivers of Value Creation and the Effect of ESG Risk Rating on Investor Perceptions through Financial Metrics. Sustainability . 2024; 16(13):5347. https://doi.org/10.3390/su16135347

Puente De La Vega Caceres, Abraham. 2024. "Drivers of Value Creation and the Effect of ESG Risk Rating on Investor Perceptions through Financial Metrics" Sustainability 16, no. 13: 5347. https://doi.org/10.3390/su16135347

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