X16 - a ratio of profit / loss after tax (NP) and retained earnings (RetY) of the past to the sum of equity capital (OC(Eq)) and liabilities (TL):

  

(342)

  

X13 - is the ratio of cash (MF) and direct cash equivalents / short-term investments (STI) / (MF + STI) to the sum of current / mobile / assets (MobA). STI express the amount of ready money, of "almost money" that can be quickly used to pay the arising liabilities.

  

(343)

  

Note: Please note that in Russian accounting practice you will have to deduct the sum of the long-term accounts receivable from the mobile assets.

  

X14 - the ratio of the cost of: production in progress (PPC), finished goods and goods for resale (FG&GR) and goods shipped and dispatched (SDG) to the sum of net working capital (NWC = MobA - STL):

  

(344)

  

X17 - a measure of the total return on permanent capital. The numerator is earnings before taxes and interest / EBIT /, at least, it is equal to the sum of operating profit (PBT), plus the interest paid (070 line in the profit and loss account plus (070), plus oversized percent to pay (%%): an interest that cannot be attributed to the 070 line / for example, the rate of 12.75 and more - from late 2010 to early 2011 in the Russian accountings/). The denominator is the sum of equity capital (OC(Eq)) and long-term liabilities (LTL).

  

(345)

  

The critical point of the model is: les than - 0.2047, where "-" - is a minus sign.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (346A):

  

  

Where coefficients: X9, X13, X14 - are described in the previous model.

  

X10 - The ratio of total profit or loss (NP) to the sum of equity capital (OC(Eq)) and liabilities (TL):

  

(346)

  

X15 - the ratio of cash flow (CF) to revenue (Rev). CF - is the difference between the amount of income and the amount of payments for a company for a certain period. The net balance of cash flow at the beginning and end of the period is equal to the sum of money (MF): in the event when company is successful, it must comply with minimum balance of net cash flow.

  

(347)

  

The critical point of the model is: less than - 0.2497, where "-" - is a minus sign.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (348):

  

  

Where: X11 - Gross yield (GY) before taxes in relation to total assets (TAS). GY - is an expressed in units of currency income from all assets before taxes and certain special payments (usually it relates to the payment of various court-appointed trustees, arbitrage anti-crisis managers and the other such-like special-purposes-equipped-staff). The concept of GY is close to the concept of PBT, as in the GY model the indicator is considered after the payment of interest and before taxes.

  

(348A)

  

X12 - the ratio of equity capital (OC(Eq)) to the sum of equity capital (OC(Eq)) and total liabilities (TL).

  

(349)

  

The odds X9, X13, X10 have been described previously.

  

The critical point of the model: less than +2.0996.

  

According to Hubert Ooghe, E. Verbaere and Sofie Balcaen opinion, the model of Ooghe-Verbaere to be altered in accordance with more modern trends of economic development. For present purposes, they conducted a large study resulted in the updated model of Ooghe-Verbaere.

  

2) A new Ooghe-Verbaere technique, 2002.

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (350):

  

  

Where: The coefficients X9, X16, X13, X14, X17 - have been explained earlier.

  

The critical point of the model is: less than - 0.4459, where "-" - is a minus sign.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (351):

  

  

Where: The coefficients X10, X9, x13, X14, X15 - are explained earlier.

  

The critical point of the model is: less than - 0.3420, where "-" - is a minus sign.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (352):

  

  

Where: The coefficients X9, X10, X11, X12, X13 - are explained earlier.

  

The critical point of the model is: less than - 0.4515, where "-" - is a minus sign.

  

Results of Ooghe-Verbaere model probation (both old and new models).

  

Ooghe-Verbaere model was developed in Belgium for the evaluation of companies of Belgium, that is, according to the decoded full accountability data. Current research has shown that the old method gives good results in predicting bankruptcy.

  

Sample period for the old model was relatively small - from 1977 to 1980 (3 years). However, the size of the companies sample was essential. Ooghe-Verbaere model including sampling of all companies of all industries, not specializing in any particular sector of the economy. Ooghe-Verbaere studies led to the creation of another 5 models with different coefficients and discriminants, including 1 model for industrial companies. The new Ooghe-Verbaere model is also intended for use in all sectors.

  

The method is designed to predict not only the bankruptcy through the court decision, and also the bankruptcy, which had actually the place to be in court, and the company had managed to come to a peace settlement, or the company was able to pay off the debt during the procedures.

  

Model type: linear discriminant analysis.

  

IV) The Christina Zavgren model component (1985, USA) in a model of Ooghe-Balcaen

  

Analysis of C. Zavgren - this is not idle linear discriminant analysis, and the regression analysis method such as logit subspecies of logistic regression.

  

Doctor of Economics, Christina B. Zavgren was born in 1948 in the United States. She lives in New York. It starts from that point, the models to predict bankruptcy in less than 3 - 5 years term - have nothing positive to bring for a company. In her view, the current perspective is too short, and the company has no way to restore the activity to normal levels, if it is only left to the bankruptcy 1 or 3 years! C. Zavgren compares herself linear discriminant methods, and regression studies to predict the likelihood of bankruptcy with the "crystal ball". Banks, third-party companies, the authorities concerned and the company itself from the inside when conducting such an analysis, it seems to test the balls for whether they are made of crystal or not! If so - then the company with a high probability can "break" due to abrupt changes in the environment of company existence. In this case, the company should know that it is made of "crystal" in advance, so it would have time enough to rebuild the "substance" of internal existence on something more solid! According to C.B. Zavgren, the first cause of failure of all the companies is too high concentration of debt. The second - is the decline in equity markets. The third reason for failure is excessive investment to inventories, which are logically instead of investment in the renewal of fixed assets, which would extend the company 'life' and make it more successful over the time at the competitive market.

  

All the indicators Z of all models of C. Zavgren to be given further - this is not the individual linear discriminant model, and the degree of the function Z-Logit. All models have the next index (U):

  

(353)

  

Where: e - is the exponent - a figure equal to 2.718281828. The exponent e in the Logit type analysis is always raised to the power z, equal to the total linear discriminant function Z:

  

(354)

  

Where: a0 - a free term of regression, a1, a2, a3, ...., an - is a linearly discriminants of discriminant analysis such as Logit. x1, x2, x3, ..., xn - this are the financial ratios that are included in the model.

  

Author will no longer describe the Christina Zavgren model"s U component, and I will describe only the Z component of the linear-discriminant-function, knowing that the outcome of the function Z - is the degree to which one should raise the formula to receive the U indicator.

  

1) The "old new" Christine Zavgren model in the Ooghe-Balcaen model

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (355):

  

  

Where for all the Christine Zavgren"s models: X18 - is the ratio of inventories (Inv) to the sum of the company's revenues (Rev):

  

(356)

  

X19 - is the ratio of accounts receivable (AR) to inventories (Inv):

  

(357)

  

X20 - is the sum of money (MF) and short-term investments (STI) to company"s book value (TAS):

  

(358)

  

X21 coefficient is a measure of instant liquidity of the company. The numerator of full instant liquidity is: MF plus STI plus instantaneous to claim amount of AR (ITCAAR). In the denominator there are the short-term and instant liabilities: if we shall call them the P1 and P2 where P - is passives, 1 - the most instant liabilities, 2 - short-term liabilities, than the denominator can be expressed as next. P1 - it would be the accounts payable (AP), indebtedness to the owners (shareholders), debts that were not covered in time. In Russian accountings, for instance, these would be line codes 620, 630 and 670 OKUD in the Balance sheet form. P2 - it would be the short-term liabilities: credits and loans with term less than 12 month; in Russian accounting accountings these would be line code 610 OKUD in the Balance sheet form.

  

(359)

  

X6 - a net gain (after tax) / NP / in relation to equity capital (OC(Eq)):

  

(360)

  

X5 - is the ratio of earnings (Rev) to total assets (TAS):

  

(361)

  

X22 - a measure, the numerator of which is the amount of deferred income (DefIn), and accrued obligations (AcrO). DefIn - complies with the Russian accounting standards, that is, it is income received in this period and relating to the next. AcrO - is the amount of accrued liabilities and expenses to be paid before the end of the reporting period, and the fact of payment does not take place to be at a certain moment. In the Russian account of these concepts corresponds to the sum of short-term borrowings (STL). The denominator is the sum of equity capital (OC(Eq)):

  

(362)

  

The critical point: less than +0.1829.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (363):

  

  

The coefficients X18, X19, X20, X21, X6, X22, X5 - are described earlier.

  

The critical point: less than +0.0672.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (364):

  

  

The coefficients X18, X19, X20, X21, X6, X22, X5 - are described earlier.

  

The critical point: less than +0.4340.

  

2) A new method of Christine Zavgren, 2001.

  

Ooghe-Balcaen overestimated values of the coefficients for the specified method.

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (365):

  

  

The coefficients X18, X19, X20, X21, X6, X22, X5 - are described earlier.

  

The critical point: less than +0.7233.

  

b) Model of crisis operating cycle: two years prior to bankruptcy (366):

  

  

The coefficients X18, X19, X20, X21, X6, X22, X5 - are described earlier.

  

The critical point: less than +0.7371.

  

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (367):

  

  

The coefficients X18, X19, X20, X21, X6, X22, X5 - are described earlier.

  

The critical point: less than +0.9150.

  

Data on testing of the model is next. Christine Zavgren"s model was developed in the United States. C. Zavgren comparing two simultaneous flow of financial information: data from the stock market and received from the financial statements" data. All the data she collected on magnetic tape and processed by computer. C. Zavgren made a large sample of companies in the period from 1972 to 1978. The concept of bankruptcy is next. C. Zavgren interpreted Articles 10 and 11 of the Law on Insolvency (Bankruptcy) in the United States, that is, that the bankruptcy term is applicable for companies that had undergone external control and bankruptcy proceedings.

  

Instead of linear discriminant analysis, C. Zavgren used a close method of logistic regression constructing.

  

The model was very popular in the U.S. and has 05 subsidiaries models.

  

Next it will be considered other bankruptcy prediction models included in the Ooghe-Balcaen model.

  

V) Gloubos-Grammaticos model (1988, Greece)

  

The main author of the model is Theohari Grammaticos (03.01.1954-present). Born in Greece, studied in New York, in the New York University, where he earned a bachelor's degree with honors (1976), Master of Finance (1980) and Ph.D. /finance/ (1982). In New York, he had the publication of his most significant research in the forecasting of trends in the securities market and prediction of bankruptcy, including the famous bankruptcy prediction model, known by many of today's leading economic and financial experts of the world as one of the 3 - 5 best models to predict bankruptcy. Today, he moved to Luxembourg, and he has served as co-director of the European Investment Bank where he worked from 1990 to the present, and he teaches corporate finance at the University of Luxembourg since 2009.

  

Globos-Grammaticos model consists of two parallel types of analysis: linear discriminant analysis and logistic regression.

  

1) The "old new" Gloubos-Grammaticos model (GG)

  

1.1) The method of linear discriminant analysis

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (368):

  

  

The coefficients X1 and X14 were discussed earlier.

  

X23 - this is the current liquidity ratio. In simple term, it is the sum of current assets (MobA) in relation to short-term liabilities (STL):

  

(369)

  

X24 - is the ratio of long-term liabilities (LTL) to total assets (TAS).

  

(370)

  

X25 - a relationship of EBITDA to total current liabilities. EBITDA - Earnings Before Taxes Depreciation and Amortization - the sum of earnings before interest, taxes, depreciation and maintenance for fixed assets. It corresponds approximately to the Russian practice of accounting operating profit (PBT) plus interest expense (code line 070 in the profit and loss account, the form number 2 on OKUD (070)) plus non-legislative interest (interest in excess of, dependent on the refinancing rate, which can be attributed at 070 line in Form number 2 in OKUD (%%)) plus depreciation (Am) (code line 140 from form number 5 on OKUD / Annex to the Balance Sheet / Line: depreciation of fixed assets, total).

  

(371)

  

The critical point: less than +2.5515.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (372):

  

  

Odds X23, X1, X24, X11, X25 - are explained earlier.

  

The critical point of the model: less than +2.2070.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (373):

  

  

Odds X23, X1, X24, X11, X25 - are explained earlier.

  

The critical point of the model: less than +2.2441.

  

1.2) The method of logistic regression logit / LOGIT / GG

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (374):

  

  

Where e - is the exponent equal to 2.71828183 always. Exponent is raised to the power function. Let's look at a specified power in details:

  

(375)

  

This function is a mathematical function such as logistic regression called logit.

  

The coefficients X1, X11 and X24 have been explained earlier.

  

The critical point of the model: less than +0.9573.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (376):

  

  

The model constants are not changing - the critical point is changing.

  

The coefficients X1, X11 and X24 have been explained earlier.

  

The critical point of the model is: +0.9848 / if at the same time more than +0.9573 - it speaks of a crisis in operating cycle /.

  

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (377):

  

  

The model constants are not changing - the critical point is changing.

  

The coefficients X1, X11 and X24 have been explained earlier.

  

The critical point of the model: less than +0.9444.

  

2) A new Gloubos-Grammaticos model (GG)

  

2.1) Linear discriminant analysis in GG model

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (378):

  

  

Odds X23, X1, X24, X11, X25 - are explained earlier.

  

The critical point of the model was: - 0.0043, where "-" - is a minus sign.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (379):

  

  

Odds X23, X1, X24, X11, X25 - are explained earlier.

  

The critical point of the model is: - 0.0006, where "-" - is a minus sign.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (380):

  

  

Odds X23, X1, X24, X11, X25 - are explained earlier.

  

The critical point of the model is: - 0.0033, where "-" - is a minus sign.

  

2.2) The method of logistic regression logit / LOGIT / GG

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (390):

  

  

Let's look at a specified power in detail:

  

(391)

  

The critical point of the model: less than +0.8142.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (392):

  

  

The critical point of the model: less than +0.8142 (the same as the previous one).

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (393):

  

  

The critical point of the model: less than +0.8138.

  

VI) Model of K. Keasey and P. McGuinness (1990, 2009, UK)

  

The model uses the Keasey-McGuinness KM index:

  

(394)

  

In the future, the Z indicator calculation will be analyzed, understanding the KM index is taken into an account yet.

  

1) The "old new" Keasey-McGuinness model

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (395):

  

  

Where: Bull figure X21 is already discussed - it is a measure of instant liquidity.

  

X26 - a relationship of raw materials and similar values (RM) to the amount payable (AP):

  

(396)

  

X27 - the ratio of operating profit (PBT) to the amount of revenue (Rev):

  

(397)

  

Critical rate: less than +0.1387.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (398):

  

  

X1, X6 - have been described previously.

  

X18 - is the ratio of inventories (Inv) to the sum of the company's revenues (Rev):

  

(399)

  

X28 - the ratio of net profit (NP) to the sum of operating assets (OPA). OPA - this is the company's assets that are directly involved in the main production activity: inventory, rearers and fatteners, work in progress, finished goods, equipment, buildings, accounts receivable, in particular, from buyers and customers. Sometimes there are to be included some other similar assets of that key.

  

(400)

  

The critical point: less than +0.0131.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (401):

  

  

Odds X4, X26, X27 - are described earlier.

  

The critical point: less than +0.7939.

  

2) A new Keasey-McGuinness model

  

a) Model of the crisis of the investment cycle: 3 years prior to bankruptcy (402):

  

  

All the coefficients are explained above.

  

The critical point: less than +0.1387.

  

b) Model of operating cycle crisis: two years prior to bankruptcy (403):

  

  

Indicators X18, X1, X28, X6 are described previously.

  

The critical point: less than +0.7853.

  

c) Model of the crisis of the financial cycle: 1 year prior to bankruptcy (404):

  

  

All figures are interpreted earlier.

  

The critical point: less than +0.8980.

  

VII) A model of P. Joos, De Vos D. and Ooghe-Balcaen under development

  

The authors of the model: Hubert Ooghe, Sofie Balcaen, Jan Kamerlink and others. Unfortunately, this model is still being finalized. The authors of the methodology on the one hand, correct discriminants, on the other hand, analyze the results of the model. The authors are firmly fixed within their rights to publish even the first prototype of this model, that is why this part of model is out of estimation in this paper.

  

Despite the variety of models included in the model of Ooghe-Balcaen, the authors of the model have not yet thought through the issues analyzed by a combination of techniques and refined them by various authors. Because of this, the author of this paper investigated this issue, and I have developed my own model which estimates the probability of bankruptcy by the complex method of Ooghe-Balcaen. This method integrates and finalizes the 42-years-lasting study of the Ghent institute.

  

Author's method of calculating the probability of failure and term

  

prior to the bankruptcy following the algorithm of S. Balcaen H. Ooghe

  

The author of this paper developed a formula based on a combination of regression analysis and logit sample (binary quotient derivative distribution with given parameters), calculating the discriminants also suitable for this model. The formula of the author of this paper clarifies the model of Ooghe-Balcaen regarding the processing of the final result and the prediction of the probability of bankruptcy with high accuracy (at this time for the anti-crisis strategy realization):

  

(405)

  

Where: The TTB (Time Till Bankruptcy) figure shows the minimum failure probability of the company timing in years. e - is the exponent, which is equal to 2.71828182845905. Ω - is a figure calculated by the following formula (406):

  

  

Where: Ω - is the extent shown above formulas to calculate the probable date of bankruptcy in years. If Ω is greater than 0, it indicates that the number of years over which is most likely the company will go bankrupt.

  

If Ω = 0,00000 exactly - it says that the company is perfectly resistant to the bankruptcy, regardless of the value of the exponent TTB / 0 indicator feature is caused by the calculation methodology /.

  

λ - is a measure of whether the method is New (N) or it is an Old one (O). The new method (N) - the method modified by Sofie Balcaen and Hubert Ooghe at the 1990s-2000s (they are represented in the model). The old method (O) - is a method: either the original or the modified by Hubert Ooghe and Sofia Balcaen in the 1970s - 1980s and in prior. The models are given in the description of the model as the old or new ones.

  

If the model is old, the rate λ is set to 0.3 (30%). If the model is new, the rate λ is set to 0.7 (70%). These proportions of the adequacy of the old and new models are designed by the author of this paper, from the comprehensive empirical material examination and effect calculation towards the old and new companies. The primary material to make the new models from the old ones was gathered by E. Verbaere, S. Balcaen and H. Ooghe mostly in 1970s - 2000s years and is provided by the Ghent University, Belgium.

  

Δ - is a measure that evaluates method"s trend for the last reporting period (it is better to take a year as a reporting period). If the trend is negative, i.e., the rate for the period is plunged more into a zone of high probability of bankruptcy, the coefficient Δ is equal to 1.015. If the trend is positive, and the company, according to the model, is in the area of high probability of bankruptcy, the coefficient Δ is 0.75. In all other cases the Δ meaning is not much important in the methodology developed by the author of this paper.

  

Indicator (I /Investment cycle/), after lettering the name in the model, indicates that the model used to forecast the crisis in the investment cycle (3 years prior to bankruptcy).

  

Indicator (O /Operational cycle/), after lettering the name of the model, indicates that the model is used to forecast the crisis in the operating cycle (2 years prior to bankruptcy).

  

Indicator (F /Financial cycle/), after lettering the name of the model, indicates that the model is used to forecast the crisis in the financial cycle (1 year prior to bankruptcy).

  

All other metrics show the values of different models for the prediction of bankruptcy, and they can take two values: 0 (the bankruptcy probability in a certain model is not observed) or 1 (a certain index indicates a high probability of bankruptcy); if some company according to some model is exactly on the border between the sustainable and unsustainable companies - we shall consider this company as a sustainable one.

  

EAO /Edward Altman Old model/ - a generic term for older (the "old" ones) models, designed by Edward Altman, which are available in the model of Ooghe-Balcaen. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the total value of the discriminant model is in the area of sustainable companies.

  

EAN /Edward Altman New model/ - is a common name for the new models, primary issued by Edward Altman, which than were modified and are available in a model of Ooghe-Balcaen. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

BAO /J. Bilderbeek (Amsterdam) Old model/ - is a generic term for old models designed by J. Bilderbeek / Amsterdam /, which are available in the model of Ooghe-Balcaen. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

BAN /J. Bilderbeek (Amsterdam) New model/ - is a common name for the new models developed by J. Bilderbeek / Amsterdam /, which are available in the Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

OVO /Ooghe-Verbaere Old model/ - is a generic term for old Ooghe-Verbaere models available in Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

OVN /Ooghe-Verbaere New model/ - is a generic term for new models of Ooghe-Verbaere available in Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

CZO /Christine Zavgren Old model/ - is a generic term for old Christine Zavgren"s models available in Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

CZN /Christine Zavgren New model/ - is a common name for the new models of Christine Zavgren available in Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

GGO /Gloubos-Grammaticos Old models/ - is a generic term for old Gloubos-Grammaticos models available in the Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

GGN /Gloubos-Grammaticos New models/ - is a common name for the new Gloubos-Grammaticos models available in the Ooghe-Balcaen model. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

KMGO /K. Keasey and P. McGuinness Old models/ - is a generic term for old models of K. Keasey and P. McGuinness, available in a model of Ooghe-Balcaen. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

KMGN /K. Keasey and P. McGuinness New models/ - is a common name for the new models of K. Keasey and P. McGuinness, available in a model of Ooghe-Balcaen. The index can take on two values: 1 - if the company is in the area of probability of bankruptcy, or 0 if the value of the discriminant model is in the area of sustainable companies.

  

If the rate of bankruptcy TTB is above 3 years (the maximum limit for forecasting the bankruptcy in the Ooghe-Balcaen model), it can be stated, that the company has some problems to be solved, and, in general, such companies" failure, according to the Ooghe-Balcaen model, are not at risk. It should just be paid an attention to the indicators which show the crisis trends inside the bankruptcy prognosis models, instead of analyzing the total value of the models themselves.

  

If the indicator TTB has turned roughly equal 3 (+ / - 0.25 from the value in 3) or less than 3 years, it testifies about a crisis within the company and the need for urgent anti-crisis policy. Areas of anti-crisis policy should be planned, taking into account the values of the indicators inside the crisis-prognosis-methods, for instance, inside the models that show the probability of an event of bankruptcy.

  

The author of this paper developed an index TTB for clarity. The developed by the author of this paper TTB index lets us to cumulate and to preserve the 42-years-lasting research of the Ghent University in Belgium and the brilliant scientific works of many scientists from the Ghent University and from the worldwide - them to be used combined together in a synergy effect.

  

TTB presupposes the firms can make their financial report either fair or non-fair - of no difference on whether it is fair or unfair - the final result distortion will not be too much big. That is why some calculation methods and interpretation of some ratios used was a bit changed - to make the cumulative experience of the united researches more applicable to the crisis-reality of the nowadays.

  

The TTB index so may be used as the Key-Performing-Indicator (KPI) that provides an additional data about certain firms in a certain market segment analysis. This TTB KPI may reveal the hidden problem that may crush some certain enterprises at the same time when the other models and methods can not to reveal this fact. By analyzing the models that are included in the TTB and the ratios that are included in the models themselves an analyst may reveal a certain hidden crisis inside an enterprise. The less the value of TTB is - the more profound analysis is needed: from the up (TTB) to the down up till the ratios included in certain models that reveal the crisis in a certain enterprise.

  

By comparing the TTB of one enterprise with the other enterprises in the market, an analyst may receive an additional picture on how his or her firm positions itself in the market through the new prism: how much time is left to some certain scope of firms at certain market segment....

  

In common say, when calculating the TTB indicator, you, dear reader, may estimate how much Time Till Bankruptcy for a certain company is left if not to realize the urgent anti-crisis-financial-management-strategy. The TTB is calculated in estimated years till bankruptcy which can be recalculated in exact days till the expected bankruptcy which is equal to the time left on urgent anti-crisis policy measures realization.

  

This is the end of this discussion about the wonderful experience and successes achieved in bankruptcy forecasting sphere for the last 42 years in the Ghent University, Belgium, and also about the accumulation of this experience in one TTB index formula to achieve a synergy effect.

  

  

List of sources used in brief description: the publications of the above-mentioned authors which experience was combined in the Ghent University study: Edward I. Altman (1968, 1982, 1997 (together with P. Narayanan); H. Ooghe, S. Balcaen, E. Verbaere, De Vos D., P. Joos, J. Camerlynck, Van Wymeersch, C. De Bourdeaudhuy, (42 years of study); K. Keasey, P. McGuinness, H. Short (1990 - 1992); R.J. Taffler (1982, 1995) and H.J. Tishaw (1977); C. Zavgren (1985); J. Bilderbeek (1979); T. Bell, G. Ribar, J. Verchio (1990); Gloubos-Grammaticos model and the other authors mentioned in the text; also the working papers of the Ghent University, Belgium.

  

  

The model of Gibson-Stickney-Schroeder-Clark for predicting the bankruptcy, USA

  

  

This model was created and developed by Brian N. Gibson with taking into an account the researches of Stickney, Schroeder and Clark. This bankruptcy prediction model uses the BSM-analysis. BSM - is the name that was coined by professors at Harvard University in 1999 by the first letters of the names of the founders of the algorithm for calculating the derivatives - the Black-Scholes-Merton method.

  

I think those of you who are faced with their works, now realize that the component of BSM is associated with derivatives / options, and Swaps / assets and liabilities of the company. The fact is that this analysis is specified for the financial analysis of company. Gibson-Stickney-Schroeder-Clark conducted independent tests and analysis of bankruptcies of companies with the most modern computer and identified the main factor that gives an error in calculating the probability of bankruptcy by the classical techniques of financial analysis, developed before 1999 - 2011 period.

  

This factor - is the lack of analysis of the BSM-type or its equivalent in today's large companies to forecast their bankruptcy probability. This problem was firstly discussed by the professors at Harvard University, USA, in August 1998.

  

In parallel with the Harvard study, Gibson-Stickney-Schroeder-Clark nearly proved theoretically that the magnitude of the increasing the threat of bankruptcy is due to not considering the factor of BSM may rise to 78% or more of 100% on the regression scale, confirming the problem of accurate analysis methods in practice.

  

For example, if the model shows the probability of bankruptcy in 10% of 100%, and the BSM-analysis has not been applied, and the company is subject to the specified analysis and operations of this type, the actual probability of bankruptcy of a company may be equal to, for example, 10% + 78% = 88%!

  

It should be noted that the BSM-analysis can be performed in addition to all the classical and non-classical models of financial analysis and prediction of bankruptcy. It should be noted that some small and some medium-sized companies may not have the operations described by BSM-analysis and its analogues. And these are the medium, large and global companies that create the economic system of different countries in the world today.

  

BSM - is the common name of "mother" analysis generated by the algorithm BSM developed in 1975 - 1995 period, which began to be used in financial analysis of companies to predict bankruptcy since 1999.

  

Before you start considering the simplest analogue of the BSM-analysis by Gibson-Stickney-Schroeder-Clark, let us discuss it in prior: you, my dear reader, you can use other, seemingly more appropriate systems and analogues of BSM-analysis for companies that provide the operations that are subjects for this type of analysis.

  

The first part of the model of Gibson-Stickney-Schroeder-Clark was developed for all types of companies.

  

Let us finally consider a few more new models. In 2009, the U.S. got an improved model for forecasting bankruptcy of Brain Gibson, Stickney, Schroeder and Clark. The model involves the calculation of the logit analysis of the likelihood of bankruptcy. In this model, the logit function has no cut-off point - its value is the probability of bankruptcy. In the second stage the Logit probability of bankruptcy is adjusted for existing companies" derivative financial instruments, primarily stock options. If such a company is not using this type of derivatives - then the probability of bankruptcy can be considered as already calculated by this model. If options are available, it is necessary to conduct the second stage of analysis.

  

1) The first stage of analysis: a model of the company's bankruptcy, excluding stock options

  

The probability of bankruptcy by the model is calculated from the table:

  

  

Table: Calculation of the first stage of the model

  

  

  

The notation in the table is given below:

  

AR(1Y) - it shows the amount of accounts receivable for less than 1 year.

  

Intercept - is a measure of b0 in the regression model: it does not correspond to any factor - it increases the total model.

  

AvInv - is the average for the period amount of inventories.

  

Rev - it is proceeds (revenue).

  

AvAR - is the average amount of accounts receivable for the reporting period.

  

MF - it's money (company"s monetary funds).

  

STFI - these are the short-term financial investments.

  

TBS - is the balance sheet amount of assets in the total of the balance sheet.

  

MLA - these are the most liquid assets.

  

STL - these are the short-term borrowings.

  

LTL - is a long-term debt.

  

ImmA - these are the non-current assets.

  

NWC - is the net working capital equal to current assets minus the sum of short-term obligations.

  

ICO - Income of Continuing Operations - is an income from continuing operations. Continued operation - is an activity unit of the company at the market segment in the reporting period, which will continue in the next reporting period. In order to understand the concept of ICO, let's look at how moving the profit and loss account. Revenue minus cost is the gross profit. The gross profit adjusted to gross margin of operating income and expenses, you"ll get an operating profit (some theorists consider operating profit as profit before taxes; the operating profit concept reveals the total efficiency of company itself without looking to the payments to other parties from the total companies" profit). If in operating profit to deduct interest payments, amortization and depreciation, as well as income tax, you get the value of ICO. If the ICO to be adjusted for extraordinary income and expenses, we obtain a net profit (Net income). If the net profit to deduct dividends on preferred shares and corporate bonds and certain other spending priorities, you"ll get to the profit sharing (net income applicable to common shares). When applied to the Russian accounting, ICO corresponds to net income before adjustments for extraordinary income and expenses. Besides, the non-recurring income and expenses shouldn"t be included to the calculation of ICO. And finally, there is an income from non-continuing operations (INCO). This quantity - is the opposite to ICO. INCO - is income adjusted for expenses from companies that are no longer part of the holding of this reporting period and, therefore, the cash flow from them will not continue anymore. Often, companies publish NICO reference for investors for a long time, knowing that these companies are no longer a part of them. There are also some other indicators included to NIKO which are beyond the scope of this paper.

  

So, I think you already understand: how to calculate the first stage of the model. Coefficients are calculated, then they are substituted into the linear discriminant model by using the following formula:

  

(414)

  

Further, the value of Y is substituted into the following minus-logit model:

  

(415)

  

Where: Bp - is a measure of the probability of bankruptcy by the model. e - is the exponent which is equal to 2.718281828. Y - is the value of the given above function. The resulting fractional number will reflect the probability of bankruptcy for the company over the next 700 days. For example, the Bp index is equal to 0.87 would mean that the probability of bankruptcy is 87%. The higher the obtained value of the Bp - the worse it is for the company!

  

This type of analysis is minus-Logit (exponent e is raised into the y-th power except for to be raised to the minus y-th power as it is accustomed in a classical logit). Accordingly, the logit analysis shows the probability that the company is not bankrupt (NBp):

  

(416)

  

  

The amount of data of logit and minus-logit analysis should be equal to 1:

  

(417)

  

The whole model specified below we agree to call Logit, realizing that the features of the Logit and minus-Logit analysis are already taken into an account.

  

Let's consider an example. Suppose that there exists a conditional CJSC "Stratum".

  

The next data on this company is listed below: balance sheet data in thousands of USD; the data for the model calculation is also given in the table below:

  

  

Table: Calculation of the probability of bankruptcy for the company "Stratum", thousand USD

  

  

  

In our example, the probability of bankruptcy of the company is 52.15% over the next 700 days. In general, there are signs the company the probability of bankruptcy, on average, about 50%.

  

2) The company's bankruptcy model taking into account the options and SWAPS

  

Option - it's kind of security; it's a financial instrument; it's a kind of derivatives, consideration of which is beyond the scope of the paper about the complex financial analysis. In this paper there will be analyzed the options without their substance considering. If you have any questions about the nature of options, you can see my Russian book, in particular, the chapter on IFRS and GAAP, which has a brief consideration of options.

  

The model involves consideration of options by the Black-Scholes method. To apply the Black-Scholes method - it requires that for each type of contract option there had already been calculated: market / price at the market rate / exercise price (strike price), the term of the option (in the quarters and years), the magnitude of volatility [23], the average / average-periodical rate of dividends (as assessed by quarterly compound interest), discount rate (the equivalent coupon income [24]).

  

It should be noted that a complex mathematical apparatus is used to calculate volatility. For example, the volatility of the simplest security, part of an option, bond, is calculated by the formula:

  

(418)

  

Where: n - number of periods prior to the strike or maturity of the bond; y - is the rate for a certain period; F - is the nominal value of the bond; C = Fc - this is the coupon payment of period. For bonds without embedded options, the value of the left side of the equation is always greater than 0 for obvious reasons. For bonds with embedded options left-hand side can to be as well as not to be greater than 0.

  

Prominent theorist on the volatility of the financial analysis of options and other securities is a professor at Cambridge and National Taiwan University, an expert in the field of neural networks for financial transactions, Yuh Dauh Lyuu. You can refine the definition of volatility issues and other issues of financial mathematics in the field of securities in his works.

  

The differential equation of the Black-Scholes option involves optimization of the portfolio to minimize risk:

  

(419)

  

Where: C - this is the option value with price S. r - is the instantaneous rate of return of the instrument. t - is a measure of time. σ - is the standard deviation.

  

Let"s now make a returning to the Black-Scholes method as it is applied to the model of prediction of bankruptcy. The method can be used in accordance with sub-method of Schroeder and Clark (Schroeder & Clark, 1998). There is a need for some additional calculations to apply this formula. First, one must calculate (PVSPX-D) the present value (PV - Present Value) of Stock-Price in X-dividend condition (that is, Ex-dividends, that is, excluding the cost of dividends):

  

(420)

  

Since the option, to use the Black-Scholes method, is calculated on a quarterly rate, the multiplier would be 4. T - is a mathematical element that expresses the time, usually it is equal to 1, with an annual interest rate equalization of the option. ARQD - it's average/average-periodical rate of dividends (as it is assessed by quarterly compounding). SP - is the market price of the option /at the market rate/.

  

The second necessary component for the intermediate calculation is PVEP: present value of the exercise price (strike price):

  

(421)

  

Where: EP - it's exercise price (strike price). BEY - is a bond equivalent yield - this is equivalent to the coupon yield, which we considered earlier.

  

The third essential element is the cumulative rate volatility (QV):

  

(422)

  

Where: V - is a measure of volatility.

  

With these calculations, we can calculate the value of the option-call. It is calculated by the proportions in line with the Black-Scholes equation. It"s necessary to determine the present value of the proportion of the market price of the option (% PVSP), a proportion of the given option exercise price (%PVEP) and from these data to calculate the value of the option-call (COV). In this paper I will not discuss how to calculate it manually - instead, you and I discuss the method of calculation by computer. I think all of you have a table editor Excel. In this editor, perform the following operations. To calculate the % PVSP [25]:

  

(423)

  

To calculate the% PVEP:

  

(424)

  

Of course, the values (%PVSP) and (%PVEP) show the calculation equations by the Black-Scholes method, through the prism of Schroeder-Clark and Merton"s axioms 1974.

  

In accordance with the axiom of Merton, if we were making the calculation by methods of classical analysis, (%PVSP) would be equal to:

  

(425)

  

A (%PVEP) would be equal to:

  

(426)

  

Where: VA - this is the current market value of the option contract, X - is the estimated value of the debt to be paid after the time T; rf - is a risk-free rate estimated by gross method of compounding; div - this is the rate on dividend income, expressed in accordance with the terms of the current market value of the option Contract VA; σA - this is the standard deviation.

  

Because the fact that the approach for the evaluation of options was developed by Black-Scholes and Merton, the author once again stress that the current models to estimate the probability of bankruptcy, into account in calculating the options, are known as models of BSM (Black-Sholes-Merton) - by the names of the founders of the standard calculation of the cost of this types of derivatives.

  

You, my dear reader, may also use any classical variant of the BSM models for the options estimating instead of taking the Schroeder-Clark method, if you like. However, when using the BSM You also need to calculate the value of μ (t), which describes the expected market return from the options:

  

(427)

  

Where: t - this is the period under review on derivatives. Many leading specialists today prefer to use the Schroeder-Clark method for the BSM, for example, Stephen A. Hillegeist, Elizabeth K. Keating, Donald P. Cram, Kyle G. Lundstedt and others(indicated by the leading scientists in these aspects of the school Northwestern Universities, Harvard, California).

  

Let's go back to the algorithm of Schroeder-Clark, realizing that the main features of the model BSM are already described.

  

The value of COV will be:

  

(428)

  

This value, if negative, should serve as short-term liabilities of the company in step number 1 in the model, increasing them, or if the value is positive, then go to the relevant date for the company's assets. Thus, this changes the structure of the balance sheet, which has at its hands the option contracts.

  

The specified calculation is an estimate of options on the model of Black-Sholes by Clark-Schroeder. This approximate calculation is used for predicting the probability of bankruptcy.

  

Let's consider an example. Let us imagine the considered CJSC "Stratum" has a market option contract that begins January 1, 2011 and ending January 1, 2012. An option contract consists of 200*30 stock options at $ 280 price for execution (strike price). It is known that the market price of the option is 237 $ for an option contract for 01.01.2011y.. Execution time T is thus equal to 1. It is calculated that the magnitude of volatility for a given contract is 72%. The average annual / average-periodical rate of dividends (as assessed by quarterly compounding) is 3%.The level of discount is 7%. It is required to compare: whether a conclusion/output of the option contract will increase the risk of bankruptcy for the company "Stratum".

  

  

Table: Calculation of option-call value

  

  

  

According to the model, each such option contract (out of 200*30) increases the value of liabilities, primarily short-term, by the value of the option price. Let the options" lot is equal to 30 USD. Then the company's commitment is estimated to increase by 54.437 * 200 * 30 = 326 620.83 thousand USD. Substituting this value into the regression equation, we find that the probability of bankruptcy of the company is increased to 63.1% in relation to options contracts concluded!

  

However, the method of Clarke and Schroeder may not be applicable when it comes to contracts-swaps (SWAP [26]). The investigated model we analyzed for bankruptcy estimation offers contracts such as swaps by method of Professor Robert Jensen [27] and standard ED 162-B, developed by the FASB (committee to develop standards for accounting of transactions). Let swaps are tied to any rate, such as LIBOR. SWAP is, on the one hand, the process of options" insurance, on the other hand, the process of "dispute" on the dynamics of interest between the parties. There are two swap rates: the rate of acquisition (receivable rate) and rate of payment. If from the rate of the receivable (SRR - Swap receivable rate) to subtract the rate of payment (SPR - Swap payable rate), we get a clean swap, which is denoted as E, or SNR (Swap net rate):

  

(429)

  

Where i - denotes the i-th term of the swap contract.

  

Let the nominal value of the swap is equal to F / commonly referred to as NA (Notional Amount) /.

  

Professor R. Jensen"s method is based on the index of the nominal value of NCRP (Notional cash receivable / payable), which he recommends to be denoted as G:

  

(430)

  

Then two theoretical values are calculated: the calculated values to obtain (LSR - legal settlement receivable) and calculated values for the payment (LSP - legal settlement payable).

  

Next, we slightly deviate from the method of R. Jensen towards the Word Association by SWAP standard ED 162-B, developed by the FASB. GAAP also requires a new calculation of G and it is generally similar to the method of R. Jensen. Standard ED 162-B involves the calculation of net present value of the swap.

  

I think, there is need for manual calculations - instead of it, let us look how we can use the help of computer for this. In the simplest program Excel (which, incidentally, is mentioned in the standard ED 162-B as a suitable program for calculating the present value of the swap) there is a PV [28] (present value) function.

  

When calculating the PV, enter the SWAP rate to receive in PV to receive, enter the net percent on SWAP into the percent of this PV function (this is the E value, which is considered earlier); the PV sum - is the net sum receivable (the G indicator, which is also considered earlier); the PV period is the indicator (N - t).

  

N - is the total number of periods during which the swap acts. t - is the current period number for the swap operation (0, 1, 2, 3, ...., N). Thus, the degree of the last swap is always 0. Thus, we can relatively quickly and without departing from the rules of international standards to assess calculation of swap operations for each reporting period.

  

In order to assess what the company pays for the swap and the counterparty pays that - count rate L, which is equal to -PV:

  

(431)

  

Positive or negative for the company amount payable to the recovery of the swap transactions will be calculated based on the index M:

  

(432)

  

The index is calculated for each M i-th period of the swap. The indicator shows the actual dynamics of the M growth and profitability increase of operations on swaps.

  

Thus, the L indicator will show the true value of operations based on swap, and the index M will show which way we expect an increase in profitability.

  

Proper display of swap transactions in the model to predict bankruptcy discloses the actual financial position of the business-systems in a more objective way.

  

Typically swaps - this is a long-enough-term-deal, because of this fact, the alleged or actual value of these deals should be attributed to the amount of long-term debt relatively, knowing that any obligation on them will appear later. SWAP in the face of uncertainty is calculated under three scenarios: optimistic, pessimistic and normal. Since the swap is usually tied to a percentage, often to the index of LIBOR, then under the three scenarios should predict the change of the index of an indicator, which determines the value of future royalties or sums paid under the swap transaction.

  

Let us consider a simple hypothetical example. Let CJSC "Stalker" concludes the swap contract with a bank JSC "East" at par value 150 000 * 30 USD. The term of the contract is 4 years. The contract is tied to the rate of LIBOR. Each year the company receives a 1.51% rate of LIBOR, and pays 9.15%. Let the current LIBOR rate is 7%.

  

JSC "Stalker" expects LIBOR growth to continue due to the crisis trends in the economy, and the bank hopes to the normalization of situation in the economy and its revival, as a consequence, it expects the fall of rate of LIBOR.

  

Let they estimate a prognosis projected scenario of change rates of LIBOR, which is shown below. How will the probability of bankruptcy situation change itself for the company CJSC "Stalker" in this scenario, assuming the option contract in the previous example has also been concluded. For solutions" making to be applied the method discussed earlier.

  

  

Table: Calculation of the SWAP by standard ED 162-B for a given scenario

  

  

  

It is seen that the amount of company"s debt will be increased in the given scenario. If a company received the previous option contract, the probability of bankruptcy would increase to the amount of 63.15%.

  

Thus, options and swaps, which is reflected in a company's balance sheet in a special way by inappropriate fair value, - they can significantly increase the risk of bankruptcy; that is why they need a complex comprehensive analysis in prior.

  

If a company you analyze has no option contracts and swaps, then the financial analysis of the probability of bankruptcy for a company will be much more simple...

  

If a company that uses derivative instruments (options, swaps) for various purposes, the analysis of the probability of bankruptcy needs a little more time from you my, dear reader! The specified in this part methods will allow you to master the simplest set of tools for financial analysis of a particular type of obligations: options in their interrelationship and interdependence of the probability of bankruptcy in the business-system. The use of modern computers allows you to reduce the effort in handling the material to a minimum.

  

Comprehensive analysis of the derivatives is beyond the scope of financial analysis of business-systems, therefore, it is beyond the scope of this paper. This paper provides a financial analysis of derivatives only in the part that is most directly linked to conduct a comprehensive financial analysis of the business.

  

Next, I offer you to consider one more modern model for forecasting bankruptcy, developed in Quebec, Canada.

  

  

Model of Quebec, Canada, 2009/2010

  

  

Along with the linear discriminant analysis and logit

  

  

Hatem Ben-Ameur and Pierre Rostan

  

analysis there is a different type of analysis: Probit. The Probit analysis was established by Chester Ittner Bliss (1935 / USA, Springfield, Ohio (1899 - 1979)) and Ronald A. Fisher (1890 - 1962), whom we know as the founder of the linear discriminant analysis. You and I will not now be introduced in the mathematical formalism of these models further. Instead, let us consider another model based on a complex logistic regression. The author of this paper gives you the main conclusions of this model.

  

The model was able to identify a company bankrupt from each branch of the 700 similar companies (total in each sector there was about 10,000 firms for the analysis). The effectiveness of the model is 63.82% - 84.62% depending on the features of a particular type of company. The model is developed by a team of authors: Hatem Ben-Ameur, Bouafi Hind, Pierre Rostan, Raymond Theoret, Samir Trabelsi in 2005/2006, 2009, to analyze and forecast the bankruptcy of American firms. Despite the goal, U.S. firms, the model has been developed in Canada, in Quebec City.

  

(433)

  

Q - is the total score of the model.

  

λ - is a discriminant model parameter, which defaults to 1. After the analysis of whether a company is bankrupt, λ may change itself. If a company as a result of the analysis is evidence of a bankrupt, then λ = 1, otherwise λ = 0. The index P is calculated by the formula (434):

  

  

Where: X1 - this is a quotient: the most liquid assets (MLA) to the sum of short-term borrowings (STL):

  

(435)

  

X2 - is the ratio: net working capital (NWC) to total assets (TAS):

  

(436)

  

X3 - is the ratio: net income/profit (NP) to total assets (TAS):

  

(437)

  

X4 - is the ratio of EBIT to capital (OC(Eq)). EBIT - as you remember - is the sum of operating income, interest expense and excessive interests in the Russian accounting.

  

(438)

  

X5 - is the ratio of COGS to revenues (Rev). COGS - Cost of Goods Sold. COGS - is the sum of all realized during the period goods at cost, as it were, the cost of goods produced and sold to companies for the period. This figure corresponds to the amount of funds received from buyers and customers for goods, labor, services sold from company"s core activities. COGS does not include operating, non-operating, emergency and other similar income/costs - it only includes directly related to the main activities of the company costs.

  

(439)

  

X6 - is a discriminant size of the company. The concept of discriminant size of the company was introduced to the science by Sofia Balkaen, being one of the points of her doctoral thesis defense in 2009. Discriminant company size (DCS) - is the natural logarithm of total assets of the company:

  

(440)

  

Where: ln - is the natural logarithm (logarithm of the "e") of the amount of assets denominated in comparable to other companies monetary value. For Russia it is a thousand rubles. For comparison with international companies - thousands of USD It should be noted that very often Sofia Balkaen expressed DCS in million USD. All this will have little value if the company to be compared to the same value, for example, all in rubles ..

  

When λ = 1, you get a percentage of the quantitative expression of the probability of bankruptcy for up to 3 years. If the probability was obtained less than 50%, instead of λ = 1, we can substitute λ = 0.

  

The overall probability of bankruptcy prediction at λ = 1 indicates the approximate probability of bankruptcy within the next 2 years.

  

This completes the analysis of the probability of bankruptcy. Thus, we together with you, my dear reader, considered the absolute approach to financial analysis. Let's look at another fundamental concept of financial analysis: marginal approach.

  

Analysis of the probability of bankruptcy - is a complex and multifaceted process. However, in this area there is a paradox: exploring effective models for predicting bankruptcy, mankind has invented a set of models, some of them with 98.5% - 100.0% probability that can predict the opposite phenomenon - that a company will not become bankrupt in the next few years ... .. As long as the leader in prediction of "not bankrupt" is the model of Olson, which in some countries has passed with just a splash, with its 100% select of all companies that just do not go bankrupt in the near future.

  

  

The new Olson"s model versions: Harvard University version 2009/2010

  

  

Olson model was first developed in 1980 and still runs successfully tested. Instead of the classical model of Olson, we consider a more modern model of Olson, modified by the University of Harvard and released in 2009/2010. The model has the form:

  

(441)

  

In this model, e - is the familiar constant - the exponent (2.71828 ...). O - is the degree of the erection of the exponent. Indicator O is calculated by the formula (442):

  

  

Where:

  

! - Shows that these ratios regardless of the model value should be paid by particular attention (my dear reader, please, note, that "!" sign here - it is not a factorial sign!).

  

ln (ΣA) - is the natural logarithm of the assets of company (just count the balance in USD million ($)!).

  

O1 - this is the ratio of total debt to total assets.

  

O2 - is the ratio of net working capital to total assets.

  

O3 - this is the ratio of short-term debt to current assets.

  

O4 - is the ratio of net profit to total assets.

  

O5 - this is the sum of: operating income, depreciation deductions by depreciation rules, to total liabilities (total debt).

  

O6 - is an indicator that can take two values: 1 (if the sum of net income over the past two years is less than zero) or 0 (otherwise).

  

O7 - is an indicator that can take two values: 0 (net worth of the company / shareholders' equity minus liabilities / is positive) and 1 (if the company's net worth is negative).

  

O8 is the figure calculated by the formula:

  

(443)

  

  

  

Where: t - this is the reporting period, respectively, (t - 1) - this is the last reporting period (which is previous to the reporting one); NP - is the net profit, | | - is the mark of the module, meaning that the number inside is always positive.

  

The result of the calculation model is the parameter H, which must show the likelihood of bankruptcy of a company in a percentage of probability in the next 2 years.

  

One can interpret the resulting H figure as follows. If the indicator has turned more than 1% - the probability of bankruptcy is essential. Since the upper limit of the probable bankruptcy prediction is 5% of the model, which corresponds to 100% probability of bankruptcy, the figures above 1% are evaluated differently. 1% corresponds to 30% probability of bankruptcy, and 2% corresponds to a 50% chance of bankruptcy, and 3% correspond to the 75% probability of bankruptcy, and 4% corresponds to 90% probability of bankruptcy, and 5% - 100% probability.

  

All companies whose model"s value was higher than 1% - are at high risk of bankruptcy, according to this methodology.

  

I think you have already guessed that we will gradually come to the end of the classical financial analysis. Financial analysis of bankruptcy - this is an additional tool for financial analysis of the business. It checks whether a firm stable or not. Its goal - it's not a prediction of disaster; its goal - is the management of probable catastrophe and the anti-crisis development of such company so that at any circumstances it not to become a bankrupt.

  

Next, I offer you, my dear reader, to consider an alternative approach to financial analysis, which first appeared in Management Accounting: marginal approach.

  

  

Marginal approach to financial analysis

  

  

The author of this paper immediately emphasize that marginal approach will be discussed in this paper only in so far as it relates to complex financial analysis. I will not consider the particular application of marginal analysis in managerial accounting, operations management and so on - just in financial analysis.

  

Originally marginal approach originated in economic theory in the construction of effective demand and supply functions. For the first time in the practice of management of the company it came under the banner of the method of incipient management accounting in the 1940s - 1960s. Nobody really thought then that by the end of the twentieth century the scientific world would break out discussion as to whether it is an approach has a right to persist in managerial accounting or it can be replaced by financial analysis and accounting.

  

Opponents of marginal analysis in managerial accounting are many leading scientists and financial experts. The most ardent critics were some prominent professors of Harvard University. About all this we will talk a little bit later .... In the meantime, let us define the very essence of marginal approach.

  

In Russia, this approach is a lot written about, and little attention is given to how to adapt this approach to Russian or any other accounting: nobody has a marginal classification of revenues and expenditures which is required in this approach...

  

Marginal theory suggests that the success of a company depends on its manufactured cost. The higher the costs - the worse it is. Thus it is possible in a few words to describe this approach. If not describe in a nutshell, the name of the approach is in the concept of margin, and not a simple one, it is in the limit one (margin, "Marginal", "Deadline").

  

Margin in the classical expression is presented as revenue minus cost for a particular transaction or transactions. However, there is a question of limiting the margin. In order to understand it, it is necessary to know the marginal theory of distribution of costs to financial result of company"s activity.

  

This theory states that all costs in a company can be divided into fixed and variable. Let us together with you, my dear reader, make a reservation in advance with the symbols, which are commonly used in this approach. TR - Total Revenue - is the total amount of revenue. ATR - it is the income per unit of production (on average). FC - Fixed Costs - it is a fixed cost. AFC - Average Fixed Costs - a fixed cost per unit of output. VC - Variable Costs - these are variable costs. AVC - Average Variable Costs - is a variable cost per unit of output. TC - Total Costs - these are gross expenditures. ATC - Average Total Costs - this is the total cost per unit of output. TP - Total Profit - total profit is the difference between revenues and expenditures of all, sometimes it is calculated per unit of production as ATP (Average Total Profit). MR - Margin Revenue - is the ultimate, the marginal revenue. MC - Margin Costs - it is marginal, ultimate cost.

  

Here we must make some clarifications. Fixed costs - is the theoretical value of costs that amount does not change itself depending on the volume of output. If a company has something or not, rent, property tax, ... .. and other fixed costs the company pays at all times. Variable costs - costs that the theoretical value, the amount of which varies depending on the volume of output.

  

If, for example, some company produces dumplings, the dumplings" cost per ton will go, probably, about two times less costs than for the production of two tons: it needs less sugar, yeast, flour, dough, fillings, ... ..However, this value is theoretical, because the accounting cost of such a classification does not exist. Let's make a slight digression, and determine how to divide all the company's costs into fixed and variable according to any national accounting reporting!

  

Alexander Shemetev created his scheme for classification of all the costs into variable ones and fixed once at any main national accounting reporting standard. This scheme, developed by the author of this paper, is given below:

  

  

Scheme: Fixed and variable costs of any national reporting standard

  

  

080 - is the conditional name code for income/expenditures from operations with shares, securities and received from subsidiary and affiliated companies. (010) - is a conditional name code for revenue - this is the total revenue from the balance sheet form #2 - statement on income and losses. Actually, all the data for this classification should be taken from this #2 form.

  

It can be clearly seen from the scheme that the production activities are only the very cost, commercial and administrative expenses. Other expenses (interest from investments in other companies, interest incomes/expenditures, non-selling incomes) have no relationship to the production. They reflect the non-productive activities of the company, its specificity, which has no relation to the main activities.

  

Along with the Alexander Shemetev's method of taking the marginal indicators from accounting data (a method of financial accounting), there is a method of allocating the fixed and variable costs from management-accounting techniques. However, since 1985, the world's largest companies have become increasingly move away from the management accounting and its use in management [29]. Since 1982, the world begins the era of criticism of management accounting by the most eminent professors. The author of this paper will not give the entire material on both critics and protection of managerial accounting (management accounting).

  

Well-known critics of the management accounting and its methods are the supporters of financial accounting rather than the management accounting. They suggest the marginal analysis may be performed by the financial data. The opponents of management accounting existence are: Robert Kaplan and Thomas Johnson. These authors belong to the Harvard School of Economics and Finance. As practitioners in the financial analysis, they reasonably confirmed that the majority of firms that lose in the competition by just using the methods of management accounting in damage to financial.

  

They note that the management accounting techniques were developed in the 1950s - 1960s, and only a little fine-tuned further. Such outdated methods, according to these authors, are inferior to more sophisticated methods of financial analysis and accounting. Because of this fact, financial accounting can save huge amount of time, resources and energy at relatively low cost of accuracy. Costs of accuracy - it is a mathematical term, developed for the first time by Ronald A. Fisher. Costs of accuracy - represent the magnitude of error of financial, mathematical or statistical model from a theoretical model that would reflect the all the 100% of facts with full 100% adequacy.

  

The main controversy in favor for and against the management accounting was developed in the world in the late 1980s - 1990s - 2000s. Currently, managerial accounting is experiencing its "second birth", adopting and assimilating models of financial analysis and accounting. Criticism of management accounting has been so significant that even the major proponents of the theory of management accounting agreed that obsolescence of management accounting models makes it significantly less attractive in the realities of the business than the use of methods and models for financial analysis and accounting. In particular, this position is held Colin Drury, Johnson, Cooper and others.

  

Because of this, the author of this paper used the method of dividing the cost to constant (FC) and variable (VC) in accordance with the terms of financial management rather than management accounting.

  

Dear reader, please note that if the amount of revenue already includes in itself all the income from additional activities: Interest income and other non-operating-incomes - such an income must be deducted from the proceeds before the analysis to avoid double counting, since these revenues have no relation to company"s operating activities. Therefore, they should not participate in the establishment of fixed and variable costs from operating activities in order to avoid errors.

  

The different from marginal method should be applied for calculating the interest, non-operating, emergency and other similar incomes and expenditures!

  

Now, when you and I discussed the classification of income and expenditure by marginal model, let's make our first financial analysis using this model. And now the question for those of you, who read my book well and understood the previous material. Imagine that you came to abrupt data about the activities of a company that knows that it works successfully in the market. And in 2009, its cost has exceeded its revenues by 12.3%, and in 2010 - by 13.9%! Also, the cost exceeded revenue in 2008, 2007, 2006 and 2005 .... At the same time, the company ended the year with virtually considerable profit (2.3% of book value), and finished all the previous years with net profit! If other data is unknown, how can that be? What are the sources of financing and the sources of profit for such a business-system? What is the structure of its income? What do you think, my dear reader: what is wrong with this company? Try to try to answer this question by yourself, or you may consult with your accountant. And please try to answer this question by yourself, until you read the proposed solution literally in the next paragraph.

  

I hope you, my dear reader, were able to answer this question of the author of this paper! In any case, you can compare your answer with the steps below. Probably, the profits are not reflected in earnings because it was related to non-operating income and characteristics of its recording. As the situation from year to year is repeated, it is quite likely, the company receives dividends from associates, which are reflected in the profit and loss account when calculating revenue. If this were only found in one single year, it could mean that the company has discovered unaccounted for (for example, due to an error) income of previous years, or it sold a little of its real estate, or doing something similar. Author of this paper for clarity brought to you, my dear reader, this example you to understand that every company is individual. Now, let's take a closer look to this individual company. The question here arises is: what is rational for a company: to stop the main production activity and to live on dividends and other income, or to continue the production process, when data for this company are as follows:

  

  

Table: Reported LLC "Dividend", millions USD

  

  

  

Apparently, the company has three production lines: ? 1, ? 2 and ? 3, which produce relatively homogeneous products. In the future, production lines and related indicators will be denoted simply by their numbers. In order to determine which line of company is more profitable to keep and which - it is more profitable to close - it is necessary to perform the following form of analysis:

  

  

Table: Key marginal indicators of LLC "dividend", millions USD

  

  

  

  

Where: n - is the numerical designation of the production lines or other atomic distribution center costs, for which there are marked the constant and variable costs and total revenue;

  

KE - these are selling and distribution expenses (commercial expenditutres);

  

AE - these are management costs.

  

The remaining denotations have already been given earlier. The author of this paper proposes to divide the total amount of variable costs on atomic distribution centers based on the cost structure or the structure of revenue, or from the structure of production - depending on what data is actually available for analysis.

  

How to analyze these indicators? Since the sum of net income (loss) from activities of each production line is less than the sum of the fixed costs allocated to the specified line in accordance with the structure of costs, each production line to continue the operation should cover part of the fixed costs, otherwise the company will have an even greater loss of each single or for all the production lines.

  

Now let's look at another example on the use of fixed and variable costs in the planning of production activities.

  

To get started let me remind you that we have a conditional company. It is necessary to calculate if it is profitable to invest in a certain project for the production of some conventional products.

  

In this part of my paper I will analyze the overall strategic plan for the company for the next 8 years. It is the calculation of scenario when among all the investment opportunities a company decides to invest in its own production. So, the terms are next.

  

Co. Ltd. "Luck" - is a conditional firm with its headquarters deciding on how it is best to invest in Russia.

  

Co Ltd. "Luck" puts the following conditions for the investment project:

  

  

Table: Conditions on the investment project for LLC "Luck"

  

  

  

  

The main objective for research of investing in its own production:

  

1 - To investigate whether the project payback of investments is possible, taking into account norms of profit for investors (the time value of money), and what conditions should be created to stimulate the best payback opportunity.

  

2 - If payback for investments is possible, to investigate the maximization of profit as the main goal of the company in the long run.

  

3 - To review by complex analysis: the way the Ltd. "Luck" will be able to invest its temporary surplus funds in its own production in the most appropriate way.

  

Investors, from their part, expect the feasibility of their investments.

  

The method of FV - Future Value - is a method of estimating the actual cost of the project on its future value, taking into account standards of income for investors. I recommend you, my dear reader, to use this method instead of the NPV calculation, because it is much more simple mathematically, it gives less errors, it gives the same result as the calculated correctly NPV, it demands almost no mathematical skills. The probability of error when using the NPV method is caused by its way to estimate the negative cash flow values over the time. While the method I offer has no such problem at all, and it gives the same result as the correctly calculated NPV. So, let us start from the beginning.

  

There are two methods to estimate the actual value of the investment project:

  

1) FV - Future Value - A method of estimating the actual cost of the project on its future value, taking into account norms of income for investors over the time.

  

2) PV (NPV) - (Net) Present Value - A method of estimating the reduced (discounted) cost of the project, which calculates the discounted at the current date (and for any date in the future) cash flows from the investment project.

  

FV method is very simple and easy to use. And it is designed for people who are not very friendly with the math. And it does not give errors in the calculations.

  

A method for PV (NPV) may give some errors; it has errors that are not described in the scientific literature. The method of PV (NPV) has the effect of deceptive value of the investment project. Especially, it is so when the negative cash flows are planned for some business projects in future periods. The PV (NPV) method simply "cuts" these cash flows. Because of this, often unprofitable projects seem to be more profitable, and profitable projects often seem to be unprofitable. This is the "effect of deceptive value" of the investment project, as I call it. I described it more details in my Russian books.

  

Let"s calculate the first rate of return on the project by the method of FV.

  

Our time period is greater than 1 year, investor, the parent company Co. Ltd. "Luck" considered advantageous profit interest calculations from the formula of compound interest:

  

(444)

  

Where: FV - is the future value of money, taking into account the norm of profit.

  

PV - is the real cost of the investment project (750 000 USD)

  

i - Interest earnings on the draft standard.

  

n - the life of the project in years (8 years).

  

We will now analyze the established norms of profit:

  

  

Table: Calculation of the investment attractiveness of the project

  

  

  

* It"s an average price, because standards are equally and so profit can be calculated simply as the arithmetic mean simple (without the use of the weighted arithmetic mean).

  

A new branch of LLC "Luck" will produce and then sell conventional products. The estimated project life - is 8 years. After that, the equipment and other must be sold at the liquidation value of 300,000 USD

  

The investor (parent company LLC "Luck") intends to make a lump sum investment of $ 750 000 USD.

  

The investor plans to bid the project estimated by one of the following rates: 12%, 15% and 13%, depending on external conditions.

  

Ltd. "Luck" had extensive analytical studies of the market in which it was found the exact value per unit of output to % of demand for these products at a specified price. The results were as follows:

  

Table: Value for price and demand based on market research for company "Luck"

  

  

  

And now, my dear reader, I would expect you to answer a question: why it is so that when the price is $12 per unit - there are 80% of customers who wish to buy this product at this market segment, while when we decrease price to $8 per unit - there are only 46% of thou who wishes to buy it?! The price decreased itself by more than 30%, while demand fell by nearly an half?! According to the theory of economy, the lower the price is - the higher is the demand, and vice versa. Why do you, my dear reader, think this supply/demand law was broken here?

  

This is an effect of "fear of lower prices". The fact is that the price of goods is associated with the quality of the goods for all people, and, at the same time, with its prestige. In fact, it may not be true - in reality, some cheap goods may have much higher quality than some luxurious or just expensive goods, and vice versa. Thus, a juice for 1 dollar and 40 cents per liter may be even more "juicy" and more of-high-quality than the juice for 4 dollars per liter; and the juice for 1 dollar and 40 cents may have an association of low-quality and non-prestigious product.

  

  

Quality - this is what the average middle class chooses; prestige - that is what selects the highest class of society. This effect is often associated with the so-called effect of Thorstein Veblen, who in the early 20th century published his book "The Theory of the Leisure Class"; he wrote that "Rich people are afraid of low prices". Therefore, the economic law of demand: the lower the price - the higher the demand - it only works up to a certain limit in the lower price range (and with a definite boundary in the upper one (and that's another theory that has no relation to the majority of situations)). The upper boundary - is a boundary of Exclusive Commodities for Collectors, which by their values are no longer seen as a commodities. People see in them a way to invest their money. For these products the higher the price - so, more often, the higher is the demand (eg, paintings of Van Gogh, ....).

  

To learn how to conduct such studies, it has been and will be discussed in the continue of my future book written in English; it is yet discussed in my books written in Russian as well as my papers in English which are available for free on-line reading. It's not a secret that marketing analysis - is the most significant "white spot" in the work of enterprises. That is, for example, an important reason of the current world economy and financial crisis: companies couldn"t up-to-time predict the market conjuncture abrupt changes, and so they were unprepared for the anti-crisis strategies application.

  

  

  

  

  

  

  

  

  

At the same time, the improper anti-crisis financial management - is the main reason of the current economy and financial crisis.

  

In order to analyze the profitability of cash investments, you need to build a cash budget for each time period. For clarity and ease of understanding, let us consider the construction of cash flow in the matrix (table) system at an example of Ltd. "Luck". This is - a large matrix (on the next page). In order to build this matrix analysis, it is necessary to calculate the basic characteristics of cost. How to do it - is shown in a small table (it is before the matrix system on the next page).

  

Cash flow analysis of any company can be done by following to these analogues.

  

If you've watched these two tables, then you realize that you can easily cope with the calculation of cash flows for any business (including, your own).

  

Thus, a breakdown of costs into fixed and variable helps the company to plan its production and sales activities, as well as to analyze its subsidiaries.

  

The basic principle in the financial analysis of subsidiaries and affiliates is as follows. We both consider the standard Basel-II/Basel-III on the issue, which (the III version) is currently under development. If the ownership share of the parent company is less than 20%, the investments in the company are just investments. Investments are calculated either as securities, or by any other method. The optimal can be called already discussed by us methods arbitrage pricing theory (APT), the theory of optimal portfolio if the market sector, where the company is, is growing, and the method of VaR, if the industry, where the company is, falls.

  

If the share ownership of the company in a society of more than 20% and there are signs of a significant impact on the development of management decisions in a third party, and, at the same time, the share of ownership does not exceed 50% with the right to control the company, the author of this paper recommends the method of marginal approach to evaluate such companies with the additional use of NFV, NPV, or discounted cash flows at the level of production and sales.

  

It should be understood that the risky component should be incorporated in the calculation of the prediction of marketing loop, as well as operational and financial cycles in the analysis stage of the company. If the company's share in a society is more than 50% and there are indications of control over the company, then such a company should be analyzed in the first place by means of a comprehensive financial analysis.

  

Next, let us consider the basic principle of marginal approach for financial analysis of a company. Let's look at two new concepts - marginal revenue (MR - Marginal Revenue (Marginal Yield)) and the marginal cost (MC - Marginal Costs).

  

MR - this is the revenue per unit of output that we get from the sale of another, an additional one unit of goods, works or services;

  

MC - these are the additional total costs per unit of output that are associated with the production of another, an additional one unit of goods, works or services.

  

Below is a schematic chart developed by Alexander Shemetev of the life cycle model of the enterprise by the model of marginal performance.

  

  

Schematic chart: The life cycle of the enterprise on the marginal model

  

  

RESERVE OF FINANCIAL STRENGTH (STEADINESS)

  

As it can be seen from the graph, all costs consist of the permanent (FC) and variable (VC). The amount of fixed and variable costs in the chart gives the line TC (Total Costs - total (gross) costs).

  

Fixed costs are constant only in a single production macro-period, that is, until, as happens a qualitative shift in the production of goods, works and services at the company. This qualitative shift may be result of restructuring the company to complete commissioning of production capacities, establishment of additional production capacity, reserve capacity, large capital investments, growth of administrative and business costs and so on.

  

As it can be seen, it is a three-dimensional graph. Along the axis of S (total Sum), there is the total value of revenue as well as costs. Along the Q-axis, it is given the number of manufactured goods, works and services. The greater the number of produced goods, the lower cost is obtained as per unit of production, and overall, and ... it is fair relative to a certain period.

  

On the t-axis it is delayed the time axis. The author of this paper has projected three-dimensional graph into the two-dimensional for greater ease of perception. Dynamics of gross profit varies itself.

  

With the start of production, there begins to grow also the share of revenue in the company. Gradually, as production increases itself, the amount of revenue begins to cover the fixed costs. Sometimes companies only work for that - to cover their fixed costs and part of variable costs, because downtime costs may be sufficiently more for some certain companies. Clearly, this situation can not last forever, and the company should start to look for profitable investment project to cover its costs, and further it may gradually close the unprofitable production.

  

And if revenues do not cover the fixed costs of the enterprise, why would it work? Sometimes companies should continue to work for a while, when the activities" stopping now is more expensive than to continue unprofitable activities or a company has a core mean for the society or even for a state as a whole. Such situation, however, may not last for a long time, because the company's goal should be making a profit in the long run, rather than minimizing costs in the event of direct losses. Sometimes, state dotation money replaces a part of income for some certain enterprises so that they may have even some profit for development.

  

To continue its business a firm needs a strong potential for growth, or it should open the way for a business project, which, in turn, has the potential to grow and bringing income to its owners.

  

Let"s return to the schedule. Gradually sales start to grow, and the company begins to cover the entire amount and the gross costs. When this happens in the first time, we say that the business system is in a BREAK-EVEN POINT - that is, in a position where it may be repaid its activity by covering the entire amount of production costs. This point is also called a zero threshold for cost-effectiveness and zero return.

  

The farther we move away from the production break-even point, producing and implementing all the large volumes of goods, the greater it becomes the reserve of financial unsinkable, or a reserve of financial steadiness.

  

The beginning of this phase for a company means a period of growth in the life cycle of a business-system, consisting of periods of "flowering", maturity and early fall (I used the classification of life cycles of the Adizes, 1998). During this period, the company usually expands its market to the limit by taking a certain segment.

  

Profit is equal to revenue minus total costs (see line profits, revenues and gross expenses in the chart); profit gradually begins to grow with a zero threshold of profitability. The company is developing ... to a certain point.

  

As it can be seen from the graph - it is noted by large arrows pointing up and down; - a range of factors influence to the life cycle of company and allow it to grow. Let"s call these factors as raising factors - they potentially stimulate company"s development. And there is a range of factors that oppose to company"s development. Let"s call them decrease (regression) factors.

  

Gradually, the company's growth is constrained in the market segment... .. This comes at a time when the market potential is fully exhausted. At this point, potential regression comes into action. Just like as it goes at the stock market - the bulls and bears; - just for a company in a market segment they are somewhat different, though, if it is a JSC after an IPO, then the stock market begins to affect a company strongly too. As a whole, both the stock market and in company"s model bulls - are raising factors, and bears - are reducing factors. Their strength corresponds to the total strength of these factors.

  

If you collect the whole set of factors in several groups, we obtain the following. To the enhance factors there is a group of factors of production facilities and expansion of productive capacity. As you remember, there are two groups of factors: external - the development of the market segment occupied by all means and methods of marketing-management, and internal - they can be divided into a group of extensive and intensive factors. Extensive - it"s a development through additional resources, and intensive - by changing the quality of production and production process. That is, all the positive work "inside" and "outside" of the company, that is, in the external and internal environment (which we already discussed earlier) - is a step-up factor for the company.

  

At the same time, the decreasing factors have just two main groups:

  

1) Compression of the value and volume of market segment. Rather, the exhaustion of opportunities for this market segment. A part of the market segment usually belongs to your company, and some - to the competitors.

  

When you run out of your share of the segment - it may be nowhere to expand to. Of course, you can extend the value of the segment itself, to improve the segment, and so on - that is, to do so, as shown in the consideration of raising factors. And, nevertheless, there is the strength of the exhaustion of the segment"s value at the market. Moreover, it is not just a force of exhaustion, it is the compression force value of the segment; it is due to the fact that more and more competitors enter the market segment. Those competitors both develop their segments and develop their presence at the segments. As a consequence, segments occupied by your company are under threat of capture by competitors due to many factors ... For example, the competitors are just more successful.

  

2) Life Cycle of the Investment Project. Much depends on what stage of life cycle is a company; much depends on how a company develops its business activities: by following the theory of catastrophism development, or by following the theory of evolutional-wave-development. In fact, the main factor that determines the degree to which the dynamics of activity will develop for a business system - is the factor of the crisis of innovations. This applies particularly to the industrial sector. A lot of Russia"s leading experts point at this problem at this field in Russia, in particular, B.A. Voronin, V.V. Akberdina, G.M. Korkina, L.N. Popova, S.A. Roslyakova and others. Thus, the lack of innovation is a powerful step-down factor for companies in today's society.

  

As it can be seen, there is a break point at the graph - when the boost factor is exhausted, and the decreasing factor starts to act much more strongly than the increasing factor. The dynamics of earnings declines very rapidly, and this is not an isolated case, and the constant tendency.

  

What is to do for companies when raising factor is exhausted? The most definitive answer - is that a firm should simultaneously seek means to reduce the impact of reducing factors (eg, to capture market segments of competitors, to attract new audiences, to promote its products into new markets for the business, to develop existing markets, to expand the value of the segment, and so on), and, at the same time, such company should move to another inertial frame of the report - for example, to produce an innovative product that meets existing or new customer needs better than competitors' counterparts, to develop other business projects, in other words, you can diversify your company"s activities in order to reduce the load on the risky capital for your business-system, and so you may encourage the creation of a new life cycle.

  

As you remember from the evolutionary-wave theory of development, any system tends to crash as long as it can not move smoothly to the next evolutionary level. It is fair for this theory and to the evolution of the enterprise. Each cycle of evolutionary-wave theory can be considered as a such-like graph of theory of catastrophism.

  

Gradually, after the fall of the dynamics of earnings, company begins to reach the Limit Points of the market by itself, that is, to the point at which the company is once again able to break even. This is the time corresponding to the end of the life cycle of the enterprise, while, at the same time, this is the point of market saturation by products of this company.

  

Thus, if the market has new products of higher quality or differentially different from products of some excising enterprise, a buyer will most likely seek to buy exactly the differentiated products in this market segment. The largest segment in this case narrows sharply - the market needs fewer products from this enterprise - so, there is a decline in the number of goods sold, which eventually comes to a limit of the enterprise"s market.

  

What to do in this case? In this case, there is the need for qualitative leap in the development of the company so its development theory continues to be an evolutionary theory instead of catastrophic theory development. Very many scenarios can be used in this case: new innovative project, just a new business project, company development into new markets, market size segments" force expanding, pricing and so on.

  

And you can still use the old industrial base and to produce products based on it, and you can use additional manufacturing capacity, for instance, to give it to rent. As you can see, there is a lot of options. All this should enable such company to make a profit again.

  

Well, after that, if things keep going on the theory of catastrophism at such an enterprise, it passes through the point of exhaustion Limit of the market and starts to incur losses. The company begins to involve leverage actively to cover its losses, which further increases the crisis inside the company ... .. And we have talked in detail about this scenario in the first section of this paper (this paper is the second section of it).

  

Now we discuss a little bit different: Analysis of profit maximization. The point of maximum profit at the chart corresponds to the maximum distance between the curve of the gross costs and gross profits" Curve. Gross profit minus the total cost - that is profit; and the greater the distance on the graph between the lines - the more maximum the profit of a company is. Of course, it is so just when the Revenue line exceeds the line of costs.

  

If the Revenue line is below the Gross costs, while it is above the line of fixed costs, the stop of such an enterprise at a given time is more expensive than its loss-making operations, even if such activities are not encouraged by enterprise"s bright prospects for its development in the future.

  

In this case, you can gently go out of such a situation by finding a new investment project, or by selling such a business, or by expanding the size of the market segment, or by finding a new market, or by something else... It all depends on the specific situation.

  

The graph shows the point of maximum profit by big black line, which is projected into a graph"s left field. The height of this line - this is the maximum amount of profit on this project, which is only possible throughout its life cycle.

  

The distance from the break-even point to this point of maximum profit is called THE MAXIMUM RESERVE OF FINANCIAL STEADINESS.

  

The distance from the break-even point to your current level of production in your company - it is your own reserve of financial steadiness. The analysis of the reserve of financial steadiness can be provided by the CVP-analysis (CVP - Costs-Volume-Profit-Analysis).

  

That is, firstly you are expected to estimate the break-even point for your company, that is, the volume of sales at which your company will not receive any profits or bear losses. And the distance from this point on the graph to your actual position in the market - it is your own reserve of financial steadiness.

  

The formula to calculate the breakeven point by method of selecting the parameters (at large enterprises with a wide range of products it is very comfortable to use this method) is as follows:

  

  

T0=TR-FC-VC=Q*P-Q*AVC-FC=0 (445)

  

  

Where: T0 - is the Break-even point, which is equal to 0;

  

TR - Company" revenue from sales, calculated as the price (P) multiplied by the number of realized goods (Q).

  

VC - Total variable costs, which are calculated as the value of the variable costs per unit of output (AVC) multiplied by the number of realized goods (Q);

  

FC - This is the total amount of fixed costs at an enterprise.

  

It should be said that the gross cost per unit of output (ATC) is equal to the total value of revenue per unit (ATR) at this point.

  

Generally, quite a lot is written about the CVP-analysis in a lot of scientific literature. So, I think there is no need to stop on it more profoundly in the frames of this paper.

  

Now let's look at maximizing the profit by this method. Of course, you can use the gross indicators (that is, gross profit, revenue, and so on) to determine it.

  

And here we will try to answer the question: where is the volume of sales at which profit is maximum? This question can be answered with the use of marginal analysis, that is, by comparing the marginal cost and marginal revenue.

  

Marginal costs - those costs that are associated with the production of one additional unit of output: goods, works or services. The costs are calculated by the formula:

  

(446)

  

Where: MC - Marginal Cost; AVC - Gross costs per unit of output; Q - quantity of goods.

  

Marginal revenue - this is the additional revenue that we receive from the sale of one additional unit of goods, works or services. Marginal revenue is calculated as follows:

  

(447)

  

Where: MR - Marginal revenue; ATR - Gross proceeds from the sale of a unit of production; Q - quantity of goods sold.

  

The maximum profit will be achieved in the production of output, at which MR = MC, ie, the marginal cost equals to marginal revenue as it is shown in the formula below:

  

(448)

  

EBITDA - Earnings before taxes, interest, depreciation and maintenance.

  

My dear reader, please, note that I offer to use the method of ATC and ATR using to compare the MR and MC and to find the point the profit is maximum. The same thing can be done by using the traditional concept, where in (446) the difference in TC is used instead of the difference in ATC, and in (447) the difference in TR is used instead of the difference in ATR. Using the Average TC and TR may only compare MR and MC to find the maximum profit point, while the usage of simple TR and TC in their total volume will give the actual values of MR and MC. Using both of these methods one may compare the MR with the MC.

  

As long as the value of marginal revenue exceeds marginal cost in the production of each additional unit of goods - it increases profit. The optimal amount of production is considered to be one in which the value of the marginal cost per unit of output is equal to the marginal revenue. Later, when the marginal cost exceeds marginal revenue, profit margin and profit per unit of output will decline. Therefore, the volume of production when MR = MC Maximizes profit of organization.

  

  

Analysis of other forms of financial statements of the company

  

  

Other forms of financial statements are the statement of cash flows and statement of changes in equity. Let's examine them in more detail.

  

Cash Flow Statement (Form number 3 on OKUD) splits the company's activities into a set of cash flows. The first section of this paper series shows on a very simple scheme on how to split any company"s activity into a set of cash-flows. This scheme is in the model of rapid diagnosis of the financial condition of a company making. The name of the scheme is: the matrix of changes in financial results in cash flows. So, I offer not to return to this discussed yet topic.

  

There is a direct and an indirect method of converting the company"s activity to cash flows. The scheme I just mentioned represents an indirect method. So, considering the indirect method is already discussed, I offer you to consider the direct method further.

  

Statement of Cash Flows divides the company's activities into three main sections of the structure of its activities: operational (production), investment and financial. Statement of Cash Flows adds to the cash balance at beginning of period the net balances from the cash flows from all the three areas of business-activity.

  

The positive cash flow from operating activities includes in itself: funds received from customers and clients, including funds to repay debts; received budgetary subsidies and insurance reimbursement, other income.

  

The negative cash flows from operating activities include: acquisition of goods, works, services and related working capital assets, wages, payment of dividends and interest, payments of taxes and levies, travel expenses, expenses on personnel training, other expenses.

  

The amount of income minus the expenses from operating activities gives the net cash flow yield from operating activities.

  

The positive cash flows from investing activities includes in itself: proceeds from the sale of noncurrent assets, including fixed assets, revenue from sales of securities and other financial investments, dividends received, interest earned, repayments of loans which are given to other organizations; others.

  

The negative cash flows from investing activities includes in itself: the acquisition of subsidiaries, the acquisition of fixed assets, profitable investments in tangible assets and intangible assets, acquisition of securities and other financial investments, loans to other organizations; others.

  

The amount of income minus expenses of the investment cycle gives the net cash flow from investing activities.

  

The positive cash flow from financing activities includes in itself: proceeds from issue of shares and other equity securities, income from loans and credits to other organizations, other.

  

The negative cash flows from financing activities includes in itself: repayment of borrowings (without interest), repayment of capital lease obligations, other.

  

The amount of income minus expenses from financing activities gives the net cash flow from financing activities.

  

We considered the splitting of business-activities into a set of cash flows more profoundly in the scheme I"ve mentioned earlier.

  

Net cash flow (NCF) consists of the following elements:

  

(449)

  

Where:

  

CBPB - is the sum of the cash balance at the beginning of the period;

  

BOA - is surplus (revenues minus expenses) on cash flow from operating activities;

  

BIA - this is balance (revenue minus expenses) to cash flows from investing activities;

  

BFA - this is balance (revenue minus expenses) on cash flow from financing activities.

  

C - is the net value of the losses or gains from fluctuations in foreign currency to domestic.

  

The purpose of the analysis of the statement of cash flows is to establish the reasons for lack of money in the company, analyzing the inflows and outflows of cash.

  

Along with the our direct and indirect method, some theorists, for example, N.Y. Gordo, secrete a liquid cash flow method, which involves the calculation by the formula:

  

(450)

  

Where:

  

LCF - this is the result of liquid cash flow in the company;

  

LTD - is a designation for the long-term debt (loans);

  

STB - is a symbol of short-term borrowings (loans);

  

MF - is a designation of the amount of money;

  

0 - means the end of the reference period for cutoff of parameters;

  

1 - marks the end of the reporting period for cutoff of parameters.

  

  

You can make forecasts about the excess / shortage of liquid cash flow for the period and to focus efforts on improving / placement of excess funds; you can do it on the basis of often calculation of liquid cash flows, for instance, once time per month.

  

Along with the report of cash flows, there is the statement of changes in equity (form number 4 on OKUD).

  

Statement of changes in equity (Form ? 4 to OKUD) is as follows:

  

  

Scheme: Statement of changes in equity (Form ? 4 to OKUD)

  

  

  

  

Notes to the table:

  

RP -1 - indicates the data at the end of the period, which was before the basic period (RP 0);

  

Δ - means change;

  

Reconversion of currencies - is the sum of losses from transactions of foreign currency into the national;

  

N - means the number;

  

P - denotes a nominal price (of shares);

  

"+" - Indicates that capital should be increased by these lines;

  

"-" - Indicates that capital should be decreased by these lines;

  

M - represents a low probability of occurrence of the parameter changes in equity in this row;

  

AC - means Authorized capital;

  

ADC - means additional capital;

  

RC - means reserve capital;

  

RetE - means retained earnings.

  

The arrows indicate the priority direction of movement of certain key funds that form the capital.

  

This is the general form of the statement of changes in equity. This report shows: by what means the changes in equity had taken place to be for a certain period. The annex to the form number 4 on OKUD should contain a data on reserves. The structure of reserves is split on end balance, entry, use, and the final residue.

  

Reserves are divided into three groups: formed in accordance with the law; formed in accordance with the constituent documents; other reserves. Reserves are filled in it for the basic and reporting periods.

  

Capital in the financial analysis is evaluated in its structure changes (as it is shown in the scheme). Also, capital adequacy is assessed.

  

A capital is divided into two categories for the analysis of capital adequacy

  

The analysis of capital adequacy, capital is divided into two categories: Tier I and Tier II capital. Tier II capital is formed by the revaluation of fixed assets and increase the par value of shares. Tier I capital, which is considered as the most stable, includes funds generated from sources, which can not be attributed to capital of the second level.

  

Now, after reading the paper series on financial analysis, you probably have learned the material. If there is something you do not remember, or remember not so well, you can read the section, which has caused difficulties for you. If the financial analysis itself makes you, my dear reader, considerable difficulties, and you have to do it, in this case for you and for anyone interested in issues of financial analysis I prepared a small summary in two pages with tips and formulas relating to the fact how to conduct a comprehensive financial analysis, with little time, a notepad, a calculator and a pencil - that's enough for it.

  

There are common tools of analysis. This is similar to the way in building a house there are cocks, hands, cement mixers, shovels and hammers, drills, bricks and so on. And there's a stuff - building materials and factors of production .... (This is like a company that you need to analyze what it is and what it will in the future). Similarly, things are so in the financial analysis: there are many tools of financial analysis, which are designed to make life easier for an analysts, such as how a tap simplifies and accelerates the task of building a high-rise building.

  

The more effective tools of financial analysis are available for an analytics - the better. This can be compared with the fact that the more a variety of useful devices in construction is (cranes, elevators, computer-aided design, ....) - the simpler, better and faster is the home construction for workers.

  

The author of this paper has given to you, my dear reader, all the basic material for the financial analysis in this chapter - the rest will depend on how well you use it, from your knowledge and skills. If you do not use all the material from the financial analysis and to apply it successfully, you can be sure that it obligatory will be done by your competitors; actually, they have already been doing so... and they constantly improve their skills.

  

In addition to the general financial analysis, there are many subtleties that are discussed in my future book in English that I"m about to translate, as it is yet written in my similar book in Russian. We shall look many of such subtleties, with the exception of a comprehensive assessment of business, as the author of this paper has already discussed it in my previous book in Russian (Alexander Shemetev: "Anticrisis financial management self-taught book for commercial firm directors and business owners", Chapter 10: "Business Valuation"). Or you can use any other author on this thematic you like the most.

  

Next, I offer you to consider a summary of how to make a comprehensive financial analysis for 5 minutes (this is a bit later), and then move on to some details of financial analysis for various types of business systems (this is my future book I"m about to translate into English (it already exists in Russian)).

  

  

Summary of rapid diagnosis of the financial condition of the company and development of anti-crisis strategy

  

  

It is better to start express-diagnostics of a company under option number 2 (Do you remember what is the version number 1 - it was a model of Dupont).

  

We begin with the express-diagnostics (here it is represented by the Option number 2):

  

Express-diagnostic of entity's financial position:

  

1) Assessment of the balance (the ratio of A (Active) and P (Passive))

  

Asset for the industry: ImmA: 70%, MobA: 30%; to trade - ImmA: 30%, MobA: 70%. Passives for the industry: OC(Eq): 50 (60)%; TL: 50 (40%). For the trade: OC(Eq): 40 (50)%; TL: 60 (50%).

  

! Assessment of the dynamics of the balance by year: Seeing the positive and negative trends!

  

2) Evaluation of balance sheet liquidity:

  

- CR (Current ratio) = Current A / Current P = MobA/ImmA (min = 1, max = (2-3).

  

If> (2-3), a company uses its liquid funds in a non-efficient manner.

  

- C of owned funds sufficiency = (OC(Eq)-ImmA) / MobA (norm> = 0.1 (0.2))

  

3) Evaluation of financial ratios:

  

TD/TE = (sum of short- (STL) and long-term debt (LTL)) divided by Equity (own capital) (normal ≤ 0.7 (max 1)), ie, Debt Capital (TL) should be at least less than 70% of equity (OC(Eq)).

  

C of financial independence = (Equity Capital (OC(Eq)) divided by Total Balance (TBS)) * 100% (rate should be more than 40-60%)

  

C of financial maneuvering = NWC / OC(Eq) (NWC = Current A - Current P), ie

  

NWC - net working capital should be divided into equity (OC(Eq)). The higher the obtained value of the coefficient, the better!

  

C of owned funds sufficiency for inventories financing = NWC/Inventories (Inv), that is:

  

NWC - Net working capital is necessary to divide by the cost of inventories (Inv). For industrial enterprises - rate 0.6 - 0.8, and for the trade firms this value may be small, up to 0.01).

  

4) Evaluation of liquidity:

  

Compilation of aggregate ("weighted", broken by periods Liquidity of assets and liabilities to maturity) ranged balance:

  

A (Assets) - to be ranged by the degree of liquidity;

  

P (Passives) - to be ranged by the degree of maturity terms liabilities.

  

A1 (Cash; Almost cash)> P1 (Accounts payable (AP))

  

A2 (accounts receivable (AR) less than 12 months. And other current assets, other than inventories) > P2 (short-term loans (STL))

  

A3 (inventories and costs + AR more than 12 months.) > P3 (Long-term credits and loans)

  

A4 (ImmA (Noncurrent Assets)) < P4 (OC(Eq)) (it"s a min level of Fin. Sustainability. Indicator A4 - is to ensure the company's own funds sufficiency).

  

Key liquidity ratios:

  

CAR = (A1) / P2 (normal 0.2-0.25);

  

CQR = (A1+A2) / P2 (rate - 0.7-0.8);

  

CR = (A1+A2+A3) / P2 (normal 1-2.5);

  

5) Assessment of the dynamics of profit in the Balance: Seeing the positive and negative trends in indicators of revenue, cost and profit!

  

6) Analysis of current assets (business activity - part) (these are means the company invested in the current operation during each cycle of production: Inventories, accounts receivable, cash, VAT, almost cash.

  

NWC = Current A - Current P = MobA - STL (If the MobA = NWC, then this enterprise has no shortage on its own resources), MobA>NWC, it has a shortage of funds. There is a need to manage the AP (Accounts Payable). MobA

  

Current A Turnover = Revenue/Current A. The more - the better! Economical sense: how much revenue per a dollar of Current Assets (MobA), or how many times the MobA actually turn themselves around per a production cycle.

  

Turnover period = (360 * MobA) / sales. Indicates the number of days necessary for generating the revenue.

  

7) Cost-benefit analysis:

  

C of return on sales = Profit / Sales (The more - the better!)

  

C of return on total capital = Profit / Total Balance (TBS) (Normal - more than the norm of inflation in the country (10% in Russia) - the more - the better)!

  

C of return on equity = Profit / OC(Eq) (rate: more than inflation!)

  

8) Forecasting of bankruptcy (To be taken in the relative part in the text).

  

9) A comprehensive analysis of the data and the development of anti-crisis strategy.

  

5 Steps to Success, after conducting a comprehensive Financial Analysis:

  

ADDITIONAL RECOMMENDATION TO THE ANALYSIS number 1:

  

Estimate the value of company and business, at least by discussed in this series of papers method of determining the blitz-value.

  

ADDITIONAL RECOMMENDATION TO THE ANALYSIS number 2:

  

Make A-matrix that compares all the indicators of your activities and those of its competitors. To learn how to do this, it is discussed in subsequent papers.

  

ADDITIONAL RECOMMENDATION TO THE ANALYSIS number 3:

  

Perform financial analysis of the "allies" (agents) and its competitors.

  

ADDITIONAL RECOMMENDATION TO THE ANALYSIS number 4: Financial Analysis of intermediaries - banks (discussed in my other papers).

  

ADDITIONAL RECOMMENDATION TO THE ANALYSIS number 5:

  

Perform Stress-Testing by the model of the company's Integrated Risk Assessment. To learn how to do this - look at my relative papers.

  

After completing the above analysis and recommendations to them, you can easily develop a single comprehensive anti-crisis business model for all occasions.

  

PS: Do not forget to bring everything in comparable prices by comparing the dynamics over the years! A dollar today worth more than a dollar tomorrow, so all should be compared to uniform prices (eg 2000) to always have a positive trend of development taking into account the depreciation of money!

  

  

  

  

List of footnotes:

  

[1] W.H. Beaver 'Financial reporting: An accounting revolution', 1973.

  

[2] It is meant Oxford university study, made for the LGA Consultants Company in Dec. 2008.

  

[3] Russian Federation Government Resolution #498 (from 20/05/94), which acts, as amended by Government Decree #731 (from 03.10.2002) - it sets the value of this (CLR) index over 2; it sets the OFR ratio value of more than 0.1;

  

The way to calculate this ratio was considered in my previous papers. It is the C(CLR) ratio, which is roughly equal to mobile (current) assets to short-term borrowed capital proportion; this is the so-called L1 ratio (173) formula in my paper: Alexander Shemetev: Section I: A comprehensive financial analysis of Russian companies on financial and economics indicators and their systematization: Alexander Shemetev's models - this paper is available for on-line reading.

  

[4] The way to calculate this ratio was considered in my previous papers. It is the net working capital to immobile (non-current) assets, the so called by me F1 ratio (1.16) formula in my paper: Alexander Shemetev: Section I: A comprehensive financial analysis of Russian companies on financial and economics indicators and their systematization: Alexander Shemetev's models - this paper is available for on-line reading.

  

[5] According to Autonomy Independent Organization (ANO) "Centre for forensic examination", the number of cases in which there were revealed signs of fraudulent bankruptcy is rising. Although, their total number still remains singular. Some of these cases then proceed to criminal court proceedings under Section #196 of the Criminal Code ("Deliberate bankruptcy"). However, about 95% of such cases are ended in acquittal, according to the year 2011 in Russia.

  

[6] #127 Federal Law 'On Insolvency (Bankruptcy)' of October 27, 2002, The #296 Federal Law 'On Insolvency (Bankruptcy)' of December 29, 2008 (It is adopted at the legal basis of the Federal Law #127 (footnote "1")). The specified Federal Law has less legal force than the Civil Code of Russian Federation (it sets a legal person who may become bankrupt, and some aspects of bankruptcy); at the same time, the specified Federal Law (On insolvency) has greater force than the Code of Arbitration Procedure (it introduces rules for cases in courts of arbitration). There are also some other regulations in Russia.

  

[7] For a historical reference: In prerevolutionary Russia, bankruptcy proceedings could be started only in excess of the amount of debt by a single company over than 1,500 rubles; this sum of debt should arise then from the main operating activity, according to the Mr. S.V. Zawadskiy & Mr. V.N. Sviderskiy data (S.V. Zawadskiy & V.N. Sviderskiy 'Appellate practice on bankruptcy law and common-empire-process', St. Petersburg, 1913). 1 ruble at this time was equal to 0.774 grams of gold, which was equal to 52 USD cents at the same date. So, the total sum of debt body from the main business activity to file for bankruptcy was circa 771 USD and 43 USD cents at the same date (or 1.161 kilograms of gold). It is more than the modern Russian standard at least in 8.54 times (actually, in circa 10 times, because not all the sum of corporate debt was included to the sum of debt). In the Soviet Union bankruptcy was more a theoretical concept than a practical, because no private property was allowed at all - the entire property of legal entities and individuals belonged to the Soviet State and couldn't be an object for bankruptcy procedures at all.

  

[8] Within 10 days after receipt of the application by the arbitral court, a debtor should send feedback on the application to creditors, which must include: objections to the creditors' statements; the amount of the debtor's obligations broken down into groups of creditors; information about liquidity, including the accounts in Bank of the debtor; other significant information about the Debtor itself. If the feedback of the Debtor is not available in time - this is not a reason for setting aside time to start any court processes of this type.

  

[9] If the application is submitted by the debtor itself, then the date of the introduction of monitoring procedures is stated there, instead of the date of consideration of the validity of the claims of creditors, as it is in the common bankruptcy processes started by creditors or authorized bodies (tax and custom office).

  

[10] The amount of requirements is recorded on the date of receipt of application by the arbitral court. Loan agreements are taken with interest (it is an exception).

  

[11] Sector 92 paragraph 2 of the #296 Federal Law says that the cumulative period of financial recovery and external control may not exceed 2 years; in case the financial recovery was conducted over 18 months, the court can not decide on the introduction of external control. However, the Supreme Arbitrage Court of Russia made a legal prescription that the monitoring and financial rehabilitation procedures may be hold-up for uncertain period in sound reasons. So, the bankruptcy procedures in Russia may last for many years due to this prescription, instead of the prescribed by the Federal Laws period.

  

[12] Designation of the correlation coefficient as r is international and is connected with the history of the emergence of this indicator, by which in the XIX century there was calculated a regression (r - regression). Cousin of Charles Darwin, Sir Francis Galton, tried to discover correlations, which he called the regression (r), between heredity and the growth of individuals, as well as between heredity and other parameters. The result of the coefficient r calculation was next. His theory had not been confirmed by 100%, and, nevertheless, it was viable - that is how there was born the psychogenetics science. It was Sir Francis Galton who deduced this formula, that was first time published for the public in 1888 at a meeting of the Royal Society, which considered his proposed theme: "Correlations and their measurement, chiefly from anthropometric data". Sir Francis Galton used the term Correlation, firstly invented by Aristotle, in memory of his attempts to classify the specific features of different animals. The formula was then broken down into components and further developed by the mathematician Karl Pearson.

  

[13] Prominent advocates of this type of calculations to predict the activity of the companies is, for example, financial school of Saint-Petersburg State University of Economics and Finance, for example, L.S. Tarasevich, P.I. Grebennikov, A.I. Leussky.

  

[14] Prominent advocates of this approach to the analysis are the John E. Hanke, Artur G. Reitsch, Dean W. Wichern, V.P. Nosco (Moscow State University), K. Dougerti, A. Aivazian, V. Mkhitaryan and others. An approach acronym and its deflection are given in brackets in the formulas. Thus, AD (IA) means the absolute deviation in the information-atomic approach. S - stands for the standard, A - means atomic.

  

[15] Such prominent scientists are the followers of this approach as: Y.R. Magnus, P.K. Katishev, A.A. Presetskiy.

  

[16] NPV here means the mathematical implementation of this theory for the investment projects to discount the cash flows.

  

[17] CAPM - Capital Assets Pricing Model.

  

[18] APT - Arbitrage Pricing Theory.

  

[19] How to calculate the multilevel linear equation? There are many ways of calculating multilevel linear equations. We will consider two of them: "Using a saw method" - the most primitive method and the method of constructing the network on a computer. My dear reader, please, note: there are more than 15 other main mathematical ways to resolve multilevel linear equations; we shall consider two of them. Whatever method you, my dear reader, use, the total end result should be the same among all the methods. "The method of sawing" implies expression (1) to express any first variable; then the (2) equation is used to express any remain second variable - and so on until the last equation. Then you, my dear reader, should substitute all the unknown variables in the last equation in terms of any one variable you like the most. Thus, there remains an equation with the only variable unknown - it is always possible to resolve such-like equation whatever difficult it would be (the APT theory doesn't provide difficult end equations in terms of mathematics). This is how we find this last variable. After this, like following the chain, we find one variable after another until no unknown variables left. The method of constructing the network on a computer task requires a computer algorithm in any mathematical program. So, if you take Excel, you need to enable add-ins "the search for solutions" in the 2003 version or run the script in 2007, 2010 versions. Then all linear equations are written, and the line under the unknown X is left blank (empty). The parameter restrictions are recorded (1 = the number of equation 2 = 2, equation number, ... .. n = n the equation number). Target cell can choose the first equation. It should be entered formula one for first equation, and into other cells - the formulas of other equations. After you define the parameters, computer will be capable to calculate the meaning of your equations. If it is difficult to use both of the above methods - you can try to divide the entire group of equations in any equation, which is a part of the system, to calculate the unknown easier. There are other ways of solving linear equations.

  

[20] The study of Efrim J. Boritz, Duane B. Kennedy, Jerry Y. Sun, Canada, Waterloo accounting and finance school research, 2007.

  

[21] The research of Chernyanskiy and others, 1999/2000.

  

[22] Working capital in the bankruptcy prediction models is calculated as Equity capital minus non-current assets.

  

[23] Volatility is measured as a percentage change in price depends on changes in interest rates.

  

[24] The equivalent coupon income: This is the yields of discount securities, calculated on the annual interest income. The annual interest income is the product of the value discount multiplication on 365 or 360, divided by the multiplication of the nominal value and the number of days of the securities' action. Sometimes the term annual interest income is attributed to the reduced to the current date return of different securities with different maturities, so it was possible to compare the securities among themselves in comparable terms.

  

[25] NORMDIST function for Russian Excels is: НОРМСТРАСП; Finnish Excel is: NORM.JAKAUMA.NORMIT.

  

LN - is an LN (natural logarithm; log from e basis) function; it is the same in formula language for English, Russian and the other Excels except for Finnish, where you should write the word 'natural log': 'LUONNLOG'.

  

[26] SWAP - is pre-entered into an agreement on exchange of assets and / or commitments for similar assets and / or commitment to change their maturities and the repayment or reduction of interest rates in order to maximize revenues and minimize distribution costs.

  

[27] See the paper: Bob Jensen: 'Legal settlement exit value amortization rate accounting for custom interest rate: Swaps having no market trading//Trinity University working paper #231, 24.01.1999.

  

[28] In the English Excel this is PV function; in the Russian - ПС; in the Finnish - NA (from Finnish 'Nykyinen Arvo' - Present Value).

  

[29] R. Kaplan, Th. Johnson 'Relevance lost: The rise and fall of management accounting', 1987, 2007

  

My dear reader, if you would like to read this paper in a vectorised format and better quality, please, visit: http://free.yudu.com/item/details/484323/Alexander-Shemetev-The-recommended-bankruptcy-analysis-in-Russia

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