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Monday, April 2, 2012

Application of Pascal’s Triangular in Corporate Financial Strategy


As we know, the finance could be divided into two fields: 1) Asset Pricing 2) Corporate finance
1) Asset Pricing: In this case, the investors are willing to know how they should cope with their assets. What is the price of the assets? Should they sell their assets or purchase new ones? Is there any business model to liquidate the assets immediately?
In this article, I will not have any debate on asset pricing models but I can refer you to my research proposal of “Application of Game Theory as a New Strategy Implementation in the Residential Real Estate Marketwhere the combination of  Markov Chain and Monte Carlo Simulation Model plus the Constant Eigenvector approach  (mentioned on link: http://emfps.blogspot.com/2011/11/efficient-portfolio-of-assets-markov.htmlhave been applied as research methodology. The final result will be about how the investors can liquidate their residential properties in the stagnated market.
 2) Corporate finance: It is about the firm’s concern and finally decision making in finance such as capital structure and leverage, dividend policy and so on. There are many applications of the Game theory in corporate finance. In this article, I am willing to discuss about Dividend Signalling theory which is a type of Dividend Relevance Theory. My example will be the case of Gainesboro Machine Tools Corporation on below link: http://emfps.blogspot.com/2012/03/case-analysis-of-gainesboro-machine.html
By the constant or increasing dividends, the firm can show the positive signals about the future prospects of the company consequently an increase in share price and vice versa, absence of dividends or decreasing dividends presents negative signal resulting in decline in share price. Of course, this is still a traditional theory. In the real world, due to the uncertainty in business and financial risks, nowadays the firms are following the Game theory in which the repurchasing (buy back) of stocks by the company could also be a positive signal to increase of the share prices.
Before going to the application of the game theory on this type of dividend policy, let me have an overview on the statistics as follows:
 Permutations & Combinations
What is the total number of outcomes when you have “n” possibilities and you choose “r’ of these possibilities? Definitely it depends on the type of combination:
-If the replacement does not matter, it is a combination. For instance, 1234 = 4312
-If the replacement does matter, it is a permutation where 1234 is different with 4312


On the other hand, we have permutations & combinations with and without repetition.
Example (1): In Backgammon game, we have two dices. What is the probability of each status after throwing dices?
Firstly, we should find the number of total combinations. Which one of above mentioned should we use?
-Permutation with repetition
-Permutation without repetition
-Combination with repetition
-Combination without repetition
Since the replacement does not matter (because 3 &4 is equal 4&3) and also we can have repetition status such 6 & 6, we should apply the formula for the Combination with repetition as follows:
C (n + r -1, r) = [(n + r – 1)!] / [r! (n – 1)!]
Where we have:
 n = 6 total possibilities
 r = 2 our choice
C (n + r -1, r) = 7! / 2!(6-1)! = 21 number of outcomes
X = each outcome
P (X) = probability of each outcome
P (X) = 1 / 21 = 4.8%
Example (2): In the case of Combination without repetition, I assume we have the set of possibilities A = [1, 2, 3, 4, 5, 6, 7, 8] and we have 3 choice. What is the total number of combinations without repetition?
We can use from Binomial formula as follows:
C (n, r) = n! / [r!(n – r)!]
Where:
n = 8
r = 3
C (n, r) = 8! / [3!(8 -3)!] = 56
We can also use from Pascal’s Triangular to get all outcomes:
0
1

1
1
1

2
1
2
1

3
1
3
3
1

4
1
4
6
4
1

5
1
5
10
10
5
1

6
1
6
15
20
15
6
1

7
1
7
21
35
35
21
7
1
8
1
8
28
56
70
56
28
8
1
As you can see, the number of rows is 9 but n = 8.

The best way to find all combinations and permutations is to utilize sensitivity analysis by using of one way - data table on excel spreadsheet just like below sheet:

 
In the case of corporate financial strategy (in this article), I assume that there is a normal probability distribution then I utilize from Combination without repetition (using of Pascal’s Triangular) to obtain all outcomes in which I use Binomial formula. Before that, please review examples (3) and (4).
Example (3): Now, let me bring an example in the field of Strategic Management. I consider two competitors “A” and “B” and I also assume that there are 9 driving forces (please see link: http://emfps.blogspot.com/2012/02/fuzzy-delphi-method-to-design-strategic.html) which are affecting on new SWOT matrix of “A” or “B” as follows:
DF1, DF2, DF3 …DF10
How can we calculate the total number of outcomes made by the combination of driving forces?
We can use from below formula:
X = the number of driving forces
n = X -1, n = 8
Total number of outcomes = SUM C (8, r)
Where:             r = 0, 1, 2, 3…8
Total number of outcomes = C (8, 0) + C (8, 1) + C (8, 2) + C (8, 3) + C (8, 4) + C (8, 5) + C (8, 6) + C (8, 7) + C (8, 8) = 256
You can also use from Pascal’s Triangular as follows:
n = 8, Total number of outcomes = 1 + 8 + 28 + 56 + 70 + 56 + 28 + 8 +1 = 256
Another formula can be below cited:
Total number of outcomes = 2 ^ (X – 1) = 2 ^ 8 = 256
Example (4): If we assume that firm “A” gains 4 key success factors form all driving forces and the firm “B” gains 5 key success factors from all driving forces, how can we calculate the probability of competitive advantage for the firm “A”?
Total number of outcomes for fourth key success factors = C (8, 0) + C (8, 1) + C (8, 2) + C (8, 3) + C (8, 4) = 163
But the best solution is to use from Pascal’s Triangular as follows:
Total number of outcomes for 4 key success factors = 1 + 8 + 28 + 56 + 70 = 163
Total number of outcomes = 256
Probability of competitive advantage for the firm “A” = 163 / 256 = 64%
The Case of Gainesboro Machine Tools Corporation: Dividend Policy
We assume that Gainesboro will apply dividend signalling theory as follows:
According to Exhibit 8, the assumption of dividend-payout ratio is 40% of net income. If the company consider 20% (for instance) of net income as dividend-payout ratio and simultaneously repurchase its stocks, the number of the shareholders will be very important to obtain positive signalling. Why?
Here, I am willing to use again from example (4) where I have already make 1000 trials (rows) of Pascal’s Triangular by excel spreadsheet.
The approach of the shareholders is two different choices:
A = Buyers of the stocks (number)
B = Sellers of the stocks (number)
An increase on the number of buyers accompanied by dividend payout will have the positive signalling on demand and consequently an increase on stock prices. But repurchasing of the shares by the company is limited to source of net income because we have:
Total amount of money to repurchase the stocks = total number of the buyers * the number of shares purchased by each buyer
Therefore, an increase on total number of the buyers will decrease the number of stocks purchased by each buyer
Now, I assume below conditions:
-A = 51% of total number of the shareholders
-B = 49% of total number of the shareholders
If total number of the shareholders is variable as follows, by using of Pascal’s Triangular, we are able to calculate all outcomes:
Total Number of Shareholders                       Total Outcomes
100
6.34E+29
300
1.02E+90
500
1.6E+150
750
3E+225
1000
5.4E+300

Total number of Shareholders
Total outcomes of sellers
Total outcomes of buyers
100
3.16913E+29
4.15826E+29
300
4.1612E+89
6.90715E+89
500
5.8944E+149
1.1529E+150
750
9.7878E+224
2.205E+225
1000
1.5243E+300
4.0545E+300
In the result, we will have a diagram for the probability of outcomes as follows (I have also included 50% buyer and seller):



As you can see, by increasing of total number of shareholders, if the percentage of buyers goes down to 49% of total number of shareholders, the probability of stocks’ demand will decrease and vice verse.

This is a general diagram in which we can utilize it even for the people's voting.


Note:  “All spreadsheets and calculation notes are available. The people, who are interested in having my spreadsheets of this method as a template for further practice, do not hesitate to ask me by sending an email to: soleimani_gh@hotmail.com or call me on my cellphone: +989109250225. Please be informed these spreadsheets are not free of charge.”


Sunday, March 25, 2012

Case Analysis of GAINESBORO MACHINE TOOLS CORPORATION: The Dividend Policy


This case is about the impact of an environmental factor (External issue) on dividend policy of the firm (Internal issue). The environmental disaster was Hurricane Katrina which was caused the huge destruction across the south-eastern United States. Because of the storm, the stock market notably fell down. Since it is possible that the price of the shares once more increase even more than before in the near future, Ashley Swenson, chief financial officer (CFO) of Gainesboro Machine Tools Corporation has the dilemma to buy back stock or to spend the money as dividend the shareholders. In fact, the question is: How can she forecast the fortune of the stock market? In the other word, what are the driving forces (as the external factors) which are affecting on internal factors such as dividend policy? Definitely, the best way is to use from Fuzzy Delphi Method (FDM). To perceive FDM, please review my article of “Fuzzy Delphi Method to Design a Strategic Plan” on link” http://emfps.blogspot.com/2012/02/fuzzy-delphi-method-to-design-strategic.html”.
At the first, she can design a strategic plan including current and future BCG matrix. I think that one of the best reference books which has established a logical relationship between BCG matrix and Dividend policy is: “Corporate Financial Strategy” by Ruth Bender and Keith Ward (Elsevier Butterworth-Heinemann)”. I would like to refer you page 34 (please review STEADY STATE), page 59 (Balancing business and financial risk), page 75 (Figure 4.14), page 226 (Dividends and buybacks) on 3rd edition (2009). Where is the location of the firm in BCG matrix? Stars (Growth), Question marks (Launch), Cash cows (Maturity) or Dogs (Decline).
Accordingto this reference book, we have below conditions for each area of BCG matrix:
Stars (Growth)                                                              Question marks (Launch)

Business risk high                                                                 Business risk very high 
Financial risk low                                                                Financial risk very low
Funding equity                                                                     Funding equity
Nominal dividend payout ratio                                   Nil dividend payout ratio

Cash cows (Maturity)                                                       Dogs (Decline)       
 Business risk medium                                                         Business risk low
Financial risk medium                                                        Financial risk high
Funding debt                                                                      Funding debt
High dividend payout ratio                                             Total dividend payout ratio  


Let me specify the situation of this company on BCG matrix by using of its market share in industry and industry revenue growth rate as follows:
-Referring to Exhibit 6, Gainesboro’s market cap is $ 504,000,000 in 2005 in which we can calculate its share market approximately 1.43% (Please see my spreadsheet).
-Referring to Exhibit 2, the economic indicators show us the high growth rate of macroeconomic environment in USA from 2001 to 2004 while the projected data present us a steady and slow economic growth rate. On the other hand, if we see Exhibit 7, we will find that the expected growth rate of sales (next 3-5 years) for high dividend payout companies is going down whereas the zero-payout companies will have the high growth rate of sales.
We can observe this fact on consolidated Income Statement of Gainesboro (Exhibit 1) where the negative growth rate from 2002 to 2004 accompanied by dividend payout has pushed the current situation of this company on Quadrant IV of BCG matrix which is named Dogs. It means that the current strategies of Gainesboro could be Retrenchment, Divestiture, and Liquidation.
Referring to the case, if Gainesboro diversifies its business units and products such as the Artificial Workforce products, the expected growth rate of sales will go up 15% annually.
In this case, the new situation of company will be on Quadrant I of the BCG matrix (Question Marks) where the dividend policy of this company should be Zero – dividend payout.
Here, I would like to bring you so many logical reasons which approve the Zero – dividend payout as the best option for dividend policy of Gainesboro as follows:
1) Gainesboro has Negative Net Cash Flow. I calculated them in accordance with Exhibit 2 (please see my spreadsheet) below cited:
-Net Cash Flow in 2004 = -78376 (dollars in thousands)
-Net Cash Flow in 2005 (projected) = -36438 (dollars in thousands)
If you see Figure (4.10) on above reference book, you will find that the best dividend policy for Gainesboro is nil dividend payout ratios.
2) Please compare Exhibit 1 with Exhibit 5 just like below table:
Year                                Net income ($000)            Ave. Stock Price     
 2002                                    -$61,322                          $26.45
2003                                      $12,993                          $61.33 
2004                                     -$140,784                        $29.15
2005 (Projected)                   $18,018                              ?
 What can you consider instead of question mark? Definitely Gainesboro’s stock price will significantly increase if the management prediction about the revenue growth rate is true. Therefore, the best strategy is to repurchase Gainesboro’s shares.
3) Firstly, let me have an overview on all theories of dividend policy as follows:
-Dividend Relevance Theories
-Dividend Irrelevance Theories
Dividend Relevance Theory
  A) Traditional Model
B) Walter’s Model
C) Gordon’s Dividend Capitalization Model
D) Bird-in-hand Theory
E) Dividend Signaling Theory
F) Agency Cost Theory
 Dividend Irrelevance Theories
G) Residual Theory
H) Modigliani and Miller (M&M) Model
 I) Dividend Clientele Effect
 J) Rational Expectations Model
In the next article, I will examine each one of above models to find out the best dividend policy for Gainesboro. 


 
Note:  “All spreadsheets and calculation notes are available. The people, who are interested in having my spreadsheets of this case analysis as a template for further practice, do not hesitate to ask me by sending an email to: soleimani_gh@hotmail.com or call me on my cellphone: +989109250225.   Please be informed these spreadsheets are not free of charge.”
 
To be continued …….
                                                                                              
                    

Sunday, March 18, 2012

Monte Carlo Simulation Model to Design Heat Exchangers


For further practice of Monte Carlo Simulation Model, you can review below papers which are applying the Monte Carlo Simulation Model to design Heat Exchangers:
-Abdelaziz, O., & Radermac, R. (2010). Modelling heat exchangers under consideration of manufacturing tolerances and uncertain flow distribution. International Journal of Refrigeration, 33 (2010), 815 – 828.


-Li, Min., & Lai, Alvin. C.K. (2012). Parameter Estimation of In-situ Thermal Response Tests for Borehole Ground Heat Exchangers. International Journal of Heat and Mass Transfer, 55 (2012), 2615 – 2624.

-Zhihua, Chen., & Dechao, Chen. (2011). Research on Stochastic Characteristic of Ground Heat Exchanger of Ground Source Heat Pumps with Monte-Carlo Method. IEEE,
978-1-4577-0290-7/11.

-Gupta, Ashutosh., & Mukherjee, Bhaswati., & Upadhyay, S. K. (2008). Weibull Extension Model: A Bayes Study Using Markov Chain Monte Carlo Simulation. Reliability Engineering and System Safety, 93 (2008), 1434–1443.

-Liu, Hongwei., et al. (2007). Monte Carlo Simulations of Gas Flow and Heat Transfer in Vacuum Packaged MEMS Devices. Applied Thermal Engineering, 27 (2007), 323–329

-Kovtanyuk, Andrey. E., & Botkin, Nikolai. D., & Hoffmann, Karl-Heinz. (2012). Numerical Simulations of a Coupled Radiative–Conductive Heat Transfer Model Using a Modified Monte Carlo Method. International Journal of Heat and Mass Transfer, 55 (2012), 649 – 654.

- BADAR, MA., & ZUBAIR, SM., & SHEIKH, AK. (2003). UNCERTAINTY ANALYSIS OF HEAT-EXCHANGER THERMAL DESIGNS USING THE MONTE-CARLO SIMULATION TECHNIQUE. PERGAMON-ELSEVIER SCIENCE LTD, ENERGY, 18, 859-866.

-Ayunov, D. E., & Duchkov, A. D. (2008).  Monte-Carlo Simulation for Estimating Topographic Disturbance to Heat Flow Data. Russian Geology and Geophysics,  49 (2008),  291–296

 

Thursday, March 1, 2012

Tutorial: A practice of Monte Carlo Simulation Model


I would like to teach the Monte Carlo Simulation Model as the risk management analysis tool in the projects. The practice will be done on a real project.
The example of the case study is: “A Financial Analysis on Nord Stream Gas Pipeline project”
All data have been collected from below references:
-The European Union of the Natural Gas Industry (THE EUROGAS ECONOMIC STUDY TASK FORCE)
-NATURAL GAS PRICING AND ITS FUTURE EUROPE AS THE BATTLEGROUND (2010 Carnegie Endowment for International Peace)
-European Environment Agency (EN31 Energy prices)
- British Petroleum (BP-AMOCO)
- International Energy Agency (IEA)
- Eurostat
-International Gas Union
- Cedigaz
- Energy Information Administration, Official Energy Statistics from the U.S. Government
- World Energy Council
- European Gas Advocacy Forum (The Future Role of Natural Gas)

- EUROPE’S ENERGY PORTAL
-MIT CEEPR (MIT Centre for Energy and Environmental Policy Research)
- The Oil Drum: The European Gas Market
-Nord Stream (The Project & the Environment – The Natural Gas Pipeline through the Baltic Sea)

- Europe and natural gas - Are tough choices ahead? By Rune Likvern

-Wikipedia
In this package, I will tell you:
 -How we can analyze the initial investment of the project in the different states of economic (different outcomes) to obtain NPV> 0 and IRR > WACC?
-What could the strategies be behind a very large profit margin in NG supply in Europe?
-If high profit margin move toward low profit margin, how will it be affecting on financial costs?
The professional individuals, who are interested in learning this simulation model, don’t hesitate to send their request by email to me for further information.
My email is: soleimani_gh@hotmail.com 

Monday, February 20, 2012

The Combination of MS-Project and Excel to analyze Risk Management during the Period of the Project Lifecycle

I think this article will  be useful for all project managers and project controllers.
In this article, I am willing to tell you that we can apply the combination of MS- Project and Excel instead of Primavera for small and medium size projects because the price of Primavera software is very expensive. Let me bring you an example as follows:


We can track and monitor the cost and time of the projects by using of MS –Project where this software is able to calculate so many factors related to the cost and the time such as:

BCWS: The budgeted cost of work scheduled
ACWP: The actual cost of work performed
BCWP: The budgeted cost of work performed
SV: The schedule variance
CV: Cost variance
TCPI: The complete performance index

But we cannot forecast any risk in related to the time and the cost which are caused the failure of the project, by using of MS – Project . There are so many tricks in excel to predict and analyze the risk of the cost and the time where we firstly obtain the data by MS-Project (such as above parameters), then we will be able to manage the risk of the projects by using of these tricks. Of course, at the first, we should be as well as familiar with some concepts and methodologies such as Monte Carlo Simulation Model or Fuzzy Logic.

To be continued..........

Monday, February 6, 2012

Fuzzy Delphi Method to Design a Strategic Plan (CON). Is This a New Inequality Theorem in Fuzzy Set Theory?




As I mentioned in my previous article of “Fuzzy Delphi Method to Design a Strategic Plan”, I would like to continue the debate on Distance Method.
But before going to the distance method, let me explain my story as follows:
While I was working on discrepancy between basic and distance method on driving forces, I encountered to a phenomena. Now, let me depict this phenomenon in the framework of a theorem below cited:
Inequality Theorem in Fuzzy Logic 
Assume, there is the fuzzy subset A of X where X is a universal set. Then, we define the fuzzy set of A by its membership function (MF=Membership Function) as follows:

MFA:  X         [0, 1]     

It means that a real number MFA (x) in the interval [0, 1] is assigned to each element x where x is a member of X and also the value of MFA (x) at x presents the grade of membership of x in A.
We consider below conditions for the fuzzy set A:

-Fuzzy set A is a convex and normalized fuzzy set in which we can say the fuzzy set A is a fuzzy number.
- Fuzzy set A is a central triangular fuzzy number where we have:

For central triangular fuzzy number A= (a, b, c):     MFA (x) = 2(x-a)/c-a   If   a < x < b
                                                                                   MFA (x) = 2(x-c)/a-c   If   b < x < c
                                                                                   b = (a + c)/2
Now, we assume the set of S is included all central triangular fuzzy numbers as follows:

S = [Ai],             i = 1, 2, 3,…….n

In fact, we have:

S = [A1, A2, A3,…..An]

Or

S = [(a1, b1, c1), (a2, b2, c2), (a3, b3, c3),……(an, bn, cn)]

We define the distance (di) between x1 and x2 into each central triangular fuzzy number A assigned to each alpha – cut level as follows:

di = delta (x)  If     ai < x < bi
                              bi < x < ci,          0 < alpha-cut < 1 ,   i = 1,2,3,……


Theorem:  If there is below inequality:   

d1 < d2 < d3 < d4 …….< dn

Above inequality will be always the constant for all alpha – cuts in the interval [0, 1].
I have two questions:
-Is this a new inequality theorem in Fuzzy Numbers?
- If the answer is negative, could you please introduce me the references?

To be continued……