What is the formula for the weighted average score for


Scenario 15-1

An investor is considering 4 investments, A, B, C and leaving his money in the bank. The payoff from each investment is a function of the economic climate over the next 2 years. The economy can expand or decline. The following payoff matrix has been developed for the decision problem.

 

A

B

C

D

1

 

Payoff Matrix

 

2

 

 

 

 

3

 

Economy

 

4

Investment

Decline

Expand

 

5

A

0

85

 

6

B

25

65

 

7

C

40

30

 

8

Bank

10

10

 

 

Payoffs

 








1. Refer to Scenario 15-1. What decision should be made according to the maximin decision rule?

 a.

A

 b.

B

 c.

C

 d.

Bank

2. Refer to Scenario 15-1. What decision should be made according to the minimax regret decision rule?

 a.

A

 b.

B

 c.

C

               d.

Bank

Scenario 15-2

An investor is considering 4 investments, A, B, C and leaving his money in the bank. The payoff from each investment is a function of the economic climate over the next 2 years. The economy can expand or decline. The following payoff matrix has been developed for the decision problem.

 

A

B

C

D

E

F

G

H

1

 

Payoff Matrix

 

 

 

Regret Matrix

 

 

2

 

 

 

 

 

 

 

 

3

 

Economy

 

 

 

Economy

 

 

4

Investment

Decline

Expand

 

Investment

Decline

Expand

 

5

A

0

85

 

A

 

 

 

6

B

25

65

 

B

 

 

 

7

C

40

30

 

C

 

 

 

8

Bank

10

10

 

Bank

 

 

 

3.  Refer to Scenario 15-2. What formula should go in cell F5 of the Regret Matrix to compute the regret value?

a.

=B$5-MAX(B$5:B$8)

b.

=MAX(B$5:B$8)-MAX(B5)

c.

=MAX(B$5:B$8)-MIN(B$5:B$8)

d.

=MAX(B$5:B$8)-B5

4.  Expected regret is also called

a.

EMV.

b.

EOL.

c.

EPA.

d.

EOQ.

Scenario 15-3

An investor is considering 4 investments, A, B, C and leaving his money in the bank. The payoff from each investment is a function of the economic climate over the next 2 years. The economy can expand or decline. The following payoff matrix has been developed for the decision problem. The investor has estimated the probability of a declining economy at 70% and an expanding economy at 30%.

 

A

B

C

D

1

 

Payoff Matrix

 

2

 

 

 

 

3

 

Economy

 

4

Investment

Decline

Expand

EMV

5

A

-10

90

 

6

B

20

50

 

7

C

40

45

 

8

Bank

15

20

 

9

 

 

 

 

10

Probability

0.7

0.3

 

 

Payoffs

 








5.  Refer to Scenario 15-3. What decision should be made according to the expected monetary value decision rule?

a.

A

b.

B

c.

C

d.

Bank

Scenario 15-5

 

96_diag.png

An investor is considering 4 investments, A, B, C, D. The payoff from each investment is a function of the economic climate over the next 2 years. The economy can expand or decline. The following decision tree has been developed for the problem. The investor has estimated the probability of a declining economy at 40% and an expanding economy at 60%.

6.  Refer to Scenario 15-5. What is the correct decision for this investor based on an expected monetary value criteria?

a.

A

b.

B

c.

C

d.

D

7. Refer to Scenario 15-5. What is the expected monetary value for the investor's problem?

a.

32

b.

36

c.

38

d.

42

Scenario 15-6

A company is planning a plant expansion. They can build a large or small plant. The payoffs for the plant depend on the level of consumer demand for the company's products. The company believes that there is an 69% chance that demand for their products will be high and a 31% chance that it will be low. The company can pay a market research firm to survey consumer attitudes towards the company's products. There is a 63% chance that the customers will like the products and a 37% chance that they won't. The payoff matrix and costs of the two plants are listed below. The company believes that if the survey is favorable there is a 92% chance that demand will be high for the products. If the survey is unfavorable there is only a 30% chance that the demand will be high. The following decision tree has been built for this problem. The company has computed that the expected monetary value of the best decision without sample information is 154.35 million. The company has developed the following conditional probability table for their decision problem.

 

A

B

C

D

1

 

 

 

 

2

 

Joint Probabilities

 

3

 

High Demand

Low Demand

Total

4

Favorable Response

0.58

0.05

0.63

5

Unfavorable

Response

0.11

0.26

0.37

6

Total

0.69

0.31

1.00

7

 

 

 

 

8

 

 

 

 

9

 

Conditional Probability

 

10

 

For A Given Survey Response

 

11

 

High Demand

Low Demand

 

12

Favorable Response

0.92

0.08

 

13

Unfavorable Response

0.30

0.70

 

14

 

 

 

 

15

 

Conditional Probability

 

16

 

For A Given Demand Level

 

17

 

High Demand

Low Demand

 

18

Favorable Response

0.84

0.16

 

19

Unfavorable Response

0.16

0.84

 

8.   Refer to Scenario 15-6. What formula should go in cell C13 of the probability table?

a.

=C5/$D4

b.

=C5/C$6

c.

=C5/$D5

d.

=C4/$D4

Scenario 15-7

A decision maker is faced with two alternatives. The decision maker has determined that she is indifferent between the two alternatives when p=0.45.

Alternative 1: Receive $82,000 with certainty

Alternative 2: Receive $143,000 with probability p and lose $15,000 with probability (1-p).

9. Refer to Scenario 15-7. What is the decision maker's certainty equivalent for this problem?

a.

-$15,000

b.

$82,000

c.

$56,100

d.

$82,000

10.  What is the formula for the weighted average score for alternative j when using a multi-criteria scoring model?

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