1. 1 11 1 1 11 1 BA 452 Lesson C.4 The Value of Information ReadingsReadings Chapter 13 Decision Analysis

2. 2 22 2 2 22 2 BA 452 Lesson C.4 The Value of Information OverviewOverview

3. 3 33 3 3 33 3 Overview Expected Value of Perfect Information is the increase in the expected profit that would result if one knew with certainty which state of nature would occur. It is an upper bound on the value of information. Bayes’ Rule revises prior probability estimates for the states of nature into posterior probabilities. The rule uses conditional probabilities for the outcomes or indicators of the sample or survey information. Expected Value of Sample Information is the additional expected profit possible through knowledge of sample information. It is typically less than the Expected Value of Perfect Information.

4. 4 44 4 4 44 4 BA 452 Lesson C.4 The Value of Information Expected Value of Perfect Information

5. 5 55 5 5 55 5 BA 452 Lesson C.4 The Value of Information Overview Expected Value of Perfect Information is the increase in the expected profit that would result if one knew with certainty which state of nature would occur. It provides an upper bound on the expected value of any sample or survey information that better estimates the probability estimates for the states of nature. Expected Value of Perfect Information

6. 6 66 6 6 66 6 BA 452 Lesson C.4 The Value of Information n Frequently, information is available that can better estimate the probabilities for the states of nature. (For example, you can take the time to listen to the radio to find out about the weather.) n In the extreme, you can find the state of nature with certainty. (For example, you can call the Pepperdine hotline to see if PCH is open.) n The expected value of perfect information (EVPI) is the increase in the expected profit that would result if one knew with certainty which state of nature would occur. n The EVPI provides an upper bound on the expected value of any sample or survey information that better estimates the probability estimates for the states of nature. Expected Value of Perfect Information

7. 7 77 7 7 77 7 BA 452 Lesson C.4 The Value of Information n EVPI Calculation Step 1: Step 1: Determine the optimal return corresponding to each state of nature. Determine the optimal return corresponding to each state of nature. Step 2: Step 2: Compute the expected value of those optimal returns. Compute the expected value of those optimal returns. Step 3: Step 3: Subtract the EV of the optimal decision without knowing the state of nature from the amount determined in Step 2. Subtract the EV of the optimal decision without knowing the state of nature from the amount determined in Step 2. Expected Value of Perfect Information

8. 8 88 8 8 88 8 BA 452 Lesson C.4 The Value of Information n How much should Medieval Times be willing to pay to determine the average number of customers per hour (the state of nature)? n The probabilities of states s 1, s 2, s 3 were.4,.2, and.4: n Maximum expected profit was EV(C) =.4($6,000) +.2($16,000) +.4($21,000) = $14,000 Average Number of Customers Per Hour Average Number of Customers Per Hour s 1 = 80 s 2 = 100 s 3 = 120 s 1 = 80 s 2 = 100 s 3 = 120 Model A $10,000 $15,000 $14,000 Model A $10,000 $15,000 $14,000 Model B $ 8,000 $18,000 $12,000 Model B $ 8,000 $18,000 $12,000 Model C $ 6,000 $16,000 $21,000 Model C $ 6,000 $16,000 $21,000 Expected Value of Perfect Information

9. 9 99 9 9 99 9 BA 452 Lesson C.4 The Value of Information Average Number of Customers Per Hour Average Number of Customers Per Hour s 1 = 80 s 2 = 100 s 3 = 120 s 1 = 80 s 2 = 100 s 3 = 120 Model A $10,000 $15,000 $14,000 Model A $10,000 $15,000 $14,000 Model B $ 8,000 $18,000 $12,000 Model B $ 8,000 $18,000 $12,000 Model C $ 6,000 $16,000 $21,000 Model C $ 6,000 $16,000 $21,000 Expected Value of Perfect Information n If you knew the state were s 1, choose A and earn $10,000. n If you knew the state were s 2, choose B and earn $18,000 n If you knew the state were s 3, choose C and earn $21,000 n EV =.4(10,000) +.2(18,000) +.4(21,000) = $16,000 n EV(perfect information) is $2,000 than EV(no info).

10. 10 BA 452 Lesson C.4 The Value of Information Bayes’ Rule

11. 11 BA 452 Lesson C.4 The Value of Information Overview Bayes’ Rule revises prior probability estimates for the states of nature into posterior probabilities. The rule uses conditional probabilities for the outcomes or indicators of the sample or survey information. Bayes’ Rule

12. 12 BA 452 Lesson C.4 The Value of Information n Knowledge of sample (survey) information can better estimate the probabilities for the states of nature. n Before getting this information, probability estimates for the states of nature are called prior probabilities. n With knowledge of conditional probabilities for the outcomes or indicators of the sample or survey information, these prior probabilities can be revised by employing Bayes' Theorem. (The accuracy of a sample or survey is measured by its conditional probabilities.) n The revised probabilities are called posterior probabilities or branch probabilities for decision trees. Bayes’ Rule

13. 13 BA 452 Lesson C.4 The Value of Information n For example, suppose a certain drug test will correctly identify a drug user as testing positive 99% of the time, and will correctly identify a non-user as testing negative 99% of the time. n Suppose a corporation decides to test its employees for opium use, and the corporation believes 0.5% of the employees use the drug. We want to know the probability that, given a positive drug test, an employee is actually a drug user. Bayes’ Rule

14. 14 BA 452 Lesson C.4 The Value of Information n Let "D" be the event of being a drug user; and "N“, being a non-user. Let "+" be the event of a positive drug test. n The population is defined by P(D), or the prior probability that the employee is a drug user. This is 0.005, since 0.5% of the employees are drug users. Hence, P(N), or the probability that the employee is not a drug user, is 1- P(D), or 0.995. n The accuracy of the drug test is defined by two numbers: P(+|D), or the probability that the test is positive, given that the employee is a drug user. This is 0.99, since the test will correctly identify a drug user as testing positive 99% of the time. P(+|D), or the probability that the test is positive, given that the employee is a drug user. This is 0.99, since the test will correctly identify a drug user as testing positive 99% of the time. P(+|N), or the probability that the test is positive, given the employee is not a user. This is 0.01, since the test produces a false positive for 1% of non-users. P(+|N), or the probability that the test is positive, given the employee is not a user. This is 0.01, since the test produces a false positive for 1% of non-users. Bayes’ Rule

15. 15 BA 452 Lesson C.4 The Value of Information Hence, follow a sequence of steps to compute the probability a person is a drug user given a positive test: n The probability a person is a drug user and tests positive is P(D&+) = P(+|D) x P(D) = 0.99 x 0.005 = 0.00495 = 0.495% n The probability a person is a non-drug user but tests positive is P(N&+) = P(+|N) x P(N) = 0.01 x 0.995 = 0.00995 = 0.995% n The probability a person tests positive P(+) = P(D&+) + P(N&+) = 0.0149 = 1.49%. n The probability a person is a drug user given a positive test P(D|+) = P(D&+)/P(+) = 0.00495/0.0149 =.3322. Even though the test is 99% accurate, P(D|+) =.3322, only 33.22% of those testing positive are drug users! Even though the test is 99% accurate, P(D|+) =.3322, only 33.22% of those testing positive are drug users! Bayes’ Rule

16. 16 BA 452 Lesson C.4 The Value of Information Expected Value of Sample Information

17. 17 BA 452 Lesson C.4 The Value of Information Overview Expected Value of Sample Information is the additional expected profit possible through knowledge of the sample or survey information. It is less than the Expected Value of Perfect Information when samples and surveys are imperfect. Expected Value of Sample Information

18. 18 BA 452 Lesson C.4 The Value of Information n In general, the expected value of sample information (EVSI) is the additional expected profit possible through knowledge of the sample or survey information. n EVSI calculation Step 1: Determine the optimal decision and its expected profit for the possible outcomes of the sample using the posterior probabilities for the states of nature. Step 1: Determine the optimal decision and its expected profit for the possible outcomes of the sample using the posterior probabilities for the states of nature. Step 2: Compute the expected value of these optimal profits. Step 2: Compute the expected value of these optimal profits. Step 3: Subtract the EV of the optimal decision obtained without using the sample information from the amount determined in Step 2. Step 3: Subtract the EV of the optimal decision obtained without using the sample information from the amount determined in Step 2. Expected Value of Sample Information

19. 19 BA 452 Lesson C.4 The Value of Information Question: Medieval Times Dinner Theater is considering opening a new theater on Main Street. It has three different models, each with a different seating capacity. Medieval Times estimates that the average number of customers per show will be 800, 1000, or 1200. Here is the payoff table for the three models: Average Number of Customers Per Hour Average Number of Customers Per Hour s 1 = 800 s 2 = 1000 s 3 = 1200 s 1 = 800 s 2 = 1000 s 3 = 1200 Model A $10,000 $15,000 $14,000 Model A $10,000 $15,000 $14,000 Model B $ 8,000 $18,000 $12,000 Model B $ 8,000 $18,000 $12,000 Model C $ 6,000 $16,000 $21,000 Model C $ 6,000 $16,000 $21,000 Expected Value

20. 20 BA 452 Lesson C.4 The Value of Information Medieval Times Dinner Theater must decide whether or not to spend $1,000 for a marketing survey from Stanton Marketing. The two possible results of the survey are "favorable" or "unfavorable". The conditional probabilities are: P(favorable | 800 customers per show) =.2 P(favorable | 1000 customers per show) =.5 P(favorable | 1200 customers per show) =.9 Should Medieval Times spend $1,000 for the survey from Stanton Marketing if the prior probabilities of states s 1, s 2, and s 3 are.4,.2, and.4? Expected Value of Sample Information

21. 21 BA 452 Lesson C.4 The Value of Information Answer: Compare $1000 to EVSI. Compute EVSI in three steps. Step 1: Determine the optimal decision and its expected profit for the possible outcomes of the sample using the posterior probabilities for the states of nature. Step 1: Determine the optimal decision and its expected profit for the possible outcomes of the sample using the posterior probabilities for the states of nature. Step 2: Compute the expected value of these optimal profits. Step 2: Compute the expected value of these optimal profits. Step 3: Subtract the EV of the optimal decision obtained without using the sample information from the amount determined in Step 2. Step 3: Subtract the EV of the optimal decision obtained without using the sample information from the amount determined in Step 2. Expected Value of Sample Information

22. 22 BA 452 Lesson C.4 The Value of Information Favorable survey result Favorable survey result State Prior Conditional Joint Posterior State Prior Conditional Joint Posterior 800.4.2.08.148 800.4.2.08.148 1000.2.5.10.185 1000.2.5.10.185 1200.4.9.36.667 1200.4.9.36.667 Total.54 1.000 Total.54 1.000 P(favorable) =.54 For the first state (80 customers), n Joint probability = 0.08 = 0.4 x 0.2 = Prior x Conditional Marginal P(favorable) = 0.54 = 0.08+0.10+0.36 =  Joints Marginal P(favorable) = 0.54 = 0.08+0.10+0.36 =  Joints n Posterior probability = 0.148 = 0.08/0.54 = Joint/Marginal Expected Value of Sample Information

23. 23 BA 452 Lesson C.4 The Value of Information Unfavorable survey result State Prior Conditional Joint Posterior State Prior Conditional Joint Posterior 800.4.8.32.696 800.4.8.32.696 1000.2.5.10.217 1000.2.5.10.217 1200.4.1.04.087 1200.4.1.04.087 Total.46 1.000 Total.46 1.000 P(unfavorable) =.46 P(unfavorable) =.46 For the first state (80 customers), n Joint probability = 0.32 = 0.4 x 0.8 = Prior x Conditional Marginal P(unfavorable) = 0.46 = 0.32+0.10+0.04 =  Joints Marginal P(unfavorable) = 0.46 = 0.32+0.10+0.04 =  Joints n Posterior probability = 0.696 = 0.32/0.46 = Joint/Marginal Expected Value of Sample Information

24. 24 BA 452 Lesson C.4 The Value of Information n Top half (favorable survey result) s 1 (.148) s 2 (.185) s 3 (.667) $10,000 $15,000 $14,000 $8,000 $18,000 $12,000 $6,000 $16,000 $21,000 I 1 I 1(.54) d1d1d1d1 d2d2d2d2 d3d3d3d3 22 44 55 66 11 Expected Value of Sample Information

25. 25 BA 452 Lesson C.4 The Value of Information n Bottom half (unfavorable survey result) s 1 (.696) s 2 (.217) s 3 (.087) $10,000 $15,000 $18,000 $14,000 $8,000 $12,000 $6,000 $16,000 $21,000 I 2 I 2(.46) d1d1d1d1 d2d2d2d2 d3d3d3d3 77 99 88 33 11 Expected Value of Sample Information

26. 26 BA 452 Lesson C.4 The Value of Information I 2 I 2(.46) d1d1d1d1 d2d2d2d2 d3d3d3d3 EMV =.696(10,000) +.217(15,000) +.087(14,000)= $11,433 +.087(14,000)= $11,433 EMV =.696(8,000) +.217(18,000) +.087(12,000) = $10,554 +.087(12,000) = $10,554 EMV =.696(6,000) +.217(16,000) +.087(21,000) = $9,475 +.087(21,000) = $9,475 I 1 I 1(.54) d1d1d1d1 d2d2d2d2 d3d3d3d3 EMV =.148(10,000) +.185(15,000) +.667(14,000) = $13,593 +.667(14,000) = $13,593 EMV =.148 (8,000) +.185(18,000) +.667(12,000) = $12,518 +.667(12,000) = $12,518 EMV =.148(6,000) +.185(16,000) +.667(21,000) = $17,855 +.667(21,000) = $17,855 44 55 66 77 88 99 22 33 11 $17,855 $11,433 Expected Value of Sample Information

27. 27 BA 452 Lesson C.4 The Value of Information If the outcome of the survey is "favorable”, choose Model C. If it is “unfavorable”, choose Model A. EVSI =.54($17,855) +.46($11,433) - $14,000 = $900.88 Since that is less than the cost of the survey, the survey should not be purchased. Expected Value of Sample Information

28. 28 BA 452 Lesson C.4 The Value of Information Review Questions  You should try to answer some of the following questions before the next class.  You will not turn in your answers, but students may request to discuss their answers to begin the next class.  Your upcoming Final Exam will contain some similar questions, so you should eventually consider every review question before taking your exams.

29. 29 BA 452 Lesson C.4 The Value of Information Review 1: Expected Value of Sample Information

30. 30 BA 452 Lesson C.4 The Value of Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70 The Gorman Manufacturing Company must decide whether to make a component part at its Milan, Michigan, plan or buy the part from a supplier. The profit depends on the demand for the product. The following table shows the profit (in thousands of dollars): Review 1: Expected Value of Sample Information

31. 31 BA 452 Lesson C.4 The Value of Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70 Compute the optimal decision (which maximizes expected value) given priors P(s 1 ) = 0.35, P(s 2 ) = 0.35, P(s 3 ) = 0.30. EV(d 1 ) = 0.35 x (-20) + 0.35 x (40) + 0.30 x (100) = 37. EV(d 2 ) = 0.35 x (10) + 0.35 x (45) + 0.30 x (70) = 40.25. So, choose Purchase, d 2. Review 1: Expected Value of Sample Information

32. 32 BA 452 Lesson C.4 The Value of Information Use EVPI (expected value of perfect information) to determine whether Gorman should try to better estimate demand. If you had perfect information, then in state s 1, pick d 2 for payoff 10; in state s 2, pick d 2 for payoff 45; and in state s 3, pick d 1 for payoff 100. Hence, the expected payoff is 0.35 x (10) + 0.35 x (45) + 0.30 x (100) = 49.25, which is 9 more than the expected payoff EV(d 2 ) = 40.25 from the optimum given the priors. EVPI thus = 9 (that is, 9 thousand), which is positive so information is valuable. Review 1: Expected Value of Sample Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70

33. 33 BA 452 Lesson C.4 The Value of Information What is Gorman’s optimal strategy (which maximizes expected value) if it has access to a market study that concludes a F = Favorable or U = Unfavorable outcome with the following conditional probabilities? P(favorable | low state s 1 ) = 0.1 P(favorable | med state s 2 ) = 0.4 P(favorable | high state s 3 ) = 0.6 Review 1: Expected Value of Sample Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70

34. 34 BA 452 Lesson C.4 The Value of Information Favorable survey result State Prior P(s i ) Cond. P(F|s i ) Joint P(s i &F) Post P(s i |F) s 1 0.35 0.1 0.035 0.0986 s 1 0.35 0.1 0.035 0.0986 s 2 0.35 0.4 0.140 0.3944 s 2 0.35 0.4 0.140 0.3944 s 3 0.30 0.6 0.180 0.5070 s 3 0.30 0.6 0.180 0.5070 P(favorable) = 0.355 P(favorable) = 0.355 n EV(d 1 ) = 0.0986 x (-20) + 0.3944 x (40) + 0.5070 x (100) = 64.51. n EV(d 2 ) = 0.0986 x (10) + 0.3944 x (45) + 0.5070 x (70) = 54.23. n So, if the survey is Favorable, choose Manufacture, d 1. Review 1: Expected Value of Sample Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70

35. 35 BA 452 Lesson C.4 The Value of Information Unfavorable survey result State Prior P(s i ) Cond. P(U|s i ) Joint P(s i &U) Post P(s i |U) s 1 0.35 0.9 0.315 0.4884 s 1 0.35 0.9 0.315 0.4884 s 2 0.35 0.6 0.210 0.3256 s 2 0.35 0.6 0.210 0.3256 s 3 0.30 0.4 0.120 0.1860 s 3 0.30 0.4 0.120 0.1860 P(Unfavorable) = 0.645 P(Unfavorable) = 0.645 n EV(d 1 ) = 0.4884 x (-20) + 0.3256 x (40) + 0.1860 x (100) = 21.86. n EV(d 2 ) = 0.4884 x (10) + 0.3256 x (45) + 0.1860 x (70) = 32.56. n So, if the survey is Unfavorable, choose Purchase, d 2. Review 1: Expected Value of Sample Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70

36. 36 BA 452 Lesson C.4 The Value of Information n The survey is Favorable with probability P(Favorable) = 0.355. And contingent on Favorable, the expected payoff is 64.51. n The survey is Unfavorable with probability P(Unfavorable) = 0.645. And contingent on Unfavorable, the expected payoff is 32.56. n Therefore, the un-contingent expected payoff is 0.355 x 64.51 + 0.645 x 32.56 = 43.90. 0.355 x 64.51 + 0.645 x 32.56 = 43.90. n The expected payoff with no information (priors) is 40.25. n Therefore, the EVSI = 43.90-40.25 = 3.65 ($3,650). Review 1: Expected Value of Sample Information States of Demand States of Demand s 1 (low) s 2 (med) s 3 (high) s 1 (low) s 2 (med) s 3 (high) Manufacture, d 1 -20 40 100 Manufacture, d 1 -20 40 100 Purchase, d 2 10 45 70 Purchase, d 2 10 45 70

37. 37 BA 452 Lesson C.4 The Value of Information Review 2: Expected Value of Sample Information

38. 38 BA 452 Lesson C.4 The Value of Information n Dollar Department Stores has received an offer from Harris Diamonds to purchase Dollar’s store on Grove Street for $120,000. Dollar is an expected-value maximizer. Dollar has determined probability estimates of the store's future profitability, based on economic outcomes, as: P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. n Should Dollar sell the store on Grove Street? n What is the EVPI? n Dollar can have an economic forecast performed. The forecast indicates either G = Good business conditions or B = Bad business conditions. Probabilities of the indicators conditional on future profitability are P(G|$80,000) =.1; P(G|$100,000) =.2; P(G|$120,000) =.6; P(G|$140,000) =.3. Should Dollar purchase that forecast for $10,000? For $1,000? Review Problems

39. 39 BA 452 Lesson C.4 The Value of Information n This problem can be solved like the previous problem by first converting the profit data and selling price into a payoff table: P(s 1 = $80,000) =.2, P(s 2 = $100,000) =.3, P(s 3 = $120,000) =.1, and P(s 4 = $140,000) =.4 P(s 1 = $80,000) =.2, P(s 2 = $100,000) =.3, P(s 3 = $120,000) =.1, and P(s 4 = $140,000) =.4 Offer to sell for $120,000. Offer to sell for $120,000. Review Problems States of Demand s 1 s 2 s 3 s 4 s 1 s 2 s 3 s 4 Do not sell, d 1 80,000 100,000 120,000 140,000 Do not sell, d 1 80,000 100,000 120,000 140,000 Sell, d 2 120,000 120,000 120,000 120,000 Sell, d 2 120,000 120,000 120,000 120,000

40. 40 BA 452 Lesson C.4 The Value of Information n Consider priors P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. n Should Dollar sell the store on Grove Street? n Expected profit (in thousands of $) =.2 x 80 +.3 x 100 +.1 x 120 +.4 x 140 = 114, so selling for $120,000 increases value from $114,000. n Here is a more elaborate way to say the same thing: n EV(d 1 =Not sell) =.2x80 +.3x100 +.1x120 +.4x140 = 114. n EV(d 2 =Sell) =.2x120 +.3x120 +.1x120 +.4x120 = 120. n So, choose Sell, d 2. Review Problems

41. 41 BA 452 Lesson C.4 The Value of Information n Consider priors P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. n What is the EVPI? Expected value of perfect information is what you can expect if you know the store’s future profitability before you have to decide whether to sell. n If future profit is either $80,000 or $100,000, then you sell for $120,000 (choose d 2 ); if future profit is $120,000, then it does not matter whether you sell or not (choose d 1 or d 2 ); and if future profit is $140,000, then you do not sell (choose d 1 ). n So, with perfect information, you earn $120,000, except in the probability P($140,000) =.4 state 4 event, when you earn $140,000. So you can expect.6 x $120,000 +.4 x $140,000 = $128,000, which is $8,000 more than selling for $120,000. n Therefore, EVPI = $8,000. Review Problems

42. 42 BA 452 Lesson C.4 The Value of Information n Consider priors P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. P($80,000) =.2, P($100,000) =.3, P($120,000) =.1, and P($140,000) =.4. n EVPI = $8,000. n Should Dollar purchase the forecast for $10,000? n No, because the value of the forecast is at most EVPI, which is less than $10,000. Review Problems

43. 43 BA 452 Lesson C.4 The Value of Information n Should Dollar purchase the forecast for $1,000? n First, compute posterior probabilities under the two possible forecasts: G = Good business conditions or B = Bad business conditions. n If G, then n Priors ConditionalJoint Posterior n P(s 1 ) =.2 P(G|s 1 ) =.1P(G&s 1 ) =.02P(s 1 |G) =.02/.26 =.077 n P(s 2 ) =.3 P(G|s 2 ) =.2 P(G&s 2 ) =.06P(s 2 |G) =.06/.26 =.231 n P(s 3 ) =.1 P(G|s 3 ) =.6 P(G&s 3 ) =.06P(s 3 |G) =.06/.26 =.231 n P(s 4 ) =.4 P(G|s 4 ) =.3 P(G&s 4 ) =.12P(s 4 |G) =.12/.26 =.462 P(G) =.26 n Expected Value of Store Given G =.077x$80,000 +.231x$100,000+.231x$120,000+.462x$140,000=$121,660.077x$80,000 +.231x$100,000+.231x$120,000+.462x$140,000=$121,660 n Since that value is greater than $120,000, you do not sell the store if the report is G = Good business conditions. Review Problems

44. 44 BA 452 Lesson C.4 The Value of Information n Should Dollar purchase the forecast for $1,000? n If B, then n Priors ConditionalJointPosterior n P(s 1 ) =.2 P(B|s 1 ) =.9P(B&s 1 ) =.18P(s 1 |B) =.18/.74 =.243 n P(s 2 ) =.3 P(B|s 2 ) =.8 P(B&s 2 ) =.24P(s 2 |B) =.24/.74 =.324 n P(s 3 ) =.1 P(B|s 3 ) =.4 P(B&s 3 ) =.04P(s 3 |B) =.04/.74 =.054 n P(s 4 ) =.4 P(B|s 4 ) =.7 P(B&s 4 ) =.28P(s 4 |B) =.28/.74 =.378 P(B) =.74 n Expected Value of Store Given B =.243x$80,000 +.324x$100,000+.054x$120,000+.378x$140,000=$111,240.243x$80,000 +.324x$100,000+.054x$120,000+.378x$140,000=$111,240 n Since that value is less than $120,000, you do sell the store if the report is B = Bad business conditions. Review Problems

45. 45 BA 452 Lesson C.4 The Value of Information n Putting it all together, n P(G) =.26 of a Good report and expected profit =$121,660. n P(B) =.74 of a Bad report and expected profit $120,000. n Overall, expected profit is.26x$121,660 +.74$120,000 = $120,431. n Therefore, EVSI = $120,431-$120,000 = $431, and you should not pay $1,000 for the economic forecast. Review Problems

46. 46 BA 452 Lesson C.4 The Value of Information BA 452 Quantitative Analysis End of Lesson C.4