CASE PROBLEMS
Problem A
The program manager, Matt Simon, for TV Channel 25 would like to determine the best way to allocate the time for the 11:00-11:40 evening news broadcast. He would like to know the most profitable way to allocate broadcast time to local news, national news, weather, sports, and commercials. Over the forty-minute broadcast, no more than twelve minutes can be set aside for commercial advertising which generates the sole profit at a rate of $2750 per minute. The station’s broadcast policy states that at least 18% of the time available should be devoted to local news coverage; the time devoted to local news and national news combined must be at least 45% of the total broadcast time; the time devoted to the weather segment must be less than or equal to the time devoted to sports segment; the time devoted to the sports segment should be no longer than the combined time spent on the local and national news; and at least 15% of the broadcast time should be devoted to the weather segment. The production costs per minute are $450 for local news, $300 for national news, $220 for weather, and $170 for sports.
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A-1) Formulate and list a linear program model to help Mr. Matt Simon with his managerial problem at Channel 25.
A-1) Formulate and list a linear program model to help Mr. Matt Simon with his managerial problem at Channel 25.
(A-2) Use the software LINGO to solve your model and report the optimal broadcasting time allocation.
(A-3) Report the maximized profit.
Problem B
A car dealership is offering the following three 2-year leasing options:
Plan I: Fixed Monthly Payment is $200 per month. Additional cost per mile is $0.095 per mile
Plan II: Fixed Monthly Payment is $300 per month. Additional cost per mile is $0.061 per mile for the first 6,000 miles. After that is $0.050 per mile.
Plan III: Fixed Monthly Payment is $170 per month. No additional cost per mile for the first 6,000 miles. After that is $0.14 per mile.
Assume a customer expects to drive between 15,000 to 35,000 miles during the next 2 years according to the following probability distribution:
Probability (Driving 15,000 miles) = 0.15
Probability (Driving 20,000 miles) = 0.20
Probability (Driving 25,000 miles) = 0.35
Probability (Driving 30,000 miles) = 0.15
Probability (Driving 35,000 miles) = 0.15
(B-1) Construct a payoff matrix for this problem.
(B-2) Construct a regret table and report what decision should be
made according to the Minimax regret approach.
(B-3) What decision should be made according to the expected value
approach?
(B-4) What is the EVPI for this problem?
Problem C
A small shop located in Utica sells a variety of dried fruits and nuts. The shop caters to travelers of all types; it sells one-pound boxes of individual items, such as dried bananas, as well as two kinds of one-pound boxes of mixed fruits and nuts, called “Trail Mix†and “Subway Mixâ€.
Because of the health inspection issues, individual items and mixed items can only be sold as packaged one-pound boxes. Here are the amounts of current supplies:
Dried Bananas: 800 pounds
Dried Apricots: 600 pounds
Coconut Pieces: 500 pounds
Raisins: 700 pounds
Walnuts: 1200 pounds
The selling prices of the various types of boxes offered are:
Trail Mix: $9 per box
Subway Mix: $12 per box
Dried Bananas: $5 per box
Dried Apricots: $8 per box
Coconut Pieces: $10 per box
Raisins: $6 per box
Walnuts: $15 per box
The manager would like to obtain as much revenue as possible from selling these boxed products. The management also decided that no more than 70% but at least 30% of these boxed products should be allocated to the Mixes. The Trail Mix consists of equal parts of all individual items, whereas the Subway Mix consist of 2 parts of walnuts and one part each of dried bananas, raisins, and coconut pieces. There are no dried apricots in the Subway Mix.
(C-1) Formulate and list the linear program model for this problem.
(C-2) Use the software LINGO to solve the model and report your production decision.
(C-3) Report the maximized revenue.
