11. The distribution system for the Herman Company consists of three plants, two warehouses, and four customers. Plant capacities and shipping costs per unit (in $) from each plant to each warehouse are as follows: Warehouse Plant 1 Capacity 2 3 450 600 380 6 Customer demand and shipping costs per unit (in $) from each warehouse to each customer are as follows: a. Develop a network representation of this problem. b. Formulate a linear programming model of the problem. c. Solve the linear program to determine the optimal shipping plan. Customer Warehouse 1 3 6. 3 4 8 4 2 6. Demand 300 300 300 400
11. The distribution system for the Herman Company consists of three plants, two warehouses, and four customers. Plant capacities and shipping costs per unit (in $) from each plant to each warehouse are as follows: Warehouse Plant 1 Capacity 2 3 450 600 380 6 Customer demand and shipping costs per unit (in $) from each warehouse to each customer are as follows: a. Develop a network representation of this problem. b. Formulate a linear programming model of the problem. c. Solve the linear program to determine the optimal shipping plan. Customer Warehouse 1 3 6. 3 4 8 4 2 6. Demand 300 300 300 400
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
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Transcribed Image Text:11. The distribution system for the Herman Company consists of three plants, two warehouses,
and four customers. Plant capacities and shipping costs per unit (in $) from each plant to
each warehouse are as follows:
Warehouse
Plant
1
2
Capacity
450
600
380
7
8
5
Customer demand and shipping costs per unit (in $) from each warehouse to each customer
are as follows:
a. Develop a network representation of this problem.
b. Formulate a linear programming model of the problem.
c. Solve the linear program to determine the optimal shipping plan.
Customer
Warehouse
1
2
3
6
3
4
8
7
2
6
Demand
300
300
300
400
221
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