questions uses Arena. Question 3: (Objective: To Exercise the Modeling Concepts) Sequences, Advance Set. Set a. Simulate the following real time scenario using ARENA. Three different parts are proces...
Question 3: (Objective: To Exercise the Modeling Concepts) Sequences, Advance Set. Set a. Simulate the following real time scenario using ARENA. Three different parts are processed via 3 different machines. Parts are moved via a transporter and follow the given sequences. Transporter speed is 1 foot/minute. b.Machine 3 fails sometimes, uptime is expo(50) and down time is expo (2). c. Use the frequency statistics to tabulate /plot the number of parts waiting in front ofPart3 the machine #2. d. Run simulation for 10 week, 8 hrs per day. Use minutes as base time. Distances Inter | Arrival Time Part Machine number and | Service time Type&% Part 1 Expo(5)+ 2 55% Part 2 30% (2,3): 4 1 Tria(2,3,4) 2 2 Tria(2,3,4) Tria 1,2,4 (A,1)(A,2), 3 Tria(2,3,4) (A,3), 15% Tria(3,4,5) Tria(1.2,4 e. Explain the modules you use step by step. f. Run the simulation with faster transporters 2 feet/minute. Tabulate the results.
Question 3: (Objective: To Exercise the Modeling Concepts) Sequences, Advance Set. Set a. Simulate the following real time scenario using ARENA. Three different parts are processed via 3 different machines. Parts are moved via a transporter and follow the given sequences. Transporter speed is 1 foot/minute. b.Machine 3 fails sometimes, uptime is expo(50) and down time is expo (2). c. Use the frequency statistics to tabulate /plot the number of parts waiting in front ofPart3 the machine #2. d. Run simulation for 10 week, 8 hrs per day. Use minutes as base time. Distances Inter | Arrival Time Part Machine number and | Service time Type&% Part 1 Expo(5)+ 2 55% Part 2 30% (2,3): 4 1 Tria(2,3,4) 2 2 Tria(2,3,4) Tria 1,2,4 (A,1)(A,2), 3 Tria(2,3,4) (A,3), 15% Tria(3,4,5) Tria(1.2,4 e. Explain the modules you use step by step. f. Run the simulation with faster transporters 2 feet/minute. Tabulate the results.