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the assignment is relevent to part E here the assignment is relevent to part E here do it in arena file Assignment (01) In the
the assignment is relevent to part E here
the assignment is relevent to part E here
do it in arena file
Assignment (01) In the quality inspection center system that was discussed in Part E of Lab 01, add another type of devices asking for quality level inspection, named Receiver, whose inter arrival times are exponentially distributed with a mean of 40 minutes. Assume that the same service time for Radios and TVs is required by the inspector to check quality level of the arriving Receivers. Modify the decide module to separate all the three types of entities. 1. Run the ARENA model (Perform 30 replications), obtain the results report and extract the following: Average number of entities in the queue, Average waiting time for all the entities, Total number of radios, TVs, and receivers out of the system and, Average utilization of the inspector. 2. Increase the mean of inter-arrival time of the arriving Receivers in the inspection center (make it 45) and perform a simulation run. Comment* on the differences in results compared to the results from Question 1. 3. Decrease the mean of inter-arrival time of the arriving Receivers in the inspection center (make it 35) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. 4. Increase the service time of the devices in the inspection center (make it uniform (5,10)) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. 5. Decrease the service time of the devices in the inspection center (make it uniform (3,8)) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. *Comment: means that you need to mention the differences and explain why it happened? Note: One member of the group should submit **** rar' file contains the following on blackboard: 1- An MS-WORD file contains the answers for the above questions (with detailed cover page). 2- The ARENA model file (.e. *****.doe). 3- ARENA Report in PDF format. SINGLE SERVER MODEL Objective: Introduction to Arena with Simple Models (single server systems) Illustrative Exercise Part A: A factory produces electronic devices, i.e. Radios, TVs, etc. The factory implements a quality control system. Radios arrive at the quality inspection center where an expert inspector checks the level of quality for the devices. Create a single server model in ARENA with the following data: Inter arrival time Service time Run length Base time units Radio: Expo (20) min. Uniform (5,8) min 5 days of 8 hour shift Minutes Part B: Create another type of devices, TVs, which has exponentially distributed inter arrival times with mean of 30 minutes. Assume that the same service time for Radios is required by the inspector to check quality level of the arriving TVs. Part C: For animation enhancement select different pictures for different devices. Part D: Modify the model by inserting a DECIDE module between the process module and the dispose module. Select the option 2-way by chance and give 80% in the percentage true option, which means that 80% of the devices pass the inspection test (i.c. conforming devices) and the rest fail (i.e. defective devices). Part E: Modify the model by changing the option in the DECIDE module. Select the option 2-way by condition and select entity type in the "If" option and radios in the "Named" option. This means that, Radios pass the condition, and all Radios go in one path, while the others, i.e. TVs, go in another path. Perform 30 replications SINGLE SERVER MODEL Objective: Introduction to Arena with Simple Models (single server systems) Illustrative Exercise Part A: A factory produces electronic devices, i.e. Radios, TVs, etc. The factory implements a quality control system. Radios arrive at the quality inspection center where an expert inspector checks the level of quality for the devices. Create a single server model in ARENA with the following data: Inter arrival time Service time Run length Base time units Radio: Expo (20) min. Uniform (5,8) min 5 days of 8 hour shift Minutes Part B: Create another type of devices, TVs, which has exponentially distributed inter arrival times with mean of 30 minutes. Assume that the same service time for Radios is required by the inspector to check quality level of the arriving TVs. Part C: For animation enhancement select different pictures for different devices. Part D: Modify the model by inserting a DECIDE module between the process module and the dispose module. Select the option 2-way by chance and give 80% in the percentage true option, which means that 80% of the devices pass the inspection test (i.c. conforming devices) and the rest fail (i.e. defective devices). Part E: Modify the model by changing the option in the DECIDE module. Select the option 2-way by condition and select entity type in the "If" option and radios in the "Named" option. This means that, Radios pass the condition, and all Radios go in one path, while the others, i.e. TVs, go in another path. Perform 30 replications Assignment (01) In the quality inspection center system that was discussed in Part E of Lab 01, add another type of devices asking for quality level inspection, named Receiver, whose inter arrival times are exponentially distributed with a mean of 40 minutes. Assume that the same service time for Radios and TVs is required by the inspector to check quality level of the arriving Receivers. Modify the decide module to separate all the three types of entities. 1. Run the ARENA model (Perform 30 replications), obtain the results report and extract the following: Average number of entities in the queue, Average waiting time for all the entities, Total number of radios, TVs, and receivers out of the system and, Average utilization of the inspector. 2. Increase the mean of inter-arrival time of the arriving Receivers in the inspection center (make it 45) and perform a simulation run. Comment* on the differences in results compared to the results from Question 1. 3. Decrease the mean of inter-arrival time of the arriving Receivers in the inspection center (make it 35) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. 4. Increase the service time of the devices in the inspection center (make it uniform (5,10)) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. 5. Decrease the service time of the devices in the inspection center (make it uniform (3,8)) and perform a simulation run. Comment on the differences in results compared to the results from Question 1. *Comment: means that you need to mention the differences and explain why it happened? Note: One member of the group should submit **** rar' file contains the following on blackboard: 1- An MS-WORD file contains the answers for the above questions (with detailed cover page). 2- The ARENA model file (.e. *****.doe). 3- ARENA Report in PDF format. SINGLE SERVER MODEL Objective: Introduction to Arena with Simple Models (single server systems) Illustrative Exercise Part A: A factory produces electronic devices, i.e. Radios, TVs, etc. The factory implements a quality control system. Radios arrive at the quality inspection center where an expert inspector checks the level of quality for the devices. Create a single server model in ARENA with the following data: Inter arrival time Service time Run length Base time units Radio: Expo (20) min. Uniform (5,8) min 5 days of 8 hour shift Minutes Part B: Create another type of devices, TVs, which has exponentially distributed inter arrival times with mean of 30 minutes. Assume that the same service time for Radios is required by the inspector to check quality level of the arriving TVs. Part C: For animation enhancement select different pictures for different devices. Part D: Modify the model by inserting a DECIDE module between the process module and the dispose module. Select the option 2-way by chance and give 80% in the percentage true option, which means that 80% of the devices pass the inspection test (i.c. conforming devices) and the rest fail (i.e. defective devices). Part E: Modify the model by changing the option in the DECIDE module. Select the option 2-way by condition and select entity type in the "If" option and radios in the "Named" option. This means that, Radios pass the condition, and all Radios go in one path, while the others, i.e. TVs, go in another path. Perform 30 replications SINGLE SERVER MODEL Objective: Introduction to Arena with Simple Models (single server systems) Illustrative Exercise Part A: A factory produces electronic devices, i.e. Radios, TVs, etc. The factory implements a quality control system. Radios arrive at the quality inspection center where an expert inspector checks the level of quality for the devices. Create a single server model in ARENA with the following data: Inter arrival time Service time Run length Base time units Radio: Expo (20) min. Uniform (5,8) min 5 days of 8 hour shift Minutes Part B: Create another type of devices, TVs, which has exponentially distributed inter arrival times with mean of 30 minutes. Assume that the same service time for Radios is required by the inspector to check quality level of the arriving TVs. Part C: For animation enhancement select different pictures for different devices. Part D: Modify the model by inserting a DECIDE module between the process module and the dispose module. Select the option 2-way by chance and give 80% in the percentage true option, which means that 80% of the devices pass the inspection test (i.c. conforming devices) and the rest fail (i.e. defective devices). Part E: Modify the model by changing the option in the DECIDE module. Select the option 2-way by condition and select entity type in the "If" option and radios in the "Named" option. This means that, Radios pass the condition, and all Radios go in one path, while the others, i.e. TVs, go in another path. Perform 30 replications Step by Step Solution
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