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Deck 12: Queueing Models
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Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the system utilization factor?
A)0.45.
B)0.50.
C)0.55.
D)0.65.
E)0.80.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the system utilization factor?
A)0.45.
B)0.50.
C)0.55.
D)0.65.
E)0.80.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of high priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of high priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Question
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of low priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of low priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Question
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that non-truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that non-truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Question
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the overall arrival rate per hour?
A)3.
B)4.
C)5.
D)8.
E)15.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the overall arrival rate per hour?
A)3.
B)4.
C)5.
D)8.
E)15.
Question
Question
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of all items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
A small popular restaurant at an interstate truck stop provides priority service to truckers.The restaurant has ten tables where customers may be seated.The service time averages 40 minutes once a party is seated.The customer arrival rate is 12 parties per hour,with the parties being equally divided between truckers and non-truckers.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of all items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
A small popular restaurant at an interstate truck stop provides priority service to truckers.The restaurant has ten tables where customers may be seated.The service time averages 40 minutes once a party is seated.The customer arrival rate is 12 parties per hour,with the parties being equally divided between truckers and non-truckers.
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Deck 12: Queueing Models
1
Most queueing models assume that the form of the probability distribution of interarrival times is an exponential distribution.
True
2
The goal of queuing analysis is to minimize customer waiting lines.
False
3
The cost of customer waiting is easy to estimate.
False
4
The number of customers in a system is the number in the queue plus one.
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5
The utilization factor is the ratio of the arrival rate to the service rate.
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6
Queue discipline refers to the willingness of customers to wait in line for service.
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7
Queueing models enable finding an appropriate balance between the cost of service and the amount of waiting.
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8
The only distribution of interarrival times that fits having random arrivals is the exponential distribution.
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9
All single-server queueing models require the utilization factor to be less than 1.
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10
Managers who oversee queueing systems are usually concerned with how many customers are waiting and how long they will have to wait.
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11
The standard deviation for the degenerative distribution equals zero.
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12
A queueing system is said to be in a "steady state" when customers arrive at a constant rate,that is,without any variability.
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13
In a single-server system,the utilization factor is equal to the mean arrival rate divided by the mean service rate.
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14
A loading dock with two servers who work together as a team would be an example of a multiple-server system.
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15
Queueing models conventionally assume that the queue can hold an unlimited number of customers.
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16
The lack-of-memory property refers to a customer's willingness to wait in line even though there are other customers that will be served first.
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17
The expected waiting time in line is equal to the expected number of customers in line divided by the arrival rate.
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18
The exponential distribution will always provide a reasonably close approximation of the true service-time distribution.
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19
The most commonly used queueing models assume a service rate that is exponential.
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20
Waiting lines occur even in systems that are less that 100% utilized because of variability in service rates and/or arrival rates.
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21
The term queue discipline refers to:
A)the willingness of customers to wait in line for service.
B)having multiple waiting lines without customers switching from line to line.
C)the order in which customers are processed.
D)the reason waiting occurs in underutilized systems.
E)None of the above.
A)the willingness of customers to wait in line for service.
B)having multiple waiting lines without customers switching from line to line.
C)the order in which customers are processed.
D)the reason waiting occurs in underutilized systems.
E)None of the above.
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22
When designing a single-server queueing system,giving a relatively high utilization factor to the server ensures that the system is working efficiently.
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23
The reason for using priorities is to decrease the waiting times for high-priority customers.
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24
In a nonpreemptive priority system,customers are served in the order in which they arrive in the queue.
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25
Multiple-server queueing systems can perform satisfactorily with somewhat higher utilization factors than can single-server queueing systems.
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26
The goal of queueing analysis is to minimize:
A)the sum of customer waiting costs and service costs.
B)the sum of customer waiting time and service time.
C)service costs.
D)customer waiting time.
E)None of the above.
A)the sum of customer waiting costs and service costs.
B)the sum of customer waiting time and service time.
C)service costs.
D)customer waiting time.
E)None of the above.
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27
A queueing system has four crew with three members each.The number of "servers" is:
A)3.
B)4.
C)7.
D)12.
E)1.
A)3.
B)4.
C)7.
D)12.
E)1.
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28
For a system that has a high utilization factor,decreasing the service rate will have only a negligible effect on customer waiting time.
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29
Choosing the number of servers in a system involves finding an appropriate trade-off between the cost of the servers and the amount of waiting.
Multiple Choice Questions
Multiple Choice Questions
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30
Applying nonpreemptive priorities improves the measures of performance in the top priority class even more than applying preemptive priorities.
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31
Which of the following will equal the average time that a customer is in the system?
A)The average number in the system divided by the arrival rate.
B)The average number in the system multiplied by the arrival rate.
C)The average time in line plus the average service time.
D)b.and c.only.
E)a.and c.only.
A)The average number in the system divided by the arrival rate.
B)The average number in the system multiplied by the arrival rate.
C)The average time in line plus the average service time.
D)b.and c.only.
E)a.and c.only.
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32
The assumption of constant service times cannot be used with human servers because of the inevitable variability.
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33
If a manager increases the system utilization standard (assuming no change in the customer arrival rate)what happens to the customer waiting time?
A)It increases exponentially.
B)It increases proportionally.
C)It decreases proportionally.
D)It decreases exponentially.
E)No change.
A)It increases exponentially.
B)It increases proportionally.
C)It decreases proportionally.
D)It decreases exponentially.
E)No change.
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34
In a preemptive priority system,the lowest-priority customer being served is ejected back into the queue whenever a higher-priority customer enters the queueing system.
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35
Which of the following is not an example of a commercial service system?
A)ATM cash machine.
B)Brokerage service.
C)Travel agency.
D)Tool crib.
E)Call center.
A)ATM cash machine.
B)Brokerage service.
C)Travel agency.
D)Tool crib.
E)Call center.
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36
A system has one service facility that can service 10 customers per hour.The customers arrive at an average rate of 6 per hour.In this case,no waiting line will form.
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37
A single server queueing system has an average service time of 8 minutes and an average time between arrivals of 10 minutes.The arrival rate is:
A)6 per hour.
B)7.5 per hour.
C)8 per hour.
D)10 per hour.
E)12.5 per hour.
A)6 per hour.
B)7.5 per hour.
C)8 per hour.
D)10 per hour.
E)12.5 per hour.
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38
Which of the following is not generally considered as a measure of performance in queueing analysis?
A)The average number waiting in line.
B)The average number in the system.
C)The system utilization factor.
D)The cost of servers plus customer waiting cost.
E)Service time.
A)The average number waiting in line.
B)The average number in the system.
C)The system utilization factor.
D)The cost of servers plus customer waiting cost.
E)Service time.
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39
As the ratio of arrival rate to service rate is increased,which of the following is likely?
A)Customers move through the system in less time because utilization is increased.
B)Customers move through the system more slowly because utilization is increased.
C)Utilization is decreased because of the added strain on the system.
D)The average number in the system decreases.
E)None of the above.
A)Customers move through the system in less time because utilization is increased.
B)Customers move through the system more slowly because utilization is increased.
C)Utilization is decreased because of the added strain on the system.
D)The average number in the system decreases.
E)None of the above.
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40
Decreasing the variability of service times,without any change in the mean,improves the performance of a single-server queueing system substantially.
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41
A multiple priority queueing model assumes that:
A)arrival rates are exponentially distributed.
B)service rate is exponentially distributed.
C)items are serviced in the order of arrival.
D)items are serviced in order of priority class.
E)service activities are preemptive.
A)arrival rates are exponentially distributed.
B)service rate is exponentially distributed.
C)items are serviced in the order of arrival.
D)items are serviced in order of priority class.
E)service activities are preemptive.
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42
What is the system utilization?
A)0.6.
B)0.7.
C)0.8.
D)0.9.
E)1.
A)0.6.
B)0.7.
C)0.8.
D)0.9.
E)1.
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43
What is the minimum number of servers needed to keep the average time in the system under 6 minutes?
A)2.
B)3.
C)4.
D)5.
E)6.
A)2.
B)3.
C)4.
D)5.
E)6.
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44
How many minutes does the average customer spend in the system?
A)7.
B)8.
C)9.
D)10.
E)11.
During the early morning hours,customers arrive at a branch post office at the average rate of 45 per hour (exponential interarrival times),while clerks can handle transactions on an average of 4 minutes each (exponential).
A)7.
B)8.
C)9.
D)10.
E)11.
During the early morning hours,customers arrive at a branch post office at the average rate of 45 per hour (exponential interarrival times),while clerks can handle transactions on an average of 4 minutes each (exponential).
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45
If clerk cost is $30 per hour and customer waiting time represents a cost of $20 per hour,how many clerks can be justified on a cost basis?
A)2.
B)3.
C)4.
D)5.
E)6.
Customers filter into a record shop at an average of 1 per minute (exponential interarrivals)where the service rate is 15 per hour (exponential service times).
A)2.
B)3.
C)4.
D)5.
E)6.
Customers filter into a record shop at an average of 1 per minute (exponential interarrivals)where the service rate is 15 per hour (exponential service times).
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46
There are 5 servers in a system with an arrival rate of 6 per hour and a service time of 20 minutes.What is the system utilization?
A)0.1.
B)0.3.
C)0.4.
D)1.2.
E)2.0.
A)0.1.
B)0.3.
C)0.4.
D)1.2.
E)2.0.
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47
If there are 4 servers,what is the average time it takes in minutes to rent a videotape?
A)2.
B)3.
C)4.
D)5.
E)6.
A)2.
B)3.
C)4.
D)5.
E)6.
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48
A multiple-server queueing system with an exponential arrival rate and service time has a mean arrival rate of 4 customers per hour and a mean service time of 18 minutes per customer.The minimum number of servers required to keep the utilization factor under 1 is:
A)1.
B)2.
C)3.
D)4.
E)5.
A)1.
B)2.
C)3.
D)4.
E)5.
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49
What is the average number of customers waiting for service if 6 clerks are used?
A)0.
B)0.01.
C)0.1.
D)1.
E)10.
A)0.
B)0.01.
C)0.1.
D)1.
E)10.
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50
What is the average number of customers in the system with 8 servers?
A)2.
B)3.
C)4.
D)5.
E)6.
A)2.
B)3.
C)4.
D)5.
E)6.
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51
What is the average number of customers waiting in line?
A)1.633.
B)2.333.
C)2.5.
D)3.966.
E)4.
A)1.633.
B)2.333.
C)2.5.
D)3.966.
E)4.
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52
A single bay car wash with an exponential arrival rate and service time has cars arriving an average of 10 minutes apart,and an average service time of 4 minutes.The utilization factor is:
A)0.24.
B)0.4.
C)0.67.
D)2.5
E)None of the above.
A)0.24.
B)0.4.
C)0.67.
D)2.5
E)None of the above.
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53
What is the minimum number of clerks needed to keep the average time in the system under 5 minutes?
A)2.
B)3.
C)4.
D)5.
E)6.
A)2.
B)3.
C)4.
D)5.
E)6.
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54
A single-server queueing system has an average service time of 16 minutes per customer,which is exponentially distributed.The manager is thinking of converting to a system with a constant service time of 16 minutes.The arrival rate will remain the same.The effect will be to:
A)increase the utilization factor.
B)decrease the utilization factor.
C)increase the average waiting time.
D)decrease the average waiting time.
E)not have any effect since the service time is unchanged.
A)increase the utilization factor.
B)decrease the utilization factor.
C)increase the average waiting time.
D)decrease the average waiting time.
E)not have any effect since the service time is unchanged.
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55
What is the minimum number of servers needed to achieve an average time in the system of less than three minutes?
A)2.
B)3.
C)4.
D)5.
E)6.
A)2.
B)3.
C)4.
D)5.
E)6.
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56
If there are 4 servers,what is the probability of three or fewer customers in the system?
A)0.19.
B)0.23.
C)0.63.
D)0.68.
E)0.79.
A)0.19.
B)0.23.
C)0.63.
D)0.68.
E)0.79.
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57
How many minutes does the average customer wait in line?
A)7.
B)8.
C)9.
D)10.
E)11.
A)7.
B)8.
C)9.
D)10.
E)11.
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58
What is the system utilization factor if 5 servers are used?
A)0.6.
B)0.7.
C)0.8.
D)0.9.
E)1.
Customers arrive at a video rental desk at the rate of one per minute (exponential interarrival times).Each server can handle 0.4 customers per minute (exponential service times).
A)0.6.
B)0.7.
C)0.8.
D)0.9.
E)1.
Customers arrive at a video rental desk at the rate of one per minute (exponential interarrival times).Each server can handle 0.4 customers per minute (exponential service times).
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59
A multiple-server system has customers arriving at an average rate of five per hour and an average service time of forty minutes.The minimum number of servers for this system to have a utilization factor under 1 is:
A)2.
B)3.
C)4.
D)5.
E)None of the above.
Customers arrive at a suburban ticket outlet at the rate of 14 per hour on Monday mornings (exponential interarrival times).Selling the tickets and providing general information takes an average of 3 minutes per customer,and varies exponentially.There is 1 ticket agent on duty on Mondays.
A)2.
B)3.
C)4.
D)5.
E)None of the above.
Customers arrive at a suburban ticket outlet at the rate of 14 per hour on Monday mornings (exponential interarrival times).Selling the tickets and providing general information takes an average of 3 minutes per customer,and varies exponentially.There is 1 ticket agent on duty on Mondays.
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60
Which of these would increase system utilization?
A)An increase in the service rate.
B)An increase in the arrival rate.
C)An increase in the number of servers.
D)A decrease in service time.
E)All of the above.
A)An increase in the service rate.
B)An increase in the arrival rate.
C)An increase in the number of servers.
D)A decrease in service time.
E)All of the above.
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61
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
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62
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the system utilization factor?
A)0.45.
B)0.50.
C)0.55.
D)0.65.
E)0.80.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the system utilization factor?
A)0.45.
B)0.50.
C)0.55.
D)0.65.
E)0.80.
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63
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of high priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of high priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
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64
On average,how many parties of non-truckers are waiting to be seated?
A)0.27.
B)0.52.
C)0.88.
D)1.36.
E)1.75.
A)0.27.
B)0.52.
C)0.88.
D)1.36.
E)1.75.
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65
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
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66
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in the system (in minutes)for a high priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
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67
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of low priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of low priority items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
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68
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average time in line (in minutes)for a low priority item?
A)2.
B)5.
C)24.
D)35.
E)54.
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69
On average,how much longer in minutes do parties of non-truckers spend in the system,compared to parties of truckers?
A)4.
B)7.
C)11.
D)15.
E)It is impossible to determine without more information.
A)4.
B)7.
C)11.
D)15.
E)It is impossible to determine without more information.
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70
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that non-truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that non-truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
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71
On average,how many parties of truckers are waiting to be seated?
A)0.27.
B)0.52.
C)0.88.
D)1.36.
E)1.75.
A)0.27.
B)0.52.
C)0.88.
D)1.36.
E)1.75.
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72
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the approximate average time in minutes that truckers wait to be seated?
A)2.7.
B)4.5.
C)8.4.
D)13.6.
E)15.8.
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73
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the overall arrival rate per hour?
A)3.
B)4.
C)5.
D)8.
E)15.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the overall arrival rate per hour?
A)3.
B)4.
C)5.
D)8.
E)15.
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74
Which of the following is not an assumption of a multiple priority queueing model?
A)Exponential interarrival times.
B)Exponential service times.
C)Customers are processed in the order of arrival.
D)Customers wait in a single line.
E)All of the above are assumptions.
A)Exponential interarrival times.
B)Exponential service times.
C)Customers are processed in the order of arrival.
D)Customers wait in a single line.
E)All of the above are assumptions.
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75
Figure
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of all items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
A small popular restaurant at an interstate truck stop provides priority service to truckers.The restaurant has ten tables where customers may be seated.The service time averages 40 minutes once a party is seated.The customer arrival rate is 12 parties per hour,with the parties being equally divided between truckers and non-truckers.
Refer to the following data for a multiple-server,nonpreemptive priority queueing model:
What is the average number of all items waiting in line for service?
A)0.
B)0.24.
C)1.74.
D)1.98.
E)2.22.
A small popular restaurant at an interstate truck stop provides priority service to truckers.The restaurant has ten tables where customers may be seated.The service time averages 40 minutes once a party is seated.The customer arrival rate is 12 parties per hour,with the parties being equally divided between truckers and non-truckers.
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Unlock Deck
Unlock for access to all 75 flashcards in this deck.
