(Lesson   3.4:   Single-Server   Queue.)   Consider   a   single-server   Q   with   LIFO   (last-in-firstout)   services.    &nbs

a) Consider a single-server Q with LIFO (last-in-first out) services. Suppose that three customers show up...

a) Consider a single-server Q with LIFO (last-in-first out) services. Suppose that three customers show up at times 5, 6, and 8, and that they all have service times of 4. When does customer 2 leave the system? (a) 3; (b) 9; (c) 13; (d) 17; (e) 19

Consider a two-server queue with Exponential arrival rate λ. Suppose servers 1 and 2 have exponential...

Consider a two-server queue with Exponential arrival rate λ. Suppose servers 1 and 2 have exponential rates μ1 and μ2, with μ1 > μ2. If server 1 becomes idle, then the customer being served by server 2 switches to server 1. a) Identify a condition on λ,μ1,μ2 for this system to be stable, i.e., the queue does not grow indefinitely long. b) Under that condition, and the long-run proportion of time that server 2 is busy.

6. Consider a queueing system having two servers and no queue. There are two types of...

6. Consider a queueing system having two servers and no queue. There are two types of customers. Type 1 customers arrive according to a Poisson process having rate ??, and will enter the system if either server is free. The service time of a type 1 customer is exponential with rate ??. Type 2 customers arrive according to a Poisson process having rate ??. A type 2 customer requires the simultaneous use of both servers; hence, a type 2 arrival...

Burger house sells hamburgers, cheeseburgers, French fries, soft drinks, and milkshakes, as well as a limited...

Burger house sells hamburgers, cheeseburgers, French fries, soft drinks, and milkshakes, as well as a limited number of specialty items and dessert selections. Although Burger house would like to serve each customer immediately, at times more customers arrive than can be handled by the Burger house food service staff. Thus, customers wait in line to place and receive their orders. Suppose that Burger house analyzed data on customer arrivals and concluded that the arrival rate is 45 customers per hour...

Please answer the entire problem! Problem 15-25 (Algorithmic) Burger Dome sells hamburgers, cheeseburgers, French fries, soft...

Please answer the entire problem! Problem 15-25 (Algorithmic) Burger Dome sells hamburgers, cheeseburgers, French fries, soft drinks, and milk shakes, as well as a limited number of specialty items and dessert selections. Although Burger Dome would like to serve each customer immediately, at times more customers arrive than can be handled by the Burger Dome food service staff. Thus, customers wait in line to place and receive their orders. Suppose that Burger Dome analyzed data on customer arrivals and concluded...

Burger Dome sells hamburgers, cheeseburgers, French fries, soft drinks, and milk shakes, as well as a...

Burger Dome sells hamburgers, cheeseburgers, French fries, soft drinks, and milk shakes, as well as a limited number of specialty items and dessert selections. Although Burger Dome would like to serve each customer immediately, at times more customers arrive than can be handled by the Burger Dome food service staff. Thus, customers wait in line to place and receive their orders. Suppose that Burger Dome analyzed data on customer arrivals and concluded that the arrival rate is 33 customers per...

Problem 15-25 (Algorithmic) Burger Dome sells hamburgers, cheeseburgers, French fries, soft drinks, and milk shakes, as...

Problem 15-25 (Algorithmic) Burger Dome sells hamburgers, cheeseburgers, French fries, soft drinks, and milk shakes, as well as a limited number of specialty items and dessert selections. Although Burger Dome would like to serve each customer immediately, at times more customers arrive than can be handled by the Burger Dome food service staff. Thus, customers wait in line to place and receive their orders. Suppose that Burger Dome analyzed data on customer arrivals and concluded that the arrival rate is...

Consider a queuing system in which the number of servers is adjusted depending on the number...

Consider a queuing system in which the number of servers is adjusted depending on the number of customers currently in the system. You see this routinely in many businesses – from coffee shops to restaurants to grocery stores – where additional employees are called in whenever the number of people in the system reaches some integer value. For example, if the number of people in the system is 10 or more, a second server is called up, and this doubles...

1. Willow Brook National Bank operates a drive-up teller window that allows customers to complete bank...

1. Willow Brook National Bank operates a drive-up teller window that allows customers to complete bank transactions without getting out of their cars. On weekday mornings, arrivals to the drive-up teller window occur at random, with an arrival rate of 6 customers per hour or 0.1 customers per minute. Also assume that the service times for the drive-up teller follow an exponential probability distribution with a service rate of 54 customers per hour, or 0.9 customers per minute. Determine the...

for the scenario below: 1) Apply the qualitative analysis by identifying at least 3 issues in...

for the scenario below: 1) Apply the qualitative analysis by identifying at least 3 issues in the above process. Analyse these issues by using a. Adding-value and Waste Analysis b. Issue register, If you find that there are more than three issues, you can focus on the three issues that have the highest impact. 2). Calculate the cycle time efficiency of the as-is process. You can assume a working week of 40 hours. In case there is missing information, you...