Question
(a) Our local fast-food emporium, Burger Bliss, has yet to learn a lot about queueing theory. So it does not require that all waiting customers
(a) Our local fast-food emporium, Burger Bliss, has yet to learn a lot about
queueing theory. So it does not require that all waiting customers form
a single line, and instead they make every arrival randomly choose one
of three lines formed before each server during the weekday lunch period.
But they are so traditional about managing their lines that barriers
have been placed between the lines to prevent jockeying. Suppose that
the overall stream of incoming customers has settled in at a constant
rate of 60th (Poisson-distributed) and that the time to complete a customer's
order is well described by an exponential distribution of mean
150 seconds, independent and identically from one customer to the
next. Assuming steady state, what is the average total system size?
(b) The BB has now agreed that it is preferable to have one line feeding the
three servers, so the barriers have been removed. What is the expected
steady-state system size now?
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Discrete Mathematics, Edition
Authors: Seymour Lipschutz, Marc Lipson
4th Edition
126425881X, 9781264258819
