Title :
Fluid analysis of arrival routing
Author :
Veatch, Michael H.
Author_Institution :
Gordon Coll., Wehham, MA, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
In Hajek´s arrival routing problem (1984), customers are routed to one of n queues to minimize average holding cost. Interarrival and service times are exponentially distributed. We solve the associated fluid model. The optimal fluid policy tells us the asymptotic slopes of the switching surfaces in the original problem when the queues are large. If these slopes are nonzero, then numerical tests indicate that the fluid policy performs well in the original stochastic network. The fluid policy also indicates the approximate path that will be taken to recover from large queues: Routing only switches to queues with larger holding cost and once a large queue empties it will remain approximately empty
Keywords :
exponential distribution; minimisation; queueing theory; arrival routing problem; asymptotic slopes; average holding cost minimization; exponentially distributed interarrival times; exponentially distributed service times; fluid analysis; optimal fluid policy; queues; stochastic network; Control systems; Costs; Information analysis; Network servers; Performance evaluation; Polynomials; Routing; Stochastic processes; Switches; Testing;
Journal_Title :
Automatic Control, IEEE Transactions on
