Braess's paradox in a queueing network with state-dependent routing

Braess's paradox in a queueing network with state-dependent routing

We consider initially two parallel routes, each of two queues in tandem, with arriving customers choosing the route giving them the shortest expected time in the system, given the queue lengths at the customer's time of arrival. All interarrival and service times are exponential. We then augmen...

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Veröffentlicht in:Journal of applied probability 1997-03, Vol.34 (1), p.134-154
Hauptverfasser: Calvert, Bruce, Solomon, Wiremu, Ziedins, Ilze
Format: Artikel
Sprache:eng
Schlagworte:
Approximation
Confidence interval
Crossovers
Decision analysis
Decision making
Markov analysis
Markov processes
Nash equilibrium
Network servers
Paradoxes
Queueing networks
Queuing theory
Research Papers
Routing
Simulation
Studies
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Zusammenfassung:We consider initially two parallel routes, each of two queues in tandem, with arriving customers choosing the route giving them the shortest expected time in the system, given the queue lengths at the customer's time of arrival. All interarrival and service times are exponential. We then augment this network to obtain a Wheatstone bridge, in which customers may cross from one route to the other between queues, again choosing the route giving the shortest expected time in the system, given the queue lengths ahead of them. We find that Braess's paradox can occur: namely in equilibrium the expected transit time in the augmented network, for some service rates, can be greater than in the initial network.
ISSN:0021-9002
1475-6072
DOI:10.2307/3215182