Optimal Multi-Threshold Control for Wireless Mobile Networks
Communications and Mobile Computing, 2009. CMC '09. WRI International Conference(2009)
Abstract
In this paper we model the traffic of new and handoff calls in a single cell of wireless mobile networks by a finite buffer queueing system with two types of service classes and a so-called hysteresis multi-threshold based control policy. We describe the behavior of the system in term of a three-dimensional continuous-time Markov process (CTMP) and derive the steady-state distribution of the CTMP by the Stochastic Complementation approach. We calculate various performance measures such as the blocking and forced termination probabilities, and based on the numerical results we discuss the optimal multi-threshold control problem.
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Key words
three-dimensional continuous-time markov process,finite buffer queueing system,optimal multithreshold control,handoff call traffic,optimal multi-threshold control,control policy,service class,hysteresis multithreshold,optimal multi-threshold control problem,stochastic complementation approach,forced termination probabilities,queueing network,telecommunication congestion control,handoff call,queueing theory,numerical result,multi-threshold,finite buffer,mobile radio,steady-state distribution,telecommunication traffic,single cell,wireless mobile network,markov processes,so-called hysteresis,wireless mobile networks,three dimensional,mobile network,type of service,steady state,mobile communication,switches,wireless communication,mathematical model,servers
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