In this paper, we treat a cell as an M/M/C/C queuing system with m class users. Semi-Markov decision process (SMDP) can be used to provide an optimal call admission control (CAC). The optimization is in the use of optimizing the channel utilization for service providers and satisfying the quality of service (QoS) requirements for service users, which are the upper bounds of handoff blocking probabilities. However, such methods fail when the state space and the action space are too large. We apply genetic algorithm approach to address such problems where the SMDP approach fails. We code the call admission control decisions as binary strings, where the value of "l" in the position i of the string stands for the decision of accepting a call in class-i; whereas, the value of "0" in the position i of the string stands for the decision of rejecting a call in class-i. The resulting binary strings from the genetic algorithm are the near optimal CAC decisions. Simulation results from the genetic algorithm are compared with the optimal solution obtained from linear programming for SMDP. The results reveal that the genetic algorithm approximates the optimal solution very well.
A near optimal call admission control with genetic algorithm for multimedia services in wireless/mobile networks
2000-01-01
561931 byte
Conference paper
Electronic Resource
English
British Library Conference Proceedings | 2000
|British Library Conference Proceedings | 2000
|Optimal call admission to a mobile cellular network
Automotive engineering | 1995
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