Multi-objective Optimization of Power Control and Resource Allocation for Cognitive Wireless Networks

Multi-objective Optimization of Power Control and Resource Allocation for Cognitive Wireless Networks

Resource optimization is a very important aspect in cognitive radio network (CRN). It is a typical multi-objective optimization problem. This paper proposes a mixed multi-objective immune cloning genetic algorithm (MMGA) to solve the optimization of resource allocation in CRNs. Based on the genetic...

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Hauptverfasser: Yujun Bao, Hong Jiang, Yuqing Huang, Rongchun Hu
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bandwidth
Cloning
cognitive network
Computer networks
Frequency
Genetic algorithms
Immune system
immunization
multi-objective optimization
Power control
Resource management
Testing
Wireless networks
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Zusammenfassung:Resource optimization is a very important aspect in cognitive radio network (CRN). It is a typical multi-objective optimization problem. This paper proposes a mixed multi-objective immune cloning genetic algorithm (MMGA) to solve the optimization of resource allocation in CRNs. Based on the genetic algorithm of non-domination sort, the MMGA adds external memory immune operator and cloning operator to effectively improve the searching performance. To evaluate the performance of MMGA, we compare it to NSGA-II with three typical test functions. From the results, the MMGA can solve multi-objective optimization problems more effectively than the NSGA-II. Simultaneously, the MMGA is used to optimize the frequency bandwidths and bandwidth-footprint product in CRNs. The simulation results show that MMGA can effectively solve the optimization of resource allocation in CRNs.
DOI:10.1109/ICIS.2009.17