3rd International ICST Workshop on Cognitive Radio Network

Research Article

Opportunistic Spectrum Access with Channel Bonding

  • @INPROCEEDINGS{10.1109/CHINACOM.2009.5339750,
        author={Yao Lu and Hao He and Jun Wang and Shaoqian Li},
        title={Opportunistic Spectrum Access with Channel Bonding},
        proceedings={3rd International ICST Workshop on Cognitive Radio Network},
        publisher={IEEE},
        proceedings_a={CRNET},
        year={2009},
        month={11},
        keywords={Opportunistic spectrum access; cognitive radio; channel bonding; Partially observable Markov decision process},
        doi={10.1109/CHINACOM.2009.5339750}
    }
    
  • Yao Lu
    Hao He
    Jun Wang
    Shaoqian Li
    Year: 2009
    Opportunistic Spectrum Access with Channel Bonding
    CRNET
    IEEE
    DOI: 10.1109/CHINACOM.2009.5339750
Yao Lu1,*, Hao He1,*, Jun Wang1,*, Shaoqian Li1,*
  • 1: National Key Lab of Communications University of Electronic Science and Technology of China Chengdu, China
*Contact email: sdgry@126.com, hh@uestc.edu.cn, junwang@uestc.edu.cn, lsq@uestc.edu.cn

Abstract

The design of opportunistic spectrum access (OSA) policy is a key technique of cognitive radio. In this paper, we consider a scenario that the secondary user can’t sense full spectrum due to hardware constraints. In order to get higher transmission rate, we allow the secondary user sense multiple channels in a slot and group them together by channel bonding technique after detecting consecutive idle channels. Taking sensing cost into consideration, we formulate this problem as a Partially Observable Markov Decision Process (POMDP) and obtain optimal strategy. To avoid the prohibitive computational complexity of this optimal strategy, a suboptimal strategy with low complexity is developed. We also propose an improved strategy offering high performance while keeping the complexity low. Numerical results show that the performance of suboptimal strategy approaches the optimal strategy and the improved strategy provides impressive performance.