分组比例公平M-GSO优化的FBMC认知无线电资源分配算法
|
摘要
多用户混合业务的多载波认知无线电系统中,考虑频谱感知错误的实际情况,将分组比例公平思想融入资源分配中,提出一种改进群智能优化算法。该算法针对混合型业务,确保不同用户公平性以及基于滤波器组多载波(FBMC)技术前提下,引入状态因子,以最大化认知无线电系统吞吐量为目标,利用改进群智能算法合理分配系统资源。比较FBMC和OFDM的认知无线电系统,仿真分析表明,该算法在对授权用户通信影响很小的情况下,系统容量优于OFDM的认知无线电系统容量,且确保用户的公平,同时满足混合业务的QoS需求。
In the multi-carrier cognitive radio system with multiuser mixed business,the grouping proportional fairness thought is fused into the resource allocation according to the actual situation of spectrum sensing error to propose an improved swarm intelligence algorithm. On the promising the fairness of different users and on the basis of filter bank multicarrier(FBMC)technology,the state factor is introduced into the algorithm for mixed business to maximize the cognitive radio system.The swam intelligence algorithm is used to allocate the system resources reasonably for the multiuser business. The cognitive radio systems based on FBMC and OFDM are compared. The simulation analysis results show that the capacity of cognitive radio system based on FBMC is better than that of cognitive radio system based on OFDM while the algorithm has low influence on primary user communication,and the algorithm can ensure the fairness of users,and satisfy the QoS requirement of mixed business.
In the multi-carrier cognitive radio system with multiuser mixed business,the grouping proportional fairness thought is fused into the resource allocation according to the actual situation of spectrum sensing error to propose an improved swarm intelligence algorithm. On the promising the fairness of different users and on the basis of filter bank multicarrier(FBMC)technology,the state factor is introduced into the algorithm for mixed business to maximize the cognitive radio system.The swam intelligence algorithm is used to allocate the system resources reasonably for the multiuser business. The cognitive radio systems based on FBMC and OFDM are compared. The simulation analysis results show that the capacity of cognitive radio system based on FBMC is better than that of cognitive radio system based on OFDM while the algorithm has low influence on primary user communication,and the algorithm can ensure the fairness of users,and satisfy the QoS requirement of mixed business.
引文
[1] YU Bin,MA Piming,MA Yanbo. Resource allocation and energy management in OFDM-based cellular systems[C]//2016 IEEE International Conference on Communication System. Shenzhen,China:IEEE,2016:1-6.
[2] JIA Min,GU Xuemai,GUO Qing,et al. Broadband hybrid satellite-terrestrial communication systems based on cognitive radio toward 5G[J]. IEEE wireless communications,2016,12(23):96-106.
[3] NI Chunxing,FENG Mingjie,LUO Kai,et al. Additive cancellation signal method for sidelobe suppression in NC-OFDM based cognitive radio systems[C]//2015 IEEE Global Communications Conference. San Diego:IEEE,2015:1-5.
[4] FARHANG-BOROUJENY B. OFDM versus filter bank multicarrier[J]. IEEE signal processing magazine,2011,28(3):92-112.
[5]尤肖虎,潘志文,高西奇,等.5G移动通信发展趋势与若干关键技术[J].中国科学,2014,44(5):551-563.YOU Xiaohu,PAN Zhiwen,GAO Xiqi,et al. Development trend of 5G mobile communication and several key technologies[J]. China science,2014,44(5):551-563.
[6] MAO J,XIE G,GAO J,et al. Energy efficiency optimization for OFDM-based cognitive radio systems:a water filling factor aided search method[J]. IEEE transactions on wireless communications,2013,12(5):2366-2375.
[7] WANG Qian,ZHANG Hang,CHEN Qian,et al. A modified genetic algorithm for resource allocation in OFDM-based cognitive radio systems[J]. Wavelet active media technology and information processing,2015,9(12):18-20.
[8] SHAAT M,BADER F. An uplink resource allocation algorithm for OFDM and FBMC based cognitive radio systems[C]//Proceedings of 2010 Cognitive Radio Oriented Wireless Networks&Communications. Cannes:IEEE,2010:1-6.
[9] ZHANG H J,RUYET D L,ROVIRAS D,et al. Uplink capacity comparison of OFDM/FBMC based cognitive radio networks[C]//2010 IEEE International Conference on Communications.[S.l.]:IEEE,2010:1-5.
[10] LI Yongmei,ZHOU Yongquan,WEI Jun. Using hierarchical structure glowworm swarm algorithm for function optimization[J]. Journal of applied sciences-electronics and information engineering,2012,30(4):391-396.
[11] WEISS T,HILLENBRAND J,KROHN A,et al. Mutual interference in OFDM-based spectrum pooling systems[C]//Proceedings of the 59th Vehicular Technology Conference. Washington DC,USA:IEEE,2004:1873-1877.
[12] GE Mengyao,WANG Shaowei. Fast optimal resource allocation is possible for multiuser OFDM-based cognitive radio networks with heterogeneous services[J]. IEEE transactions on wireless communications,2012,11(4):1500-1509.
[13]张伟.认知OFDM系统建模及资源分配技术研究[D].邯郸:河北工程大学,2014.ZHANG Wei. Cognitive OFDM system modeling and resource allocation technology research[D]. Handan:Hebei University of Engineering,2014.
[2] JIA Min,GU Xuemai,GUO Qing,et al. Broadband hybrid satellite-terrestrial communication systems based on cognitive radio toward 5G[J]. IEEE wireless communications,2016,12(23):96-106.
[3] NI Chunxing,FENG Mingjie,LUO Kai,et al. Additive cancellation signal method for sidelobe suppression in NC-OFDM based cognitive radio systems[C]//2015 IEEE Global Communications Conference. San Diego:IEEE,2015:1-5.
[4] FARHANG-BOROUJENY B. OFDM versus filter bank multicarrier[J]. IEEE signal processing magazine,2011,28(3):92-112.
[5]尤肖虎,潘志文,高西奇,等.5G移动通信发展趋势与若干关键技术[J].中国科学,2014,44(5):551-563.YOU Xiaohu,PAN Zhiwen,GAO Xiqi,et al. Development trend of 5G mobile communication and several key technologies[J]. China science,2014,44(5):551-563.
[6] MAO J,XIE G,GAO J,et al. Energy efficiency optimization for OFDM-based cognitive radio systems:a water filling factor aided search method[J]. IEEE transactions on wireless communications,2013,12(5):2366-2375.
[7] WANG Qian,ZHANG Hang,CHEN Qian,et al. A modified genetic algorithm for resource allocation in OFDM-based cognitive radio systems[J]. Wavelet active media technology and information processing,2015,9(12):18-20.
[8] SHAAT M,BADER F. An uplink resource allocation algorithm for OFDM and FBMC based cognitive radio systems[C]//Proceedings of 2010 Cognitive Radio Oriented Wireless Networks&Communications. Cannes:IEEE,2010:1-6.
[9] ZHANG H J,RUYET D L,ROVIRAS D,et al. Uplink capacity comparison of OFDM/FBMC based cognitive radio networks[C]//2010 IEEE International Conference on Communications.[S.l.]:IEEE,2010:1-5.
[10] LI Yongmei,ZHOU Yongquan,WEI Jun. Using hierarchical structure glowworm swarm algorithm for function optimization[J]. Journal of applied sciences-electronics and information engineering,2012,30(4):391-396.
[11] WEISS T,HILLENBRAND J,KROHN A,et al. Mutual interference in OFDM-based spectrum pooling systems[C]//Proceedings of the 59th Vehicular Technology Conference. Washington DC,USA:IEEE,2004:1873-1877.
[12] GE Mengyao,WANG Shaowei. Fast optimal resource allocation is possible for multiuser OFDM-based cognitive radio networks with heterogeneous services[J]. IEEE transactions on wireless communications,2012,11(4):1500-1509.
[13]张伟.认知OFDM系统建模及资源分配技术研究[D].邯郸:河北工程大学,2014.ZHANG Wei. Cognitive OFDM system modeling and resource allocation technology research[D]. Handan:Hebei University of Engineering,2014.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |