认知无线电中结合差异性的免疫克隆优化频谱分配算法

J4 ›› 2014, Vol. 36 ›› Issue (09): 1672-1677.

认知无线电中结合差异性的免疫克隆优化频谱分配算法

刘升1，陈志刚1,邝祝芳2

(1.中南大学软件学院，湖南长沙 410083;2.中南林业科技大学计算机与信息工程学院，湖南长沙 410004)

收稿日期:2012-12-24 修回日期:2013-04-24 出版日期:2014-09-25 发布日期:2014-09-25
基金资助:
国家自然科学基金资助项目（61073186）

Spectrum allocation algorithm in cognitive radio
based on immune-clonal-selection and difference

LIU Sheng1,CHEN Zhigang1,KUANG Zhufang2

(1.School of Software Engineering,Central South University,Changsha 410083;
2.School of Computer Information Engineering,Central South University of Forestry,Changsha 410004,China)

Received:2012-12-24 Revised:2013-04-24 Online:2014-09-25 Published:2014-09-25

摘要/Abstract

摘要：

频谱分配是认知无线电中的重要问题，而传统的频谱分配算法并未考虑频谱的差异性。提出一种基于免疫克隆优化算法、考虑频谱差异性的频谱分配算法，算法引入可信度矩阵对频谱的时间差异性进行建模。进行约束处理时，通过差异性算子(DCSO)的使用能将可信度更高的频谱分配给认知用户，从而提高系统的总收益。对于冲突激烈的认知用户，使用公平性算子（FCSO）能够增加它们被分配频谱资源的可能性，从而提高系统的公平性效益。仿真实验表明，相较于传统的免疫克隆优化算法、颜色敏感算法和遗传算法，本算法能显著增加网络的总收益、可信度，提高网络的公平性。

关键词: 认知无线电, 频谱分配, 免疫克隆优化, 差异性, 公平性

Abstract:

Spectrum allocation is an important issue in cognitive radio, but the spectrum difference is rarely discussed in traditional spectrum allocation algorithms. A new spectrum allocation algorithm is proposed, which is based on Immune-Clonal-Selection (ICS) and takes account of the spectrum difference. A reliability matrix is introduced to model the time difference of spectrum. The algorithm shows a rise in total network bandwidth by using the Difference-Constraint Satisfaction Operator when two cognitive users have interference using the same spectrum. The DifferenceConstraint Satisfaction Operator can allocate spectrum in higher credibility to cognitive users. The algorithm also shows an improvement in fairness by using the Fairness-Constraint Satisfaction Operator to deal with the interference. The Fairness-Constraint Satisfaction Operator can allocate spectrum to cognitive users with more intensive conflicts. Simulation results show that, compared with the traditional ICS algorithm and color-sensitive graph coloring (CSGC) algorithm and Genetic algorithm (GA), DICS can achieve higher total network bandwidth, higher credibility and better fairness.

Key words: cognitive radio;spectrum allocation;immune-clonal-selection;differences;fairness

刘升1，陈志刚1,邝祝芳2. 认知无线电中结合差异性的免疫克隆优化频谱分配算法[J]. J4, 2014, 36(09): 1672-1677.

LIU Sheng1,CHEN Zhigang1,KUANG Zhufang2. Spectrum allocation algorithm in cognitive radio
based on immune-clonal-selection and difference [J]. J4, 2014, 36(09): 1672-1677.

参考文献［10］

［1］	Federal Communications Commission. Facilitating opportunities for flexible, efficient, and reliable spectrum use employing cognitive radio technologies［Z］. ET Docket No. 03108, 2003:1318.
［2］	FCC Workshop on Cognitive Radios. Frequency agile spectrum access technologies［Z］.2003:2426.
［3］	Ercan A O,Lee J,Pollin S,et al.A revenue enhancing stackelberg game for owners in opportunistic spectrum access［C］∥Proc of IEEE Symposium on New Frontiers in Dynamic Spectrum, 2008:18.
［4］	Niyato D, Hossain E.Competitive pricing for spectrum sharing in cognitive radio networks:Dynamic game, inefficiency of nash equilibrium, and collusion［J］.IEEE Journal on Selected Areas in Communications, 2008, 26(1):192202.
［5］	Wang Wei, Liu Xin. Listcoloring based channel allocation for openspectrum wireless networks［C］∥Proc of the 62nd IEEE Vehicular Technology Conference(VTC), 2005:690694.
［6］	Chantaraskul S,Moessner K.Implementation of a genetic algorithmbased decision making framework for opportunistic radio［J］. IET Communications, 2010, 4(5):495506.
［7］	Ge Wendong, Ji Hong, Si Pengbo,et al. Optimal subcarrier allocation for cognitive radio with multiuser OFDM and distributed antenna ［J］. Journal of Southeast University (English Edition), 2010, 26(4):513517.
［8］	Wang Xiaofei,Chen Yuebing,Zhang Xi,et al.Immune clonal selection based spectrum assignment for cognitive radio networks［J］. Journal of Electronics & Information Technology, 2011, 33(7): 15611567.(in Chinese)
［9］	Chai Zhengyi, Liu Fang. Spectrum allocation of cognitive wireless network based on immune clone selection optimization［J］. Journal on Communications, 2010, 31(11): 92100.(in Chinese)
［10］	Du Wenfeng, Liu Yatao, Ming Zhong. Service type based dynamic spectrum choice scheme for cognitive radio［J］. Journal of Chinese Computer Systems, 2011, 32(8):15071514.(in Chinese)
［11］	Peng C, Zheng H, Zhao B. Utilization and fairness in spectrum assignment for opportunistic spectrum access［J］.Mobile Networks and Applications, 2006, 11(4):555576.
［12］	Urgaonkar R, Neely M J. Opportunistic scheduling with reliability guarantees in cognitive radio networks［C］∥Proc of IEEE 27th Conference on Computer Communications(INFOCOM 2008), 2008:13011309.
［13］	Liu Q,Zhou S,Giannalds G B.Queuing with adaptive modulation and coding over wirelss links:Crosslayer analysis and design［J］.IEEE Transactions on Wireless Communications, 2005, 4(3):11421153.
［14］	Chowdhury K R, Akyildiz I F. CRP: A routing protocol for cognitive radio Ad Hoc networks［J］.IEEE Journal on Selected Areas in Communications, 2010, 29(4):794804.
	附中文参考文献：
［8］	王晓飞，陈岳兵，张希，等. 基于免疫克隆选择的认知无线网络频谱分配研究［J］. 电子与信息学报, 2011, 33(7):15611567.
［9］	柴争义，刘芳. 基于免疫克隆选择优化的认知无线网络频谱分配［J］. 通信学报，2010, 31(11):92100.
［10］	杜文峰，刘亚涛，明仲. 业务类型感知的认知无线电动态频谱选择算法［J］. 小型微型计算机系统，2011, 32(8):15071514.

[1]	林彦佳, 武继刚, 吴嘉鑫, 陈龙. 面向公平保障的共乘定价与匹配算法[J]. 计算机工程与科学, 2022, 44(07): 1291-1301.
[2]	贺智明，刘敏. 云环境下基于偏好的资源公平分配策略[J]. 计算机工程与科学, 2017, 39(11): 1991-1999.
[3]	张云蕾，刘开华，马永涛，李洋. 基于多频段传感器辅助认知无线电网络的高能效传感器调度算法[J]. 计算机工程与科学, 2017, 39(08): 1438-1443.
[4]	林雪松1，杨万清1，夏元斗1，程松2. 基于认知的智能电网家域接入控制网络非合作博弈功率控制算法比较研究[J]. 计算机工程与科学, 2016, 38(12): 2529-2535.
[5]	龙敏，吴靓. 认知无线电网络中安全的协作频谱检测算法[J]. 计算机工程与科学, 2016, 38(10): 2045-2050.
[6]	杨亚琪，栾钟治，杨海龙，杨姝，钱德沛. 异构多核下兼顾应用公平性和能耗的调度方法研究[J]. J4, 2016, 38(05): 848-856.
[7]	刘觉夫，杨将，王建旭，胡静. 基于拍卖理论和高斯过程回归学习的频谱分配算法[J]. J4, 2016, 38(05): 914-920.
[8]	孔得凯，吴克宇，韩方景，韩方剑. 认知无线电网络中基于信道跳频序列的异步交汇算法研究[J]. J4, 2014, 36(10): 1872-1879.
[9]	陈小惠，徐晶，刘威，程文青. 可变频宽无线网络中信道频谱分配与链路调度[J]. J4, 2014, 36(09): 1656-1661.
[10]	刘觉夫，陈晓. 基于空间拥塞博弈的自适应负载频谱分配算法研究[J]. J4, 2013, 35(7): 64-70.
[11]	罗孟宇1，陈志刚1，邝祝芳1，2. 基于频域复杂度分析的频谱感知算法[J]. J4, 2013, 35(6): 52-56.
[12]	周健1，2，3,余永红1,孙丽艳1. 基于随机图的CR Ad Hoc网络频谱管理方案[J]. J4, 2013, 35(12): 84-89.
[13]	刘玉涛1,2,宋志群1,谭学治2. 基于最大加权独立集的频谱分配算法[J]. J4, 2012, 34(6): 158-162.
[14]	周璇,汪学明. 微支付协议Millicent的改进与模型检测[J]. J4, 2012, 34(12): 22-26.
[15]	杨文忠，张振宇，吴向前. 认知无线电网络中QoS组播路由调度[J]. J4, 2012, 34(10): 6-10.