期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

可信的反馈声誉保护协作频谱感知软判决算法

A Trusted Cooperative Spectrum Sensing Soft-decision Scheme Using Feedback Reputation Protection
下载PDF
导出
摘要 协作频谱感知中信任机制的引入,起到了抑制恶意用户频谱感知数据伪造(SSDF)攻击行为的作用。然而,数据融合中心不加区分地接收协作感知结束后的反馈信息,为恶意用户带来了实施"掺沙子"攻击的机会。恶意用户向数据融合中心反馈错误的主用户频谱状态,使信任机制不能得出准确的信任值。为此,提出了一种基于反馈声誉的信任机制,考虑反馈中的个体性特征,引入反馈声誉的思想来量化认知用户信任值。同时,将信任值量化结果用于权重经典软判决算法——序贯概率比检测(SPRT)算法,消除SSDF恶意用户参与软判决数据融合的影响,形成可信序贯概率比检测算法(FSPRT)。仿真结果表明FSPRT算法的性能优于传统SPRT算法,能有效降低网络信任值计算误差,并保持较好的感知性能。 The trust mechanism can suppress spectrum sensing data falsification( SSDF) attack caused by malicious users in cooperative sensing spectrum. However,the data fusion center receives the feedback in-formation indiscriminately at the end of cooperative spectrum sensing,which offers the chance for malicious users to launch“sanded” attack. By using the wrong feedback of malicious users about the status of prima-ry users,trust mechanism cannot get an accurate trust value. A novel trusted cooperative spectrum sensing soft-decision scheme using feedback reputation protection is proposed to avoid“sanded” attack. By consid-ering the individuality characteristic in the feedback,the idea of feedback reputation is introduced to quan-tify cognitive user’s trust value,which can be used to weight classic soft-decision sequential probability ra-tio test(SPRT) algorithm,and thus eliminating SSDF attack in the soft-decision data fusion. Simulations show that the novel scheme outperforms the conventional SPRT soft-decision schemes. The FSPRT scheme can reduce trust value error effectively,and maintain a better sensing performance.
作者 韩定坤 冯景瑜 卢光跃 石敏
机构地区 西安邮电大学无线网络安全技术国家工程实验室 中国科学院信息工程研究所信息安全国家重点实验室
出处 《电讯技术》 北大核心 2016年第6期605-611,共7页 Telecommunication Engineering
基金 国家自然科学基金资助项目(61301091) 陕西省自然科学基础研究计划项目(2014JQ8321) 陕西省工业攻关计划项目(2015GY013) 陕西省教育厅专项科研计划项目(15JK1671) 中国科学院信息安全国家重点实验室开放课题(2015-MS-14)~~
关键词 认知无线电 协作频谱感知 软判决 反馈声誉 信任机制 cognitive radio cooperative spectrum sensing soft decision feedback reputation trust mechanism
分类号 TN911.23 [电子电信—通信与信息系统]
  • 相关文献

参考文献16

  • 1AKYILDIZ I F,LEE W Y,VURAN M C,et al. Next gen-eration/ dynamic spectrum access/ cognitive radio wirelessnetworks:a survey [J]. Computer Networks, 2006, 50(13):2127-2159.
  • 2Ye Yinghui,Lu Guangyue.Blind spectrum sensing based on the ratio of mean square to variance[J].The Journal of China Universities of Posts and Telecommunications,2016,23(1):42-48. 被引量:4
  • 3CHEN R L,PARK J M,HOU Y T. Toward secure distribu-ted spectrum sensing in cognitive radio networks[J]. IEEECommunications Magazine,2008,46(4):50-55.
  • 4FENG J,ZHANG Y,LU G,et al. Securing cooperativespectrum sensing against ISSDF attack using dynamictrust evaluation in cognitive radio networks[J]. Security& Communication Networks,2015,8(17):3157-3166.
  • 5卢光跃,叶迎晖,孙宇,弥寅.克服噪声不确定度的拟合优度检验频谱感知算法[J].电讯技术,2016,56(1):26-31. 被引量:8
  • 6吴征,赵君喜.一种基于信任度的频谱感知数据融合算法[J].西安邮电学院学报,2011,16(5):26-30. 被引量:4
  • 7ZENG K,PAWELCZAK P,CABRIC D. Reputation-basedcooperative spectrum sensing with trusted nodes assistance[J]. IEEE Communication Letters,2010,14(03):226-228.
  • 8CHEN R,PARK J M,BIAN K. Robust distributed spec-trum sensing in cognitive radio networks[C] / / Proceed-ings of the 27th Conference on Computer Communica-tions. Phoenix,USA:IEEE,2008:1876-1884.
  • 9AKYILDIZ I F,LO B F,BALAKRISHNAN R. Cooperativespectrum sensing in cognitive radio networks:A survey[J]. Physical Communication,2011,4(1):40-62.
  • 10PEI Q Q,LIANG R,LI H N. A trust management modelin centralized cognitive radio networks[C] / / Proceedingsof the 2011 International Conference on Cyber-EnabledDistributed Computing and Knowledge Discovery. Bei-jing:IEEE,2011:491-496.

二级参考文献28

  • 1盛骤,谢式千,潘承毅.概率论与数理统计[M].4版.北京:高等教育出版社,2008:44-45.
  • 2Krikke J, Alfonsi B. Spectrum white space Measure- ments[C]//New America Foundation Broadband Fo- rum, USA, Shared Spectrum Company, 2003 : 110-119.
  • 3A. Sahai, N. Hoven and P,. Tandra. Some fundamen- tal limits in Cognitive radio[C]//Alleton Conf. on Communications, Control and Computing, Oct. 2004: 107-118.
  • 4H. Tang. Some physical layer issues of wide-band cog- nitive radio system[J]. IEEE DySPAN, 2005, 15(3):151-59.
  • 5S. Haykin. Cognitive radio: brain-empowered wirel-ess communications[J]. IEEE. Selected Areas in Commu- nications, 2005,23(2) : 201-220.
  • 6E. Visotsky, S. Kuffner, and R. Peterson. On collabora- tive detection of TV transmissions in support of dy- namic spectrum sharing [J]. Proc IEEE DySPAN, 2005,18(7) : 338-345.
  • 7J. Mitola. Cognitive radio, an integrated agent architec- ture for software defined radio[J]. Journal of Commu- nications and Networks, 2000,6 (1) : 234-240.
  • 8Feng Zhu, Seung-Woo Seo; Robust Cooperative Spec- trum Sensing in Cognitive radios[J]. Journal of Com- munications and Networks, 2009,11 (2) : 122-133.
  • 9Ruiliang Chela, Jung-Min Park, Kaigui Bian. Robust Distributed Spectrum Sensing in Cognitive Radio Net- works[C]//The 27th Conference on Computer Com- munications. IEEE, April 2008-1876-1884.
  • 10R. Chen and J. M. Park. Toward secure distributed spectrum sensing in cognitive radios networks[J]. Communications Magazine, 2006,46 ( 4 ) : 50-55.

共引文献12

电讯技术
2016年 第6期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部