一种非理想感知条件下的双门限机会频谱接入策略

doi:10.3969/j.issn.1000-0801.2014.08.009

电信科学 ›› 2014, Vol. 30 ›› Issue (8): 60-65.doi: 10.3969/j.issn.1000-0801.2014.08.009

一种非理想感知条件下的双门限机会频谱接入策略

彭晓东¹,肖立民²,钟晓峰¹,周世东¹

¹ 清华大学电子工程系
² 清华信息科学与技术国家实验室北京100084

出版日期:2014-08-15 发布日期:2014-08-15
基金资助:
国家科技重大专项基金资助项目;国家重点基础研究发展计划（“973”计划）基金资助项目;国家自然科学青年基金资助项目;国家高技术研究发展计划（“863”计划）基金资助项目;清华自主科研基金资助项目;国家国际科技合作项目;爱立信合作项目

A Dual Threshold Based Opportunistic Spectrum Access Policy with Non-Ideal Spectrum Sensing

Xiaodong Peng¹,Limin Xiao²,Xiaofeng Zhong¹,Shidong Zhou¹

¹ Department of Electronic Engineering, Tsinghua University, Beijing 100084, China
² Tsinghua National Laboratory for Information Science and Technology, Beijing 100084, China

Online:2014-08-15 Published:2014-08-15

摘要/Abstract

摘要：

为了有效提高认知网络中次用户的吞吐率性能，提出了一种应用于非理想感知条件下的双门限机会频谱接入策略。该策略能在次用户对信道占用情况感知非理想的条件下，综合考虑次用户的信道质量和非准确的信道占用信息，使次用户在信道感知为空闲和占用时分别以不同的信道质量门限选择接入信道，从而最大程度地利用信道质量较好的传输机会，提高次用户的吞吐率性能。结合本策略，建立了以次用户的有效吞吐率最大化为目标、以对主用户的干扰程度为约束条件的优化问题，并在次用户对信道感知存在误差的条件下给出了最优门限的设计方法。仿真结果表明，所提出的双门限机会频谱接入策略能够在非理想感知条件下显著提高次用户的有效吞吐率。

关键词: 非理想频谱感知, 双门限, 机会频谱接入, 信道质量

Abstract:

To effectively improve the throughput performance of secondary user in cognitive networks, a dual threshold based opportunistic spectrum access policy was proposed, which could be implemented under the condition that secondary user had non-ideal spectrum sensing capability. The proposed policy can take both channel quality information of secondary user and the inaccurate channel occupation information into account, to make secondary user access the channel in sensed idle and busy states with different channel quality thresholds. Based on this, the throughput performance of secondary user can be improved significantly by utilizing the transmission opportunities with good channel quality. With this policy, an optimization problem maximizing the effective throughput of secondary user with interference constraint for protecting primary user was formulated, and the optimal channel quality thresholds were derived under non-ideal spectrum sensing. Simulation results demonstrate the effective throughput performance of secondary user with non-ideal spectrum sensing capability can be improved significantly by implementing the proposed dual threshold based opportunistic spectrum access policy.

Key words: non-ideal spectrum sensing, dual threshold, opportunistic spectrum access, channel quality

彭晓东,肖立民,钟晓峰,周世东. 一种非理想感知条件下的双门限机会频谱接入策略[J]. 电信科学, 2014, 30(8): 60-65.

Xiaodong Peng,Limin Xiao,Xiaofeng Zhong,Shidong Zhou. A Dual Threshold Based Opportunistic Spectrum Access Policy with Non-Ideal Spectrum Sensing[J]. Telecommunications Science, 2014, 30(8): 60-65.

图/表 3

参考文献 15

1	Zhao Q , Sadler B . A survey of dynamic spectrum access. IEEE Signal Processing Magazine, 2007, 24(3): 79～89
2	Zhao Q , Geirhofer S , Tong L , et al. Opportunistic spectrum access via periodic channel sensing. IEEE Transactions on Signal Processing, 2008, 56(2): 785～796
3	Li X , Zhao Q , Guan X , et al. Optimal cognitive access of Markovian channels under tight collision constraints. IEEE Journal on Selected Areas Communication, 2011, 29(4): 746～756
4	Chen S , Tong L . Maximum throughput region of multiuser cognitive access of continuous time Markovian channels. IEEE Journal on Selected Areas Communication, 2011, 29(10): 1959～1969
5	Chen S , Tong L . Multiuser cognitive access of continuous time Markov channels: maximum throughput and effective bandwidth regions. Proceedings of Information Theory and Applications Workshop（ITA）， San Diego, CA， 2010: 1～10
6	Xu Y , Wang J , Wu Q , et al. Opportunistic spectrum access in unknown dynamic environment: a game-theoretic stochastic learning solution. IEEE Transactions on Wireless Communication, 2012, 11(4): 1380～1391
7	Kim K , Kwak K , Choi B . Performance analysis of opportunistic spectrum access protocol for multi-channel cognitive radio networks. Journal on Communication Network, 2013, 15(1): 77～86
8	Tan S , Zeidler J , Rao B . Opportunistic channel-aware spectrum access for cognitive radio networks with interleaved transmission and sensing. IEEE Transactions on Wireless Communication, 2013, 12(5): 2376～2388
9	Peng X D , Xiao L M , Zhong X F , et al. Modeling and analysis of an opportunistic transmission scheme based on channel quality information in multi-channel cognitive networks. Proceedings of IEEE WCNC 2013, IEEE Press, Shanghai, China, 2013: 297～302
10	Peng X D , Zhong X F , Xiao L M , et al. Robust opportunistic spectrum access based on channel quality information in varying multi-channel networks. Proceedings of IEEE GLOBECOM 2013, Atlanta, GA, IEEE Press, 2013
11	Peng X D , Zhong X F , Xiao L M , et al. Opportunistic spectrum access based on channel quality under general collision constraints. Proceedings of IEEE PIMRC 2013, IEEE Press, London, UK, 2013
12	Shu T , Krunz M . et al. Throughput-efficient sequential channel sensing and probing in cognitive radio networks under sensing errors. Proceedings of ACM 2009 MobiCom, Beijing, China, 2009: 37～48
13	Liang Y , Zeng Y , Peh E , et al. Sensing-throughput tradeoff for cognitive radio networks. IEEE Transactions on Wireless Communication, 2008, 7(4): 1326～1337
14	Geirhofer S , Tong L , Sadler B . Cognitive medium access:constraining interference based on experimental models. IEEE Journal on Selected Areas Communication, 2008, 26(1): 95～105
15	Geirhofer S , Tong L , Sadler B . A measurement-based model for dynamic spectrum access in WLAN channels. Proceedings of IEEE MILCOM 2006, IEEE Press, Washington DC, USA, 2006: 1～7

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一种非理想感知条件下的双门限机会频谱接入策略

A Dual Threshold Based Opportunistic Spectrum Access Policy with Non-Ideal Spectrum Sensing

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