Optimal Cognitive Access of Markovian Channels under Tight Collision Constraints

The problem of cognitive access of channels of primary users by a secondary user is considered. The transmissions of primary users are modeled as independent continuous-time Markovian on-off processes. A secondary cognitive user employs slotted transmissions, and it senses one of the possible channels before transmission. The objective of the cognitive user is to maximize its throughput subject to collision constraints imposed by the primary users. The optimal access strategy is in general a solution of a constrained partially observable Markov decision process, which involves a constrained optimization in an infinite dimensional functional space. It is shown in this paper that, when the collision constraints are tight, the optimal access strategy can be implemented by a simple memoryless access policy with periodic channel sensing. Numerical results are presented to validate and extend the analysis for different practical scenarios.

[1]  Brian M. Sadler,et al.  Cognitive Medium Access: Constraining Interference Based on Experimental Models , 2008, IEEE Journal on Selected Areas in Communications.

[2]  Bhaskar Krishnamachari,et al.  On myopic sensing for multi-channel opportunistic access: structure, optimality, and performance , 2007, IEEE Transactions on Wireless Communications.

[3]  Brian M. Sadler,et al.  A Survey of Dynamic Spectrum Access , 2007, IEEE Signal Processing Magazine.

[4]  Ananthram Swami,et al.  A Decision-Theoretic Framework for Opportunistic Spectrum Access , 2007, IEEE Wireless Communications.

[5]  Brian M. Sadler,et al.  Opportunistic Spectrum Access via Periodic Channel Sensing , 2008, IEEE Transactions on Signal Processing.

[6]  Martin L. Puterman,et al.  Markov Decision Processes: Discrete Stochastic Dynamic Programming , 1994 .

[7]  Brian M. Sadler,et al.  Dynamic Spectrum Access in the Time Domain : Modeling and Exploiting Whitespace , 2007 .

[8]  Ananthram Swami,et al.  Joint Design and Separation Principle for Opportunistic Spectrum Access in the Presence of Sensing Errors , 2007, IEEE Transactions on Information Theory.

[9]  Mingyan Liu,et al.  Optimality of Myopic Sensing in Multi-Channel Opportunistic Access , 2008, 2008 IEEE International Conference on Communications.

[10]  Brian M. Sadler,et al.  Optimal Dynamic Spectrum Access via Periodic Channel Sensing , 2007, 2007 IEEE Wireless Communications and Networking Conference.

[11]  Ian F. Akyildiz,et al.  A survey on spectrum management in cognitive radio networks , 2008, IEEE Communications Magazine.

[12]  Lang Tong,et al.  Optimal Cognitive Access of Markovian Channels under Tight Collision Constraints , 2011, IEEE J. Sel. Areas Commun..

[13]  Ian F. Akyildiz,et al.  NeXt generation/dynamic spectrum access/cognitive radio wireless networks: A survey , 2006, Comput. Networks.

[14]  E. Altman Constrained Markov Decision Processes , 1999 .

[15]  Ananthram Swami,et al.  Decentralized cognitive MAC for opportunistic spectrum access in ad hoc networks: A POMDP framework , 2007, IEEE Journal on Selected Areas in Communications.

[16]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[17]  Q. Zhao,et al.  Decentralized cognitive mac for dynamic spectrum access , 2005, First IEEE International Symposium on New Frontiers in Dynamic Spectrum Access Networks, 2005. DySPAN 2005..

[18]  Qing Zhao,et al.  Decentralized multi-armed bandit with multiple distributed players , 2010, 2010 Information Theory and Applications Workshop (ITA).

[19]  D. Bertsekas,et al.  Approximate solution methods for partially observable markov and semi-markov decision processes , 2006 .

[20]  Zhi Ding,et al.  Opportunistic spectrum access in cognitive radio networks , 2008, IJCNN.

[21]  Lang Tong,et al.  Interference-aware OFDMA resource allocation: A predictive approach , 2008, MILCOM 2008 - 2008 IEEE Military Communications Conference.

[22]  Ao Tang,et al.  Opportunistic Spectrum Access with Multiple Users: Learning under Competition , 2010, 2010 Proceedings IEEE INFOCOM.

[23]  Lang Tong,et al.  Multiuser cognitive access of continuous time Markov channels: Maximum throughput and effective bandwidth regions , 2010, 2010 Information Theory and Applications Workshop (ITA).

[24]  Zhi Ding,et al.  Optimal Sensing-Transmission Structure for Dynamic Spectrum Access , 2009, IEEE INFOCOM 2009.

[25]  Brian M. Sadler,et al.  COGNITIVE RADIOS FOR DYNAMIC SPECTRUM ACCESS - Dynamic Spectrum Access in the Time Domain: Modeling and Exploiting White Space , 2007, IEEE Communications Magazine.

[26]  Lang Tong,et al.  Delay Analysis for Cognitive Radio Networks with Random Access: A Fluid Queue View , 2010, 2010 Proceedings IEEE INFOCOM.

[27]  W.H. Tranter,et al.  Dynamic spectrum allocation in cognitive radio using hidden Markov models: Poisson distributed case , 2007, Proceedings 2007 IEEE SoutheastCon.