Posterior sampling for opportunistic spectrum access with slow flat fading channels

Suleman Alnatheer, Hong Man

Research output: Contribution to journalConference articlepeer-review

Abstract

This paper considers the problem of opportunistic spectrum access in a slow flat fading stationary wireless environment, in which a cognitive agent with a single transceiver uses existing licensed spectrum to find the best possible channel to use. Each wireless channel is modeled as a k-state first order Markov chain, with one vacant (good) state and k-1 faded (bad) states. In addition, each channel is assumed as irreducible, aperiodic, and non-reactive to cognitive agent actions. An algorithm is proposed based on posterior sampling that learns best channel to use without any prior knowledge about wireless environment. The idea is to assign a Dirichlet distribution to each state in every channel, and then greedily select a channel with the highest limiting probability of being in a vacant state. An error correction scheme was also proposed to mitigate misclassification of deeply faded states, which occurs when transmitter unintentionally interferes with licensed users. Simulations of the proposed algorithm were presented at the end this paper, which show superior performance compared to other algorithms in case of perfect detections. Also, simulations of the proposed error correction scheme show an improved performance as cooperation with other agents increases. To the best our knowledge, this is the first paper to use learning algorithms for fading channel that is modeled as K-state Markov chain.

Original languageEnglish
Article number7391091
JournalIEEE Vehicular Technology Conference
Issue numberVOL
DOIs
StatePublished - 2015
Event82nd IEEE Vehicular Technology Conference, VTC Fall 2015 - Boston, United States
Duration: 6 Sep 20159 Sep 2015

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