Optimal admission control of secondary users in preemptive cognitive radio networks

Optimal admission control of secondary users in preemptive cognitive radio networks

We study optimal admission control of secondary users (SUs) in cognitive radio (CR) networks in presence of preemption. In this model, when a primary user (PU) arrives to the system and finds all the channels busy, it preempts an SU unless all the users in the system are PUs. We apply admission cont...

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Bibliographische Detailangaben
Hauptverfasser: Turhan, Aylin, Alanyali, Murat, Starobinski, David
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Ad hoc networks
Admission control
Aerospace electronics
Computational modeling
Dynamic programming
Equations
Markov processes
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Beschreibung
Zusammenfassung:We study optimal admission control of secondary users (SUs) in cognitive radio (CR) networks in presence of preemption. In this model, when a primary user (PU) arrives to the system and finds all the channels busy, it preempts an SU unless all the users in the system are PUs. We apply admission control on the SUs only. Using dynamic programming (DP), we find the optimal admission control policy that maximizes the long-run average profit. As our main contribution, we show that the optimal admission control of the SUs depends only on the total number of users in the system (i.e. it does not depend on the number of PUs and SUs in the system individually) and is of threshold type. Therefore, although the system is modeled as a two-dimensional Markov chain, our findings allow simple and efficient computation of the optimal control policy.