Abstract
Security is a critical issue in cognitive radio (CR) relay networks. Most previous work concentrates on maximizing secrecy capacity (SC) as a criterion to guarantee the security requirements in CR relay networks. However, under the requirement of “green” radio communication, the energy consumption is largely ignored. This paper proposes a relay selection scheme which jointly considers the best relay selection and dynamic power allocation in order to maximize SC and to minimize energy consumption. Moreover, we consider finite-state Markov channels and residual relay energy in the relay selection and power allocation process. Specifically, the formulation of the proposed relay selection and power allocation scheme is based on the restless bandit problem, which is solved by the primal-dual index heuristic algorithm. Additionally, the obtained optimal relay selection policy has an indexability property that dramatically reduces the computational complexity. Numerical results are presented to show that our proposed scheme has the maximum SC and minimum energy consumption compared to the existing ones.
Highlights
Cognitive radio (CR) is a promising technology to improve the utilization efficiency of the wireless spectrum resources [1]
One of the efficient ways to enhance the performance of secondary users (SUs) is to use cooperative relaying, which is capable of mitigating wireless channel fading [3], saving transmission power [4, 5], and increasing capacity [6,7,8] through multipath propagation offered by cooperative nodes
The maximum transmission power limit primary transmitter (PT),max for S and Rn is set as 150 mw; the battery capacity of each relay is set to be 1000 mAh with the output voltage 1 Volt
Summary
Cognitive radio (CR) is a promising technology to improve the utilization efficiency of the wireless spectrum resources [1]. The secrecy capacity and the energy consumption should be jointly considered for efficient implementation of CR relay networks. Most previous works for relay selection use the current observed channel conditions to make the relay selection decision for subsequent data transmission This memoryless channel assumption is not realistic in the time-varying radio environments. In this paper we propose an energy-efficient relay selection scheme which jointly considers best relay selection and dynamic power allocation in order to maximize SC as well as to minimize energy consumption. (2) An energy-efficient relay selection scheme which jointly considers best relay selection and dynamic power allocation is proposed to maximize SC and minimize energy consumption.
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