A Multiobjective Optimization Approach for Optimal Link Adaptation of OFDM-Based Cognitive Radio Systems with Imperfect Spectrum Sensing

• Published in: IEEE transactions on wireless communications Vol. 13; no. 4; pp. 2339 - 2351
• Main Authors: Bedeer, Ebrahim, Dobre, Octavia A., Ahmed, Mohamed H., Baddour, Kareem E.
• Format: Journal Article
• Language: English
• Published: New York, NY IEEE 01.04.2014; Institute of Electrical and Electronics Engineers; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: Adaptation; Algorithms; Allocations; Applied sciences; Bit allocation; Bit error rate; cognitive radio; Detection; Exact sciences and technology; imperfect spectrum sensing; Information, signal and communications theory; Interference; Links; multiobjective optimization; Multiplexing; OFDM systems; Operation, maintenance, reliability; Optimization; Orthogonal Frequency Division Multiplexing; power allocation; Radiocommunication specific techniques; Radiocommunications; Receivers; resource allocation; Resource management; Sensors; Signal and communications theory; Signal representation. Spectral analysis; Signal, noise; spectrum sharing; Subcarriers; Systems, networks and services of telecommunications; Telecommunications; Telecommunications and information theory; Thresholds; Throughput; Performance evaluation; imperfect spectrum sensing; Bit error rate; Resource allocation; Multiobjective programming; Information rate; Subcarrier; Power allocation; Optimization; multiobjective optimization; cognitive radio; Optimal allocation; Spectrum analysis; spectrum sharing; Resource sharing; Algorithm; Computational complexity; Information transmission; OFDM systems; Cognitive system; Bit allocation; Simulation; Orthogonal frequency division multiplexing; Resource management; Signal analysis; Service quality; Software radio
• ISSN: 1536-1276; 1558-2248
• DOI: 10.1109/TWC.2014.022114.131948

This paper adopts a multiobjective optimization (MOOP) approach to investigate the optimal link adaptation problem of orthogonal frequency division multiplexing (OFDM)-based cognitive radio (CR) systems, where secondary users (SUs) can opportunistically access the spectrum of primary users (PUs). For such a scenario, we solve the problem of jointly maximizing the CR system throughput and minimizing its transmit power, subject to constraints on both SU and PUs. The optimization problem imposes predefined interference thresholds for the PUs, guarantees the SU quality of service in terms of a maximum bit-error-rate (BER), and satisfies a transmit power budget and a maximum number of allocated bits per subcarrier. Unlike most of the work in the literature that considers perfect SU spectrum sensing capabilities, the problem formulation takes into account errors due to imperfect sensing of the PUs bands. Closed-form expressions are obtained for the optimal bit and power allocations per SU subcarrier. Simulation results illustrate the performance of the proposed algorithm and demonstrate the superiority of the MOOP approach when compared to single optimization approaches presented in the literature, without additional complexity. Furthermore, results show that the interference thresholds at the PUs receivers can be severely exceeded due to the perfect spectrum sensing assumption or due to partial channel information on links between the SU and the PUs receivers. Additionally, the results show that the performance of the proposed algorithm approaches that of an exhaustive search for the discrete optimal allocations with a significantly reduced computational effort.