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      KCI등재 SCIE SCOPUS

      Optimal Energy-Efficient Power Allocation and Outage Performance Analysis for Cognitive Multi-Antenna Relay Network Using Physical-Layer Network Coding = Optimal Energy-Efficient Power Allocation and Outage Performance Analysis for Cognitive Multi-Antenna Relay Network Using Physical-Layer Network Coding

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      https://www.riss.kr/link?id=A103351850

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      다국어 초록 (Multilingual Abstract)

      In this paper, we investigate power allocation scheme and outage performance for a physical-layer network coding (PNC) relay based secondary user (SU) communication in cognitive multi-antenna relay networks (CMRNs), in which two secondary transceivers...

      In this paper, we investigate power allocation scheme and outage performance for a physical-layer network coding (PNC) relay based secondary user (SU) communication in cognitive multi-antenna relay networks (CMRNs), in which two secondary transceivers exchange their information via a multi-antenna relay using PNC protocol. We propose an optimal energy-efficient power allocation (OE-PA) scheme to minimize total energy consumption per bit under the sum rate constraint and interference power threshold (IPT) constraints. A closed-form solution for optimal allocation of transmit power among the SU nodes, as well as the outage probability of the cognitive relay system, are then derived analytically and confirmed by numerical results. Numerical simulations demonstrate the PNC protocol has superiority in energy efficiency performance over conventional direct transmission protocol and Four-Time-Slot (4TS) Decode-and-Forward (DF) relay protocol, and the proposed system has the optimal outage performance when the relay is located at the center of two secondary transceivers.

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      참고문헌 (Reference)

      1 I. S. Gradshteyn., "Table of Integrals, Series, and Products, 7th ed" Academic Press 2007

      2 B. Rankov., "Spectral efficient protocols for half-duplex fading relay channels" 25 (25): 379-389, 2007

      3 L. Li., "Simplified Relay Selection and Power Allocation in Cooperative Cognitive Radio Systems" 10 (10): 33-36, 2011

      4 Peng Liu, "Performance Analysis of Bidirectional Communication Protocols Based on Decode-and-Forward Relaying" 58 (58): 2683-2696, 2010

      5 Wei Xu, "Outage Probability of Decode-and-Forward Cognitive Relay in Presence of Primary User’s Interference" 16 (16): 2012

      6 X. Liang., "Outage Probability of Amplify-and-Forward Two-Way Relay Interference-Limited Systems" 61 (61): 3038-3049, 2012

      7 Q. Li., "Optimal relay precoder for non-regenerative MIMO cognitive relay systems with underlay spectrum sharing" 48 (48): 295-297, 2012

      8 L. K. S. Jayasinghe., "Optimal power allocation for PNC relay based communications in cognitive radio" 1 (1): 1-5, 2011

      9 P. Ubaidulla., "Optimal Relay Selection and Power Allocation for Cognitive Two-Way Relaying Networks" 1 (1): 225-228, 2012

      10 R. M. Corless., "On the Lambert W Function" 5 : 329-359, 1996

      1 I. S. Gradshteyn., "Table of Integrals, Series, and Products, 7th ed" Academic Press 2007

      2 B. Rankov., "Spectral efficient protocols for half-duplex fading relay channels" 25 (25): 379-389, 2007

      3 L. Li., "Simplified Relay Selection and Power Allocation in Cooperative Cognitive Radio Systems" 10 (10): 33-36, 2011

      4 Peng Liu, "Performance Analysis of Bidirectional Communication Protocols Based on Decode-and-Forward Relaying" 58 (58): 2683-2696, 2010

      5 Wei Xu, "Outage Probability of Decode-and-Forward Cognitive Relay in Presence of Primary User’s Interference" 16 (16): 2012

      6 X. Liang., "Outage Probability of Amplify-and-Forward Two-Way Relay Interference-Limited Systems" 61 (61): 3038-3049, 2012

      7 Q. Li., "Optimal relay precoder for non-regenerative MIMO cognitive relay systems with underlay spectrum sharing" 48 (48): 295-297, 2012

      8 L. K. S. Jayasinghe., "Optimal power allocation for PNC relay based communications in cognitive radio" 1 (1): 1-5, 2011

      9 P. Ubaidulla., "Optimal Relay Selection and Power Allocation for Cognitive Two-Way Relaying Networks" 1 (1): 225-228, 2012

      10 R. M. Corless., "On the Lambert W Function" 5 : 329-359, 1996

      11 LU Luxi., "New Optimal Power Allocation for Bidirectional Communications in Cognitive Relay Network Using Analog Network Coding" 7 (7): 2010

      12 H. Mu., "MSE-based source and relay precoder design for cognitive radio multiuser two-way relay systems" 11 (11): 742-747, 2012

      13 S. Zhang., "Hot topic : physical-layer network coding" 2 (2): 365-, 2006

      14 S. Cui., "Energy-constrained modulation optimization" 4 (4): 2349-2360, 2005

      15 Badic B., "Energy efficient radio access architectures for green radio : large versus small cell size deployment" 2 (2): 241-245, 2009

      16 Javier M. Paredes., "Cooperative Transmission for Wireless Relay Networks Using Limited Feedback" 58 (58): 3828-3841, 2010

      17 J. Jia., "Cooperative Relay for Cognitive Radio Networks" 2304-2312, 2009

      18 K. B. Letaief., "Cooperative Communications for Cognitive Radio Networks" 97 (97): 878-893, 2009

      19 N. Devroye., "Cognitive Radio Networks" 25 (25): 12-23, 2008

      20 A. Goldsmith., "Breaking spectrum gridlock with cognitive radios : An information theoretic perspective" 97 (97): 894-914, 2009

      21 K. Jitvanichphaibool., "Beamforming and power control for multi-antenna cognitive two-way relaying" 12 (12): 241-246, 2009

      22 Zeyang Dai, "An adaptive cooperation communication strategy for enhanced opportunistic spectrum access in cognitive radios" 16 (16): 40-43, 2012

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      학술지등록 한글명 : KSII Transactions on Internet and Information Systems
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