Ergodic capacity of cognitive TAS/GSC relaying in Nakagami-m fading channels

We examine the impact of transmit antenna selection with receive generalized selection combining (TAS/GSC) for cognitive decode-and-forward (DF) relaying in Nakagami-m fading channels. We select a single transmit antenna at the secondary transmitter which maximizes the receive signal-to-noise ratio (SNR) and combine a subset of receive antennas with the largest SNRs at the secondary receiver. In an effort to assess the performance, we first derive the probability density function and cumulative distribution function of the end-to-end SNR using the moment generating function. We then derive new exact closed-form expression for the ergodic capacity. More importantly, by deriving the asymptotic expression for the high SNR approximation of the ergodic capacity, we gather deep insights into the high SNR slope and the power offset. Our results show that the high SNR slope is 1/2 under the proportional interference power constraint. Under the fixed interference power constraint, the high SNR slope is zero.

[1]  Caijun Zhong,et al.  Outage Analysis of Decode-and-Forward Cognitive Dual-Hop Systems With the Interference Constraint in Nakagami-$m$ Fading Channels , 2011, IEEE Transactions on Vehicular Technology.

[2]  Emil Björnson,et al.  Capacity Limits and Multiplexing Gains of MIMO Channels with Transceiver Impairments , 2012, IEEE Communications Letters.

[3]  Ying-Chang Liang,et al.  Exploiting Multi-Antennas for Opportunistic Spectrum Sharing in Cognitive Radio Networks , 2007, IEEE Journal of Selected Topics in Signal Processing.

[4]  Salama Ikki,et al.  Multihop Wireless Relaying Systems in the Presence of Cochannel Interferences: Performance Analysis and Design Optimization , 2012, IEEE Transactions on Vehicular Technology.

[5]  Qihui Wu,et al.  Effective Capacity of Cognitive Radio Systems with GSC Diversity under Imperfect Channel Knowledge , 2012, IEEE Communications Letters.

[6]  Kerstin Vogler,et al.  Table Of Integrals Series And Products , 2016 .

[7]  Ranjan K. Mallik,et al.  Generalized selection combining in cognitive MIMO relay networks , 2014, 2014 IEEE International Conference on Communications (ICC).

[8]  Emre Telatar,et al.  Capacity of Multi-antenna Gaussian Channels , 1999, Eur. Trans. Telecommun..

[9]  Trung Quang Duong,et al.  Cognitive Relay Networks With Multiple Primary Transceivers Under Spectrum-Sharing , 2012, IEEE Signal Processing Letters.

[10]  Andreas F. Molisch,et al.  Antenna selection in LTE: from motivation to specification , 2012, IEEE Communications Magazine.

[11]  Predrag Ivanis,et al.  Ergodic Capacity for TAS/MRC Spectrum Sharing Cognitive Radio , 2012, IEEE Communications Letters.

[12]  Caijun Zhong,et al.  Ergodic Capacity Analysis of Amplify-and-Forward MIMO Dual-Hop Systems , 2008, IEEE Transactions on Information Theory.

[13]  Andrea J. Goldsmith,et al.  Breaking Spectrum Gridlock With Cognitive Radios: An Information Theoretic Perspective , 2009, Proceedings of the IEEE.

[14]  Hyundong Shin,et al.  Capacity of multiple-antenna fading channels: spatial fading correlation, double scattering, and keyhole , 2003, IEEE Trans. Inf. Theory.

[15]  Joseph Lipka,et al.  A Table of Integrals , 2010 .