Symbol Error Analysis of Hybrid Satellite–Terrestrial Cooperative Networks With Cochannel Interference

This letter investigates the effect of cochannel interference (CCI) on a hybrid satellite-terrestrial cooperative relay network (HSTCN), where both the satellite-destination and satellite-relay links undergo the shadowed Rician fading, whereas the relay-destination link follows the Rayleigh fading. By assuming that decode-and-forward (DF) protocol is adopted at the terrestrial relay, and the destination is corrupted by multiple CCI, we first derive the analytical expression for the moment generating function (MGF) of the output signal-to-interference-plus-noise ratio (SINR). Then, based on the Meijer-G functions, we present an approximated yet accurate method to evaluate the average symbol error rate (ASER) of the cooperative network. Moreover, the asymptotic ASER at high signal-to-noise ratio (SNR) with respect to diversity order and array gain are also given to gain further insights. Finally, numerical results are provided to demonstrate the validity of the performance analysis as well as the impact of CCI on the HSTCN.

[1]  Victor Adamchik,et al.  The algorithm for calculating integrals of hypergeometric type functions and its realization in REDUCE system , 1990, ISSAC '90.

[2]  Charilaos I. Kourogiorgas,et al.  Cooperative Hybrid Land Mobile Satellite–Terrestrial Broadcasting Systems: Outage Probability Evaluation and Accurate Simulation , 2014, Wirel. Pers. Commun..

[3]  Heng Wei,et al.  Performance analysis of beamforming in two-hop AF relay networks with antenna correlation and interference , 2014 .

[4]  Manav R. Bhatnagar,et al.  Performance Analysis of Hybrid Satellite-Terrestrial FSO Cooperative System , 2013, IEEE Photonics Technology Letters.

[5]  Manav R. Bhatnagar,et al.  Performance Analysis of AF Based Hybrid Satellite-Terrestrial Cooperative Network over Generalized Fading Channels , 2013, IEEE Communications Letters.

[6]  Marie-Laure Boucheret,et al.  Exact outage probability of a hybrid satellite terrestrial cooperative system with best relay selection , 2013, 2013 IEEE International Conference on Communications (ICC).

[7]  Manav R. Bhatnagar,et al.  Performance Analysis of Hop-by-Hop Beamforming and Combining in DF MIMO Relay System over Nakagami-m Fading Channels , 2013, IEEE Communications Letters.

[8]  Manav R. Bhatnagar,et al.  Beamforming and Combining in Hybrid Satellite-Terrestrial Cooperative Systems , 2014, IEEE Communications Letters.

[9]  Ali Abdi,et al.  A new simple model for land mobile satellite channels: first- and second-order statistics , 2003, IEEE Trans. Wirel. Commun..

[10]  D. Owen Handbook of Mathematical Functions with Formulas , 1965 .

[11]  Arif Iqbal,et al.  A Hybrid Satellite-Terrestrial Cooperative Network over Non Identically Distributed Fading Channels , 2011, J. Commun..

[12]  A. G. Greenhill,et al.  Handbook of Mathematical Functions with Formulas, Graphs, , 1971 .

[13]  Barry G. Evans,et al.  Integration of satellite and terrestrial systems in future multimedia communications , 2005, IEEE Wireless Communications.

[14]  Caijun Zhong,et al.  Dual-hop systems with noisy relay and interference-limited destination , 2010, IEEE Transactions on Communications.

[15]  J. Ouyang,et al.  Performance analysis of cooperative relay networks over asymmetric fading channels , 2012 .

[16]  Manav R. Bhatnagar,et al.  On the Capacity of Decode-and-Forward Relaying over Rician Fading Channels , 2013, IEEE Communications Letters.