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Mobile-to-mobile MIMO transmit-receive diversity systems: analysis and performance in three-dimensional double-correlated channels

Qi, J. and Aïssa, S. (2013) Mobile-to-mobile MIMO transmit-receive diversity systems: analysis and performance in three-dimensional double-correlated channels. Wireless Communications and Mobile Computing, 13 (18). pp. 1621-1634. ISSN 1530-8669

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To link to this item DOI: 10.1002/wcm.1207

Abstract/Summary

Mobile-to-mobile (M-to-M) communications are expected to play a crucial role in future wireless systems and networks. In this paper, we consider M-to-M multiple-input multiple-output (MIMO) maximal ratio combining system and assess its performance in spatially correlated channels. The analysis assumes double-correlated Rayleigh-and-Lognormal fading channels and is performed in terms of average symbol error probability, outage probability, and ergodic capacity. To obtain the receive and transmit spatial correlation functions needed for the performance analysis, we used a three-dimensional (3D) M-to-M MIMO channel model, which takes into account the effects of fast fading and shadowing. The expressions for the considered metrics are derived as a function of the average signal-to-noise ratio per receive antenna in closed-form and are further approximated using the recursive adaptive Simpson quadrature method. Numerical results are provided to show the effects of system parameters, such as distance between antenna elements, maximum elevation angle of scatterers, orientation angle of antenna array in the x–y plane, angle between the x–y plane and the antenna array orientation, and degree of scattering in the x–y plane, on the system performance. Copyright © 2011 John Wiley & Sons, Ltd.

Item Type:Article
Refereed:Yes
Divisions:Science
ID Code:33437
Uncontrolled Keywords:mobile-to-mobile (M-to-M); multiple-input multiple-output (MIMO); maximal ratio combining (MRC); three-dimensional (3D); two-cylinder; space–time correlation function; double-correlated fading channel
Publisher:John Wiley & Sons

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