Title :
Average capacity of MIMO free-space optical gamma-gamma fading channel
Author :
Luong, Duy A. ; Pham, Anh T.
Author_Institution :
Comput. Commun. Lab., Univ. of Aizu, Aizu-Wakamatsu, Japan
Abstract :
Atmospheric turbulence is one of the main impairments degrading the performance of free-space optical (FSO) systems. Similar to radio-frequency communications, the use of spatial diversity techniques in FSO can significantly mitigate the fading effect caused by atmospheric turbulence. In this paper, closed-form expressions for the average capacity of multiple-input-multiple-output FSO systems over strong atmospheric turbulence using Gamma-Gamma fading channel model are presented. Our analysis is carried out for both equal gain combining and maximal ratio combining diversity techniques. Numerical examples compare analytical and simulation results, quantitatively verifying the advantages of spatial diversity techniques.
Keywords :
MIMO communication; atmospheric turbulence; channel capacity; diversity reception; fading channels; atmospheric turbulence; average MIMO free-space optical Gamma-Gamma fading channel capacity; closed-form expressions; equal gain combining diversity technique; fading effect mitigation; free-space optical systems; maximal ratio combining diversity technique; multiple-input-multiple-output FSO systems; radio-frequency communications; spatial diversity techniques; Atmospheric modeling; Diversity reception; MIMO; Manganese; Optical receivers; Signal to noise ratio; FSO communications; Gamma-Gamma fading; channel capacity; spatial diversity;
Conference_Titel :
Communications (ICC), 2014 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICC.2014.6883839
