Title :
Performance of Convolutional Coded Subcarrier Intensity Modulation over Gamma-Gamma Turbulence Channels
Author :
Luanxia Yang ; Julian Cheng ; Holzman, J.F.
Author_Institution :
Sch. of Eng., Univ. of British Columbia, Kelowna, BC, Canada
Abstract :
Error rate performances of free-space optical communication are analyzed for irradiance modulation and direct detection systems using subcarrier intensity modulation with binary phase-shift keying and convolutional code. The analysis is carried out for Gamma-Gamma turbulence channels. For bit-by-bit interleaved channels, a highly accurate series solution is developed for the pairwise error probability, and this solution is used to formulate a simplified upper bound on the average bit-error rate (BER). We also study the BER performance for quasi-static fading channels of a convolutional coded system using block interleaving where each block experiences independent fading.
Keywords :
atmospheric turbulence; convolutional codes; error statistics; fading channels; intensity modulation; optical communication; phase shift keying; BER performance; Gamma-Gamma turbulence channel; binary phase-shift keying; bit-by-bit interleaved channel; bit-error rate; convolutional coded subcarrier intensity modulation; direct detection system; error probability; free-space optical communication; irradiance modulation; quasi-static fading channel; Bit error rate; Convolutional codes; Fading; Intensity modulation; Optical fiber communication; Signal to noise ratio; Upper bound; Atmospheric turbulence; convolutional code; free-space optical communication;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2013.102913.131461
