Title :
Optical Spatial Modulation Over Atmospheric Turbulence Channels
Author :
Ozbilgin, Tugba ; Koca, Mutlu
Author_Institution :
Dept. of Electr. & Electron. Eng., Bogazici Univ., Istanbul, Turkey
Abstract :
We present a novel multiple-input multiple-output (MIMO) optical modulation method combining antenna shift keying with joint pulse position and amplitude modulations. The proposed approach, denoted optical spatial modulation (OSM), offers better power and spectral efficiencies than conventional MIMO optical modulation methods. We also provide a theoretical analysis framework for the performance of both uncoded and coded OSM in free space optical communication channels with weak-to-moderate and moderate-to-strong atmospheric turbulence. Theoretical derivations are validated with simulations, which illustrate the feasibility of the proposed transceiver in key design metrics, such as spectral efficiency, error performance, and robustness against scintillation effects.
Keywords :
MIMO communication; amplitude modulation; atmospheric optics; atmospheric turbulence; optical modulation; optical receivers; MIMO optical modulation method; amplitude modulations; antenna shift keying; atmospheric turbulence channels; free space optical communication channels; key design metrics; multiple-input multiple-output optical modulation method; optical spatial modulation; optical transceiver; scintillation effects; uncoded OSM; Adaptive optics; Atmospheric modeling; Indexes; MIMO; Modulation; Optical transmitters; Random variables; Atmospheric turbulence; Spatial modulation; atmospheric turbulence; average bit error probability; free space optical communication; pulse position/ amplitude modulation; pulse position/amplitude modulation; space shift keying; spatial modulation;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2409302
