Title :
Optical repetition MIMO transmission with multipulse PPM
Author :
Wilson, Stephen G. ; Brandt-Pearce, Maïté ; Cao, Qianling ; Baedke, Michael
Author_Institution :
Charles L. Brown Dept. of Electr. & Comput. Eng., Univ. of Virginia, Charlottesville, VA, USA
Abstract :
We study the use of multiple laser transmitters combined with multiple photodetectors for atmospheric, line-of-sight optical communication, and focus upon the use of multiple-pulse-position-modulation as a power-efficient transmission format, with signal repetition across the laser array. Ideal (photon counting) photodetectors are assumed, with and without background radiation. The resulting multiple-input/multiple-output channel has the potential for combating fading effects on turbulent optical channels, for which both log-normal and Rayleigh-fading models are treated. Our focus is upon symbol error probability for uncoded transmission, and on capacity for coded transmission. Full spatial diversity is obtained naturally in this application.
Keywords :
MIMO systems; Rayleigh channels; diversity reception; error statistics; laser arrays; log normal distribution; optical transmitters; photodetectors; pulse position modulation; MIMO transmission; Rayleigh-fading model; laser array; line-of-sight optical communication; log-normal model; multiple laser transmitter; multiple photodetector; multiple-input multiple-output channel; multipulse PPM; optical repetition; power-efficient transmission format; pulse-position-modulation; spatial diversity; symbol error probability; turbulent optical channel; Error probability; Fading; Laser modes; MIMO; Optical arrays; Optical fiber communication; Optical transmitters; Photodetectors; Power lasers; Rayleigh channels; Multiple-input/multiple-output (MIMO) systems; optical communications; pulse-position-modulation (PPM);
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2005.853804
