Title :
Optical wireless communications: system model, capacity and coding
Author :
Jing Li ; Uysal, Murat
Author_Institution :
Dept. of Electr. & Comput. Eng., Lehigh Univ., Bethlehem, PA, USA
Abstract :
This work is motivated by the need to understand the ultimate capacity of outdoor long-distance optical wireless communication with intensity modulation and direct detection. The channel under weak atmospheric turbulence is modeled as a stationary ergodic channel with lognormal intensity fading, where signals experience asymmetric statistics due to on-off keying signaling. Ergodic channel capacity with several different values of channel parameter σ and outage probabilities are computed to provide an information-theoretic view of the channel. Turbo codes matched to the channel are also investigated to shed insight into how much can be achieved with state-of-the-art coding schemes. It is shown that fixed rate turbo codes can perform close to the capacity when turbulence is weak, and that variable rate adaptive coding is necessary to bridge the gap when turbulence gets strong.
Keywords :
adaptive codes; amplitude shift keying; atmospheric turbulence; fading channels; intensity modulation; optical links; turbo codes; asymmetric statistics signals; direct detection; ergodic channel capacity; fixed rate turbo codes; free-space optics; intensity modulation; lognormal intensity fading; on-off keying signaling; optical wireless communications; outage probabilities; outdoor long-distance optical wireless communication; point-to-point line-of-sight propagation links; stationary ergodic channel; variable rate adaptive coding; weak atmospheric turbulence; Adaptive coding; Atmospheric modeling; Channel capacity; Fading; Intensity modulation; Optical modulation; Probability; Statistics; Turbo codes; Wireless communication;
Conference_Titel :
Vehicular Technology Conference, 2003. VTC 2003-Fall. 2003 IEEE 58th
Print_ISBN :
0-7803-7954-3
DOI :
10.1109/VETECF.2003.1285000
