Title :
Free Space Optical Communications via Optical Amplify-and-Forward Relaying
Author :
Karimi, Mehdi ; Nasiri-kenari, Masoumeh
Abstract :
Fading and path loss are the major challenges in practical deployment of free space optical communication systems. In this paper, a cooperative free space communication via an optical amplify-and-forward relay is considered to deal with these challenges. We use photon counting approach to investigate the system bit error probability (BEP) performance and study the effects of atmospheric turbulence, background light, amplified spontaneous emission, and receiver thermal noise on the system performance. We compare the results with those of the multiple-transmitter (MT) system. The results indicate that the performance of the relay-assisted system is much better than that of the MT system in different cases considered. We show that there is an optimum place for the relay from the BEP point of view.
Keywords :
amplify and forward communication; atmospheric turbulence; error statistics; optical communication; optical receivers; optical transmitters; photon counting; thermal noise; amplified spontaneous emission; atmospheric turbulence; background light; fading; free space optical communications; multiple-transmitter system; optical amplify-and-forward relaying; path loss; photon counting; receiver thermal noise; system bit error probability; Adaptive optics; Fading; Optical receivers; Optical transmitters; Photonics; Relays; Bit error probability (BEP) analysis; free space optics; relay-assisted (RA) communications; shot noise;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2010.2102003
