Title :
Pulse position modulation for FSO systems: Capacity and channel coding
Author :
Xu, F. ; Khalighi, M.A. ; Bourennane, S.
Author_Institution :
Inst. Fresnel, Ecole Centrale Marseille, Marseille, France
Abstract :
For terrestrial free space optical (FSO) systems, we investigate the use of pulse position modulation (PPM) which has the interesting property of being average-energy efficient. We first discuss the upper bound on the information transmission rate for a Gaussian channel. Next, we consider the more practical aspect of channel coding and look for a suitable solution for the case of Q-ary PPM. Instead of using a non-binary channel code, we suggest to use a simple binary convolutional code and to perform iterative soft demodulation (demapping) and channel decoding at the receiver. We show that the proposed scheme is quite efficient against demodulation errors due to the receiver noise. Moreover, we propose a simple soft-demapping method of low complexity for the general case of Q-ary PPM. The receiver complexity remains then reasonable in view of implementation in a terrestrial FSO system.
Keywords :
Gaussian channels; binary codes; channel coding; convolutional codes; demodulation; iterative methods; optical communication; optical receivers; pulse position modulation; FSO systems; Gaussian channel; Q-ary PPM; binary convolutional code; capacity coding; channel coding; channel decoding; demodulation errors; iterative soft demodulation; nonbinary channel code; pulse position modulation; receiver complexity; receiver noise; soft-demapping method; terrestrial free space optical systems; Channel capacity; Channel coding; Demodulation; Gaussian channels; Modulation coding; Optical modulation; Optical pulses; Optical receivers; Pulse modulation; Upper bound;
Conference_Titel :
Telecommunications, 2009. ConTEL 2009. 10th International Conference on
Conference_Location :
Zagreb
Print_ISBN :
978-953-184-130-6
Electronic_ISBN :
978-953-184-131-3
