10 November 2007 Performance analysis for LDPC-coded optical PPM communication system in weak turbulence
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Proceedings Volume 6795, Second International Conference on Space Information Technology; 67956V (2007) https://doi.org/10.1117/12.775241
Event: Second International Conference on Spatial Information Technology, 2007, Wuhan, China
Atmosphere Laser Communication (ALC) has the great capability, the better quality of anti-jamming and security, so ALC is adapt to the military application in particular. But because ALC's channel is atmosphere, ALC will be influenced by Atmospheric fading and turbulence, which reduce communication reliability. As a result, studying the suitable modulation and coding becomes the important problems for ALC. From these, people has put forward plenty of modulation and coding technologies, including On-off keying (OOK), pulse position modulation (PPM), digital pulse interval modulation (DPIM), dual-header pulse interval modulation(DHPIM) and so on. Among these, the mean transmit power and error symbol rate of PPM are all less than the others, so PPM has some applied advantage. People has also studied channel coding technology for PPM in ALC, George Stephen Mecherle applied RS code to PPM and analyzed error bit performance in 1986, Jon Hamkins and Meera Srinivasan analyzed the error bit rate of applying Turbo code to PPM through APD detecting in 1998, J. Hamkins analyzed the error bit performance of 256-ray PPM for Turbo code in 1999, and HU Hongfei analyzed the combined mode and applying approach of binary LDPC and multi-system PPM. But all of these have not involved the influence of atmosphere weak turbulence. The paper introduces LDPC as the channel code to ALC, and combines with PPM, discusses the error performance of LDPC in weak turbulence, then compares the performance in weak turbulence, Gauss channel and uncoded system. The emulation results indicate that the LDPC-coded performance of Gauss channel is better than that in weak turbulence channel, and introducing LDPC can efficiently improve the error performance in Gauss channel and weak turbulence channel, which has some applied value.
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Hongxing Wang, Hongxing Wang, Yanqin Su, Yanqin Su, Guangyi Zhang, Guangyi Zhang, Tieying Zhang, Tieying Zhang, } "Performance analysis for LDPC-coded optical PPM communication system in weak turbulence", Proc. SPIE 6795, Second International Conference on Space Information Technology, 67956V (10 November 2007); doi: 10.1117/12.775241; https://doi.org/10.1117/12.775241

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