论文信息 - Correlation effect to Reed Solomon code performance and experiment of error/erasure decoder co-operating with interleaver and hidden Markov modeler on satellite channel

Correlation effect to Reed Solomon code performance and experiment of error/erasure decoder co-operating with interleaver and hidden Markov modeler on satellite channel

The authors describe linear block code (especially Reed-Solomon code) performance degradation on correlated Rayleigh and Rician fading channels analytically, using generalized Lauguerre polynomials. It is possible to avoid performance degradation by using finite-depth interleaving and error structure in the decoding process. An error/erasure decoder cooperating with the interleaver and hidden Markov modeler (DIHMC) uses error structure in the decoding process to enhance code performance. Simulation are presented, showing nearly 2-dB coding gain compared to pure error decoding on correlated Rayleigh and Rician fading channels whose underlying Gaussian process is highly correlated first-order Markov. Experimental results for DIHMC on the differential Global Positioning System satellite channel are also presented.<<ETX>>

R. E. Peile | L. R. Welch | Dong In Kim

[1] L. Rabiner,et al. An introduction to hidden Markov models , 1986, IEEE ASSP Magazine.

[2] David Haccoun,et al. Coding for Satellite Communication , 1987, IEEE J. Sel. Areas Commun..

[3] Irving S. Reed,et al. On the use of Laguerre polynomials in treating the envelope and phase components of narrow-band Gaussian noise , 1959, IRE Trans. Inf. Theory.

[4] R. Blahut. Theory and practice of error control codes , 1983 .

[5] E. Gilbert. Capacity of a burst-noise channel , 1960 .