Title :
Iterative equalization in non-linear satellite channels
Author :
Liu, Daniel N. ; Fitz, Michael P.
Author_Institution :
Northrop Grumman Aerosp. Syst., Redondo Beach, CA, USA
Abstract :
The nonlinear distortion in efficiently operated wide bandwidth and high power amplifiers often limits the throughput and performance of satellite communications. Volterra series decomposition provides an efficient and analytically tractable way to represent the nonlinear satellite communication channel. Realizing that only a few dominant terms in the Volterra series are needed to accurately describe the channel, this paper proposes a computationally efficient nonlinear soft interference cancellation (SIC) minimum mean square error (MMSE) equalizer. Simulation demonstrates that the nonlinear SIC MMSE equalizer outperforms its linear counter part in performance while achieving an 80% computational complexity reduction.
Keywords :
Volterra series; communication complexity; equalisers; interference suppression; iterative methods; mean square error methods; nonlinear distortion; power amplifiers; radiofrequency interference; satellite communication; telecommunication channels; Volterra series decomposition; computational complexity reduction; iterative equalization; minimum mean square error equalizer; nonlinear SIC MMSE equalizer; nonlinear distortion; nonlinear satellite communication channel; nonlinear soft interference cancellation; power amplifier; satellite communication performance; satellite communication throughput; wide bandwidth; Complexity theory; Computational modeling; Decoding; Equalizers; Satellite communication; Satellites; Silicon carbide;
Conference_Titel :
Turbo Codes and Iterative Information Processing (ISTC), 2012 7th International Symposium on
Conference_Location :
Gothenburg
Print_ISBN :
978-1-4577-2114-4
Electronic_ISBN :
2165-4700
DOI :
10.1109/ISTC.2012.6325231
