Title :
An error coding for satellite channels with interference
Author :
Bradshaw, Charles F. ; Herman, Gregory S.
Author_Institution :
Mitre Corp., McLean, VA, USA
Abstract :
The authors discuss the results of an investigation into improved error correction coding for satellite channels experiencing adjacent and cochannel interference, which constitute a nonstationary, non-Gaussian noise environment. The codes under study are those achieved by concatenation of a convolutional code and a Reed-Solomon code. Test results in the Gaussian channel showed geometrical error-length probability mass functions from a convolutional decoder. In the interference channel, test results showed a bimodal error-length mass function. It is shown that the amount of burst errors in either the geometrical or bimodal functions is proportional to the ratio of noise power density in the receiver and the receiver´s phase-lock loop, respectively.<>
Keywords :
encoding; error correction codes; interference (signal); satellite relay systems; telecommunication channels; Gaussian channel; Reed-Solomon code; adjacent channel interference; bimodal error-length mass function; burst errors; cochannel interference; convolutional code; convolutional decoder; error correction coding; geometrical error-length probability; geometrical functions; interference channel; noise power density; nonGaussian noise; phase-lock loop; satellite channels; stationary noise; test results; Convolutional codes; Decoding; Error correction codes; Gaussian channels; Interchannel interference; Interference channels; Reed-Solomon codes; Satellites; Testing; Working environment noise;
Conference_Titel :
Military Communications Conference, 1988. MILCOM 88, Conference record. 21st Century Military Communications - What's Possible? 1988 IEEE
Conference_Location :
San Diego, CA, USA
DOI :
10.1109/MILCOM.1988.13502
