Title :
An importance sampling analysis of a non-interleaved Viterbi decoder in an RFI environment
Author :
Berman, Ted ; Freedman, Jeffrey
Author_Institution :
Stanford Telecom, Seabrook, MD, USA
Abstract :
The authors present a model which analyzes a communications system consisting of a noisy channel, a transmitter/receiver, and a convolutional encoder/Viterbi decoder. The model determines the amount of bit error rate (BER) performance degradation caused by a bursty (e.g., pulsed RF interference) noise environment when interleaving is not used. It uses importance sampling to determine low BERs for a wide range of noise environments. It is faster than a conventional simulation because the required run time is independent of the BER. The model increases the simulation efficiency by biasing the burst error statistics so that more codeword errors occur and adjusts for this by using a weighting function whose value is calculated through the use of a Markov chain to represent the burst error statistics. The results confirm that interleaving results in a dramatic performance improvement in a bursty environment
Keywords :
convolutional codes; decoding; encoding; error statistics; radiofrequency interference; signal processing; BER performance; Markov chain; RFI environment; bit error rate; burst error statistics; bursty noise; codeword errors; communications system; convolutional encoder; importance sampling analysis; noisy channel; noninterleaved Viterbi decoder; pulsed RF interference; receiver; simulation efficiency; transmitter; weighting function; Bit error rate; Convolutional codes; Decoding; Degradation; Error analysis; Interleaved codes; Monte Carlo methods; Transmitters; Viterbi algorithm; Working environment noise;
Conference_Titel :
Military Communications Conference, 1992. MILCOM '92, Conference Record. Communications - Fusing Command, Control and Intelligence., IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-0585-X
DOI :
10.1109/MILCOM.1992.244013
