Title :
Turbo code performance in partial-band jamming
Author :
Jordan, Michael A.
Author_Institution :
Appl. Phys. Lab., Johns Hopkins Univ., Laurel, MD, USA
Abstract :
Monte Carlo simulations model the effects of partial-band jamming on turbo code performance over a slow frequency-hopped spread spectrum signal. Decoders using both hard and soft decision variables corrupted by additive white Gaussian noise (AWGN) are considered. Modulations include both binary phase shift keying (BPSK) and differentially coherent BPSK (DPSK). The bit error rate (BER) performance is measured in channels with negligible levels of thermal noise and in channels with similar levels of jammer and thermal noise. The optimum jammer occupancy is measured and found to be consistent with theoretical predictions. The decoder performance is improved by using side-information or by clipping the decision variable. Optimum clipping levels are estimated
Keywords :
AWGN; Monte Carlo methods; decoding; differential phase shift keying; digital simulation; error statistics; forward error correction; jamming; thermal noise; turbo codes; AWGN; BER performance; BPSK; DPSK; FEC; Monte Carlo simulations; additive white Gaussian noise; binary phase shift keying; bit error rate; decision variable clipping; decoder performance; differentially coherent BPSK; hard decision variables; optimum clipping levels; optimum jammer occupancy; partial-band jamming; side-information; slow frequency-hopped spread spectrum signal; soft decision variables; thermal noise; turbo code performance; AWGN; Additive white noise; Binary phase shift keying; Bit error rate; Decoding; Gaussian noise; Jamming; Noise level; Thermal variables measurement; Turbo codes;
Conference_Titel :
Military Communications Conference, 1998. MILCOM 98. Proceedings., IEEE
Conference_Location :
Boston, MA
Print_ISBN :
0-7803-4506-1
DOI :
10.1109/MILCOM.1998.726995
