Analysis of frequency-hopping systems with combined convolutional and diversity encoding and non-ideal interleaving in worst case partial band jamming

Author

Laufer, Shaul ; Reichman, Arie

Author_Institution

Tadiran Ltd., Holon, Israel

fYear

1988

fDate

12-15 June 1988

Firstpage

1405

Abstract

The interleaving span of coded frequency-hopping (FH) systems is often constrained to be smaller than the decoder memory length, i.e. nonideal interleaving is performed. An upper bound on the performance of a Viterbi decoder of a convolutional code with nonideal interleaving is presented. A soft-decision diversity-combining technique is introduced, and the performance of combined convolutional and diversity coding, subject to worst-case, partial-band noise-jamming, is investigated. The considered FH system uses M-ary frequency-shift keying (MFSK) modulation and noncoherent demodulation with two-bit soft-decision, based on A.J. Viterbi´s ratio-threshold technique (1982).<>

Keywords

demodulation; diversity reception; encoding; frequency agility; frequency shift keying; jamming; M-ary frequency-shift keying; Viterbi decoder; coded frequency-hopping; convolutional code; decoder memory length; diversity encoding; noncoherent demodulation; nonideal interleaving; soft-decision diversity-combining technique; two-bit soft-decision; worst case partial band jamming; Bit error rate; Convolutional codes; Decoding; Diversity reception; Encoding; Frequency diversity; Interleaved codes; Jamming; Upper bound; Viterbi algorithm;

fLanguage

English

Publisher

ieee

Conference_Titel

Communications, 1988. ICC '88. Digital Technology - Spanning the Universe. Conference Record., IEEE International Conference on

Conference_Location

Philadelphia, PA, USA

Type

conf

DOI

10.1109/ICC.1988.13780

Filename

13780