Title :
Coding alternatives for high-rate direct-sequence spread spectrum
Author :
Pursley, Michael B. ; Royster, Thomas C.
Author_Institution :
Clemson Univ., SC, USA
Abstract :
High-rate direct-sequence spread spectrum is a modulation technique in which most or all of the spreading is provided by nonbinary coded data modulation. For applications to mobile ad hoc wireless networks, the limited processing gain of high-rate direct sequence spectrum gives only modest protection against multipath and multiple-access interference, so its use is restricted to fairly benign channels. In this paper, we explore the increased interference rejection capability that can be obtained from the inclusion of error-control coding. The three forms of error-control coding that are investigated are convolutional coding with Viterbi decoding, Reed-Solomon coding with errors-and-erasures decoding, and block product coding with turbo (iterative) decoding.
Keywords :
Reed-Solomon codes; Viterbi decoding; ad hoc networks; block codes; convolutional codes; error correction codes; interference suppression; iterative decoding; military communication; mobile radio; multipath channels; product codes; spread spectrum communication; turbo codes; Reed-Solomon coding; Viterbi decoding; block product coding; convolutional coding; error-control coding; errors-and-erasures decoding; high-rate direct-sequence spread spectrum; interference rejection; iterative decoding; military communication; mobile ad hoc wireless networks; multipath interference; multiple-access interference; nonbinary coded data modulation; turbo decoding; Convolutional codes; Iterative decoding; Military communication; Military equipment; Modulation coding; Multiple access interference; Protection; Signal design; Spread spectrum communication; Wireless networks;
Conference_Titel :
Military Communications Conference, 2004. MILCOM 2004. 2004 IEEE
Print_ISBN :
0-7803-8847-X
DOI :
10.1109/MILCOM.2004.1494933
