DocumentCode
1529004
Title
Continuous error detection (CED) for reliable communication
Author
Anand, Raghavan ; Ramchandran, Kannan ; Kozintsev, Igor V.
Author_Institution
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
Volume
49
Issue
9
fYear
2001
fDate
9/1/2001 12:00:00 AM
Firstpage
1540
Lastpage
1549
Abstract
Block cyclic redundancy check (CRC) codes represent a popular and powerful class of error detection techniques used almost exclusively in modern data communication systems. Though efficient, CRCs can detect errors only after an entire block of data has been received and processed. In this work, we exploit the “continuous” nature of error detection that results from using arithmetic codes for error detection, which provides a novel tradeoff between the amount of added redundancy and the amount of time needed to detect an error once it occurs. We demonstrate how this continuous error detection framework improves the overall performance of communication systems, and show how considerable performance gains can be attained. We focus on several important scenarios: 1) automatic repeat request (ARQ) based transmission; 2) forward error correction (FEC frameworks based on (serially) concatenated coding systems involving an inner error-correction code and an outer error-detection code; and 3) reduced state sequence estimation (RSSE) for channels with memory. We demonstrate that the proposed CED framework improves the throughput of ARQ systems by up to 15% and reduces the computational/storage complexity of FEC and RSSE by a factor of two in the comparisons that we make against state-of-the-art systems
Keywords
arithmetic codes; automatic repeat request; block codes; concatenated codes; cyclic codes; data communication; error correction codes; error detection codes; forward error correction; telecommunication network reliability; ARQ systems; CED framework; CRC codes; FEC frameworks; RSSE; automatic repeat request based transmission; block cyclic redundancy check codes; computational complexity; concatenated coding; continuous error detection; data communication systems; error detection techniques; error-correction code; error-detection code; forward error correction; performance; reduced state sequence estimation; reliable communication; storage complexity; Arithmetic; Automatic repeat request; Concatenated codes; Cyclic redundancy check; Cyclic redundancy check codes; Data communication; Error correction codes; Forward error correction; Performance gain; Power system reliability;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/26.950341
Filename
950341
Link To Document