Trellises and Trellis-Based Decoding Algorithms for Linear Block Codes. Part 3; a Recursive Maximum Likelihood Decoding

Trellises and Trellis-Based Decoding Algorithms for Linear Block Codes. Part 3; a Recursive Maximum Likelihood Decoding
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Publisher : Createspace Independent Publishing Platform
Total Pages : 30
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ISBN-10 : 1722916575
ISBN-13 : 9781722916572
Rating : 4/5 (572 Downloads)

Book Synopsis Trellises and Trellis-Based Decoding Algorithms for Linear Block Codes. Part 3; a Recursive Maximum Likelihood Decoding by : National Aeronautics and Space Administration (NASA)

Download or read book Trellises and Trellis-Based Decoding Algorithms for Linear Block Codes. Part 3; a Recursive Maximum Likelihood Decoding written by National Aeronautics and Space Administration (NASA) and published by Createspace Independent Publishing Platform. This book was released on 2018-07-15 with total page 30 pages. Available in PDF, EPUB and Kindle. Book excerpt: The Viterbi algorithm is indeed a very simple and efficient method of implementing the maximum likelihood decoding. However, if we take advantage of the structural properties in a trellis section, other efficient trellis-based decoding algorithms can be devised. Recently, an efficient trellis-based recursive maximum likelihood decoding (RMLD) algorithm for linear block codes has been proposed. This algorithm is more efficient than the conventional Viterbi algorithm in both computation and hardware requirements. Most importantly, the implementation of this algorithm does not require the construction of the entire code trellis, only some special one-section trellises of relatively small state and branch complexities are needed for constructing path (or branch) metric tables recursively. At the end, there is only one table which contains only the most likely code-word and its metric for a given received sequence r = (r(sub 1), r(sub 2), ..., r(sub n)). This algorithm basically uses the divide and conquer strategy. Furthermore, it allows parallel/pipeline processing of received sequences to speed up decoding. Lin, Shu and Fossorier, Marc Goddard Space Flight Center NAG5-931; NAG5-2938.


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