Simultaneous partial inverses and decoding interleaved reed-solomon codes

Jiun-Hung Yu, Hans Andrea Loeliger

研究成果: Article同行評審

6 引文 斯高帕斯(Scopus)


This paper introduces the simultaneous partial-inverse problem (SPI) for polynomials and develops its application to decoding interleaved Reed-Solomon codes beyond half the minimum distance. While closely related both to standard key equations and to well-known Padé approximation problems, the SPI problem stands out in several respects. First, the SPI problem has a unique solution (up to a scale factor), which satisfies a natural degree bound. Second, the SPI problem can be transformed (monomialized) into an equivalent SPI problem where all moduli are monomials. Third, the SPI problem can be solved by an efficient algorithm of the Berlekamp-Massey type. Fourth, decoding interleaved Reed-Solomon codes (or subfield-evaluation codes) beyond half the minimum distance can be analyzed in terms of a partial-inverse condition for the error pattern: If that condition is satisfied, then the (true) error locator polynomial is the unique solution of a standard key equation and can be computed in many different ways, including the well-known multi-sequence Berlekamp-Massey algorithm and the SPI algorithm of this paper. Two of the best performance bounds from the literature (the Schmidt-Sidorenko-Bossert bound and the Roth-Vontobel bound) are generalized to hold for the partial-inverse condition and thus to apply to several different decoding algorithms.

原文American English
頁(從 - 到)7511-7528
期刊IEEE Transactions on Information Theory
出版狀態Published - 1 12月 2018


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