2006 47th Annual IEEE Symposium on Foundations of Computer Science (FOCS'06) 2006
DOI: 10.1109/focs.2006.23
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Correlated Algebraic-Geometric Codes: Improved List Decoding over Bounded Alphabets

Abstract: Abstract. We define a new family of error-correcting codes based on algebraic curves over finite fields, and develop efficient list decoding algorithms for them. Our codes extend the class of algebraic-geometric (AG) codes via a (nonobvious) generalization of the approach in the recent breakthrough work of Parvaresh and Vardy (2005).Our work shows that the PV framework applies to fairly general settings by elucidating the key algebraic concepts underlying it. Also, more importantly, AG codes of arbitrary block… Show more

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Cited by 10 publications
(28 citation statements)
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“…(Essentially, the freedom to do -variate interpolation for a parameter of our choosing allows us to work with simple interpolation, while still gaining in error-correction radius with increasing . This phenomenon also occurred in one of the algorithms in [12] for list-decoding correlated algebraic-geometric codes. )…”
Section: B Welch-berlekamp Style Interpolationmentioning
confidence: 88%
See 1 more Smart Citation
“…(Essentially, the freedom to do -variate interpolation for a parameter of our choosing allows us to work with simple interpolation, while still gaining in error-correction radius with increasing . This phenomenon also occurred in one of the algorithms in [12] for list-decoding correlated algebraic-geometric codes. )…”
Section: B Welch-berlekamp Style Interpolationmentioning
confidence: 88%
“…(We know that the degree of for is at most , so when and , but for notational ease let us introduce these coefficients.) For , define the polynomial (12) We know that , and therefore . By Condition (11), for each , the coefficient of in the polynomial equals 0.…”
Section: Retrieving Candidate Polynomialsmentioning
confidence: 99%
“…The complexity of the algorithm is polynomial assuming availability of a polynomial amount of pre-processed information about the code [43]. For a family of AG codes that achieve the best rate vs. distance trade-off, it was recently shown how to compute the required pre-processed information in polynomial time [36].…”
Section: Related Results On Algebraic List Decodingmentioning
confidence: 99%
“…Another potential avenue for improving the complexity and list size is via a generalization of folded RS codes to folded algebraicgeometric (AG) codes. In [36], the authors define correlated AG codes, and describe list decoding algorithms for those codes, based on a generalization of the Parvaresh-Vardy approach to the general class of algebraic-geometric codes (of which RS codes are a special case). However, to relate folded AG codes to correlated AG codes like we did for RS codes requires bijections on the set of rational points of the underlying algebraic curve that have some special, hard to guarantee, property.…”
Section: Improving List Size Of Capacity-achieving Codesmentioning
confidence: 99%
“…Contained in [10] is a scheme to reduce the alphabet size based on concatenating Folded Reed Solomon codes with appropriate inner codes. Guruswami and Pathak [9] provide a generalization of the Parvaresh-Vardy code to the Algebraic-Geometric setting thereby reducing the alphabet size. By generalizing Folded Reed Solomon codes to Folded Algebraic Geometric codes we present a purely algebraic means of achieving the rate error correction tradeoff with alphabet size independent of the block length.…”
Section: Introductionmentioning
confidence: 99%