Maximum Distance Separable Codes for Symbol-Pair Read Channels

Chee, Yeow Meng; Ji, Lijun; Kiah, Han Mao; Wang, Chengmin; Yin, Jianxing

doi:10.1109/tit.2013.2276615

Cited by 84 publications

(62 citation statements)

References 9 publications

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“…The construction of MDS symbolpair codes is interesting since the codes have the best pair-error correcting capability for fixed length and dimension. The authors in [4] made use of interleaving and graph theoretic concepts as well as combinatorial configurations to construct MDS symbol-pair codes. Kai et al [8] constructed MDS symbol-pair codes from cyclic and constacyclic codes.…”

Section: Introductionmentioning

confidence: 99%

“…Classical MDS codes are MDS symbol-pair codes [4] and other known families of MDS (n, d) q symbol-pair codes are shown in Table 1. 4 q ≥ 2 n ≥ 2 [4] even prime power n ≤ q + 2 [4] odd prime 5 ≤ n ≤ 2q + 3 [4] 5 prime power n|q 2 − 1, n > q + 1 [8] prime power n = q 2 + q + 1 [8] prime power, q ≡ 1 (mod 3) n = q 2 +q+1 3 [8] 6 prime power n = q 2 + 1 [8] odd prime power n = q 2 +1 2 [8] 7 odd prime n = 8 [4] In this paper, we present new constructions of linear MDS symbol-pair codes over the finite field F q and obtain the following three new families:…”

Section: Introductionmentioning

confidence: 99%

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New constructions of MDS symbol-pair codes

Ding

Zhang

et al. 2017

Des. Codes Cryptogr.

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Motivated by the application of high-density data storage technologies, symbol-pair codes are proposed to protect against pair-errors in symbol-pair channels, whose outputs are overlapping pairs of symbols. The research of symbol-pair codes with the largest minimum pair-distance is interesting since such codes have the best possible error-correcting capability. A symbol-pair code attaining the maximal minimum pair-distance is called a maximum distance separable (MDS) symbol-pair code. In this paper, we focus on constructing linear MDS symbol-pair codes over the finite field F q . We show that a linear MDS symbol-pair code over F q with pair-distance 5 exists if and only if the length n ranges from 5 to q 2 + q + 1. As for codes with pair-distance 6, length ranging from 6 to q 2 +1, we construct linear MDS symbol-pair codes by using a configuration called ovoid in projective geometry. With the help of elliptic curves, we present a construction of linear MDS symbol-pair codes for any pair-distance d + 2 with length n satisfying 7 ≤ d + 2 ≤ n ≤ q + ⌊2 √ q⌋ + δ(q) − 3, where δ(q) = 0 or 1.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

New constructions of MDS symbol-pair codes

Ding

Zhang

et al. 2017

Des. Codes Cryptogr.

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“…In general, there are two ways to construct MDS symbol-pair codes. The first one is direct construction using linear codes with appropriate properties, such as MDS codes [4], as well as cyclic and constacyclic codes [7]. The second way is recursive construction employing the interleaving technique [4,5], the Eulerian graph [4,5,7] and other combinatorial configurations [4,5].…”

Section: Introductionmentioning

confidence: 99%

“…In particular, we focus on the construction of (n, d p ) q MDS symbol-pair code whose minimum pair-distance d p is small. The known parameters of (n, d p ) q MDS symbol-pair codes with small d p are the following ones: a) q ≥ 2, n ≥ 2, d p ∈ {2, 3} [4], b) q ≥ 2, n ≥ 4, d p = 4 [4], c1) q is an even prime power, n ≤ q + 2, d p = 5 [4], c2) q is an odd prime, 5 ≤ n ≤ 2q + 3, d p = 5 [4], c3) q is a prime power, n | q 2 − 1, n > q + 1, d p = 5 [7], c4) q is a prime power, n = q 2 + q + 1, d p = 5 [7], c5) q ≡ 1 (mod 3) is a prime power, n = q 2 +q+1 3 , d p = 5 [7], d1) q is a prime power, n = q 2 + 1, d p = 6 [7], d2) q is an odd prime power, n = q 2 +1 2 , d p = 6 [7], e) q is an odd prime, n = 8, d p = 7 [4].…”

Section: Introductionmentioning

confidence: 99%

Constructions of maximum distance separable symbol-pair codes using cyclic and constacyclic codes

2016

Des. Codes Cryptogr.

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Symbol-pair code is a new coding framework which is proposed to correct errors in the symbolpair read channel. In particular, maximum distance separable (MDS) symbol-pair codes are a kind of symbol-pair codes with the best possible error-correction capability. Employing cyclic and constacyclic codes, we construct three new classes of MDS symbol-pair codes with minimum pairdistance five or six. Moreover, we find a necessary and sufficient condition which ensures a class of cyclic codes to be MDS symbol-pair codes. This condition is related to certain property of a special kind of linear fractional transformations. A detailed analysis on these linear fractional transformations leads to an algorithm, which produces many MDS symbol-pair codes with minimum pair-distance seven.

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“…A code C with minimum pair distance d P can uniquely correct t pair errors if and only if d P ≥ 2t + 1 see [2]. Hence, it is desirable to keep minimum pair distance d P as large as possible for a symbol-pair code with fixed n. It has been shown [4] that an (n, M, d P ) q -symbol-pair code C must obey the following version of the Singleton bound.…”

Section: Preliminariesmentioning

confidence: 99%

List Decodability of Symbol-Pair Codes

Liu

Xing

Yuan

2019

IEEE Trans. Inform. Theory

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We investigate the list decodability of symbol-pair codes in the present paper. Firstly, we show that list decodability of every symbol-pair code does not exceed the Gilbert-Varshamov bound. On the other hand, we are able to prove that with high probability, a random symbol-pair code can be list decoded up to the Gilbert-Varshamov bound. Our second result of this paper is to derive the Johnson-type bound, i.e., a lower bound on list decoding radius in terms of minimum distance. Finally, we present a list decoding algorithm of Reed-Solomon codes beyond the Johnson-type bound. * Shu Liu was with the National

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Maximum Distance Separable Codes for Symbol-Pair Read Channels

Cited by 84 publications

References 9 publications

New constructions of MDS symbol-pair codes

New constructions of MDS symbol-pair codes

Constructions of maximum distance separable symbol-pair codes using cyclic and constacyclic codes

List Decodability of Symbol-Pair Codes

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