Repairing algebraic geometry codes
Minimum storage regenerating codes have minimum storage of data in each node and therefore are maximal distance separable (for short) codes. Thus, the number of nodes is upper-bounded by 2 b , where ú is the bits of data stored in each node. From both theoretical and practical points of view (see th...
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sg-ntu-dr.10356-1455092020-12-23T07:17:36Z Repairing algebraic geometry codes Jin, Lingfei Luo, Yuan Xing, Chaoping School of Physical and Mathematical Sciences Engineering::Computer science and engineering Bandwidth Dual Codes Minimum storage regenerating codes have minimum storage of data in each node and therefore are maximal distance separable (for short) codes. Thus, the number of nodes is upper-bounded by 2 b , where ú is the bits of data stored in each node. From both theoretical and practical points of view (see the details in Section 1), it is natural to consider regenerating codes that nearly have minimum storage of data, and meanwhile, the number of nodes is unbounded. One of the candidates for such regenerating codes is an algebraic geometry code. In this paper, we generalize the repairing algorithm of Reed-Solomon codes given by Guruswami and Wotters to algebraic geometry codes and present a repairing algorithm for arbitrary one-point algebraic geometry codes. By applying our repairing algorithm to the one-point algebraic geometry codes based on the Garcia- Stichtenoth tower, one can repair a code of rate 1 - e and length n over F q with bandwidth (n - 1)(1 - τ) log q for any e = 2 (τ-1/2) logq with a real τ ∈ (0, 1/2). In addition, storage in each node for an algebraic geometry code is close to the minimum storage. Due to nice structures of Hermitian curves, repairing of Hermitian codes is also investigated. As a result, we are able to show that algebraic geometry codes are regenerating codes with good parameters. 2020-12-23T07:17:36Z 2020-12-23T07:17:36Z 2018 Journal Article Jin, L., Luo, Y., & Xing, C. (2018). Repairing algebraic geometry codes. IEEE Transactions on Information Theory, 64(2), 900-908. doi:10.1109/TIT.2017.2773089 1557-9654 https://hdl.handle.net/10356/145509 10.1109/TIT.2017.2773089 2 64 900 908 en IEEE Transactions on Information Theory © 2017 Institute of Electrical and Electronics Engineers (IEEE). All rights reserved. |
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Engineering::Computer science and engineering Bandwidth Dual Codes Jin, Lingfei Luo, Yuan Xing, Chaoping Repairing algebraic geometry codes |
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Minimum storage regenerating codes have minimum storage of data in each node and therefore are maximal distance separable (for short) codes. Thus, the number of nodes is upper-bounded by 2 b , where ú is the bits of data stored in each node. From both theoretical and practical points of view (see the details in Section 1), it is natural to consider regenerating codes that nearly have minimum storage of data, and meanwhile, the number of nodes is unbounded. One of the candidates for such regenerating codes is an algebraic geometry code. In this paper, we generalize the repairing algorithm of Reed-Solomon codes given by Guruswami and Wotters to algebraic geometry codes and present a repairing algorithm for arbitrary one-point algebraic geometry codes. By applying our repairing algorithm to the one-point algebraic geometry codes based on the Garcia- Stichtenoth tower, one can repair a code of rate 1 - e and length n over F q with bandwidth (n - 1)(1 - τ) log q for any e = 2 (τ-1/2) logq with a real τ ∈ (0, 1/2). In addition, storage in each node for an algebraic geometry code is close to the minimum storage. Due to nice structures of Hermitian curves, repairing of Hermitian codes is also investigated. As a result, we are able to show that algebraic geometry codes are regenerating codes with good parameters. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Jin, Lingfei Luo, Yuan Xing, Chaoping |
| format |
Article |
| author |
Jin, Lingfei Luo, Yuan Xing, Chaoping |
| author_sort |
Jin, Lingfei |
| title |
Repairing algebraic geometry codes |
| title_short |
Repairing algebraic geometry codes |
| title_full |
Repairing algebraic geometry codes |
| title_fullStr |
Repairing algebraic geometry codes |
| title_full_unstemmed |
Repairing algebraic geometry codes |
| title_sort |
repairing algebraic geometry codes |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145509 |
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