New identities relating wild Goppa codes

Alain Couvreur; Ayoub Otmani; Jean Pierre Tillich

doi:10.1016/j.ffa.2014.04.007

New identities relating wild Goppa codes

Alain Couvreur
, Ayoub Otmani
, Jean Pierre Tillich

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

For a given support LεF_qmⁿ and a polynomial gεF_qmⁿ [x] with no roots in F_qm ⁿ, we prove equality between the q-ary Goppa codes ^Γq(L,N(g))=^Γq(L,N(g)/g) where N(g) denotes the norm of g, that is gqm-¹+⋯+q+1. In particular, for m=2, that is, for a quadratic extension, we get ^Γq(L,^gq)= ^Γq(L,gq+¹). If g has roots in F_qm ⁿ, then we do not necessarily have equality and we prove that the difference of the dimensions of the two codes is bounded above by the number of distinct roots of g in ^Fqm. These identities provide numerous code equivalences and improved designed parameters for some families of classical Goppa codes.

langue originale	Anglais
Pages (de - à)	178-197
Nombre de pages	20
journal	Finite Fields and their Applications
Volume	29
Les DOIs	https://doi.org/10.1016/j.ffa.2014.04.007
état	Publié - 1 janv. 2014

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10.1016/j.ffa.2014.04.007

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title = "New identities relating wild Goppa codes",

abstract = "For a given support LεFqmn and a polynomial gεFqmn [x] with no roots in Fqm n, we prove equality between the q-ary Goppa codes Γq(L,N(g))=Γq(L,N(g)/g) where N(g) denotes the norm of g, that is gqm-1+⋯+q+1. In particular, for m=2, that is, for a quadratic extension, we get Γq(L,gq)= Γq(L,gq+1). If g has roots in Fqm n, then we do not necessarily have equality and we prove that the difference of the dimensions of the two codes is bounded above by the number of distinct roots of g in Fqm. These identities provide numerous code equivalences and improved designed parameters for some families of classical Goppa codes.",

keywords = "BCH codes, Goppa codes, Norms, Traces",

author = "Alain Couvreur and Ayoub Otmani and Tillich, \{Jean Pierre\}",

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doi = "10.1016/j.ffa.2014.04.007",

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T1 - New identities relating wild Goppa codes

AU - Couvreur, Alain

AU - Otmani, Ayoub

AU - Tillich, Jean Pierre

PY - 2014/1/1

Y1 - 2014/1/1

N2 - For a given support LεFqmn and a polynomial gεFqmn [x] with no roots in Fqm n, we prove equality between the q-ary Goppa codes Γq(L,N(g))=Γq(L,N(g)/g) where N(g) denotes the norm of g, that is gqm-1+⋯+q+1. In particular, for m=2, that is, for a quadratic extension, we get Γq(L,gq)= Γq(L,gq+1). If g has roots in Fqm n, then we do not necessarily have equality and we prove that the difference of the dimensions of the two codes is bounded above by the number of distinct roots of g in Fqm. These identities provide numerous code equivalences and improved designed parameters for some families of classical Goppa codes.

AB - For a given support LεFqmn and a polynomial gεFqmn [x] with no roots in Fqm n, we prove equality between the q-ary Goppa codes Γq(L,N(g))=Γq(L,N(g)/g) where N(g) denotes the norm of g, that is gqm-1+⋯+q+1. In particular, for m=2, that is, for a quadratic extension, we get Γq(L,gq)= Γq(L,gq+1). If g has roots in Fqm n, then we do not necessarily have equality and we prove that the difference of the dimensions of the two codes is bounded above by the number of distinct roots of g in Fqm. These identities provide numerous code equivalences and improved designed parameters for some families of classical Goppa codes.

KW - BCH codes

KW - Goppa codes

KW - Norms

KW - Traces

UR - https://www.scopus.com/pages/publications/84901070281

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DO - 10.1016/j.ffa.2014.04.007

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SP - 178

EP - 197

JO - Finite Fields and their Applications

JF - Finite Fields and their Applications

ER -

New identities relating wild Goppa codes

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