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Jay A. Wood
Publication Activity (10 Years)
Years Active: 1989-2024
Publications (10 Years): 5
Top Topics
Weighting Scheme
Linear Combination
Complex Moments
Region Descriptors
Top Venues
CoRR
Des. Codes Cryptogr.
J. Comb. Theory, Ser. A
ICMCTA
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Publications
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Jay A. Wood
Weights with Maximal Symmetry and Failures of the MacWilliams Identities.
CoRR
(2024)
Serhii Dyshko
,
Jay A. Wood
MacWilliams extension property for arbitrary weights on linear codes over module alphabets.
Des. Codes Cryptogr.
90 (11) (2022)
Jay A. Wood
Two approaches to the extension problem for arbitrary weights over finite module alphabets.
Appl. Algebra Eng. Commun. Comput.
32 (3) (2021)
Noha Abdelghany
,
Jay A. Wood
Failure of the MacWilliams identities for the Lee weight enumerator over Zm, m⩾5.
Discret. Math.
343 (11) (2020)
Oliver W. Gnilke
,
Marcus Greferath
,
Thomas Honold
,
Jay A. Wood
,
Jens Zumbrägel
The Extension Theorem for Bi-invariant Weights over Frobenius Rings and Frobenius Bimodules.
CoRR
(2017)
Jay A. Wood
Relative one-weight linear codes.
Des. Codes Cryptogr.
72 (2) (2014)
Marcus Greferath
,
Thomas Honold
,
Cathy Mc Fadden
,
Jay A. Wood
,
Jens Zumbrägel
MacWilliams' Extension Theorem for bi-invariant weights over finite principal ideal rings.
J. Comb. Theory, Ser. A
125 (2014)
Noha ElGarem
,
Nefertiti Megahed
,
Jay A. Wood
The Extension Theorem with Respect to Symmetrized Weight Compositions.
ICMCTA
(2014)
Marcus Greferath
,
Thomas Honold
,
Cathy Mc Fadden
,
Jay A. Wood
,
Jens Zumbrägel
MacWilliams' Extension Theorem for Bi-Invariant Weights over Finite Principal Ideal Rings.
CoRR
(2013)
Jay A. Wood
Anti-isomorphisms, character modules and self-dual codes over non-commutative rings.
Int. J. Inf. Coding Theory
1 (4) (2010)
Jay A. Wood
The Structure of Linear Codes of Constant Weight.
Electron. Notes Discret. Math.
6 (2001)
Jay A. Wood
Extension Theorems for Linear Codes over Finite Rings.
AAECC
(1997)
Harold N. Ward
,
Jay A. Wood
Characters and the Equivalence of Codes.
J. Comb. Theory, Ser. A
73 (2) (1996)
Jay A. Wood
Spinor groups and algebraic coding theory.
J. Comb. Theory, Ser. A
51 (2) (1989)