Ana Sălăgean scite author profile

Let R be a finite chain ring (e.g. a Galois ring), K its residue field and C a linear code over R. We prove that d(C), the Hamming distance of C, is d((C : α)), where (C : α) is a submodule quotient, α is a certain element of R and denotes the canonical projection to K. These two codes also have the same set of minimal codeword supports. We explicitly construct a generator matrix/polynomial of (C : α) from the generator matrix/polynomials of C. We show that in general d(C) ≤ d(C) with equality for free codes (i.e. for free Rsubmodules of R n) and in particular for Hensel lifts of cyclic codes over K. Most of the codes over rings described in the literature fall into this class. We characterise MDS codes over R and prove several analogues of properties of MDS codes over finite fields. We compute the Hamming weight enumerator of a free MDS code over R.

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Repeated-root cyclic and negacyclic codes over a finite chain ring

Sălăgean

2006

Discrete Applied Mathematics

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We show that repeated-root cyclic codes over a finite chain ring are in general not principally generated. Repeated-root negacyclic codes are principally generated if the ring is a Galois ring with characteristic a power of 2. For any other finite chain ring they are in general not principally generated. We also prove results on the structure, cardinality and Hamming distance of repeated-root cyclic and negacyclic codes over a finite chain ring.

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Strong Gröbner bases and cyclic codes over a finite-chain ring.

Norton

Sălăgean

2001

Electronic Notes in Discrete Mathematics

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Cyclic codes and minimal strong Gröbner bases over a principal ideal ring

Norton

Sălăgean

2003

Finite Fields and Their Applications

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Ana Sălăgean

On the Structure of Linear and Cyclic Codes over a Finite Chain Ring

On the Hamming distance of linear codes over a finite chain ring

Repeated-root cyclic and negacyclic codes over a finite chain ring

Strong Gröbner bases and cyclic codes over a finite-chain ring.

Cyclic codes and minimal strong Gröbner bases over a principal ideal ring

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