Add to ORKGNew algorithms for the soft-derision and the hard-derision maximum likelihood decoding (MLD) for binary linear block codes are proposed. It has been widely known that both MLD can be regarded as an integer programming with binary arithmetic conditions. Recently, Conti and Traverso have proposed an efficient algorithm which uses Grobner bases to solve integer programming with ordinary integer arithmetic conditions. In this paper, the Conti-Traverso algorithm is extended to solve integer programming with modulo arithmetic conditions. We also show how to transform the soft-decision and the hard-decision MLD to integer programming for which the extended Conti-Traverso algorithm is applicable
The A* algorithm finds the path in a finite depth binary tree that optimizes a function. Here, it is...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1994.Includes bibliographical references (leaves 177...
International Telemetering Conference Proceedings / November 14-16, 1978 / Hyatt House Hotel, Los An...
Two new implementations of a maximum-likelihood soft-decision decoding algorithm for binary linear c...
[[abstract]]An efficient maximum-likelihood soft-decision decoding algorithm for linear block codes ...
In this thesis, we aim at finding appropriate integer programming models and associated solution app...
This dissertation deals with maximum-likelihood soft-decision decoding as well as suboptimal soft-de...
[[abstract]]An efficient maximum-likelihood soft-decision decoding algorithm for linear block codes ...
Abstract—An efficient maximum-likelihood soft-decision decoding al-gorithm for linear block codes us...
Two efficient, maximum likelihood, soft decision decoding algorithms for binary (linear) codes are d...
International audienceMaximum likelihood soft decision decoding of linear block codes is addressed i...
In this report we present a novel and efficient maximum-likelihood soft-decision decodin
Abstract-This paper presents a novel approach to soft decision decoding for binary linear block code...
International audiencePresented is a soft-decision decoding algorithm for a particular class of rate...
The complexity of algorithms to perform soft-decision decoding on block codes has impeded their use ...
The A* algorithm finds the path in a finite depth binary tree that optimizes a function. Here, it is...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1994.Includes bibliographical references (leaves 177...
International Telemetering Conference Proceedings / November 14-16, 1978 / Hyatt House Hotel, Los An...
Two new implementations of a maximum-likelihood soft-decision decoding algorithm for binary linear c...
[[abstract]]An efficient maximum-likelihood soft-decision decoding algorithm for linear block codes ...
In this thesis, we aim at finding appropriate integer programming models and associated solution app...
This dissertation deals with maximum-likelihood soft-decision decoding as well as suboptimal soft-de...
[[abstract]]An efficient maximum-likelihood soft-decision decoding algorithm for linear block codes ...
Abstract—An efficient maximum-likelihood soft-decision decoding al-gorithm for linear block codes us...
Two efficient, maximum likelihood, soft decision decoding algorithms for binary (linear) codes are d...
International audienceMaximum likelihood soft decision decoding of linear block codes is addressed i...
In this report we present a novel and efficient maximum-likelihood soft-decision decodin
Abstract-This paper presents a novel approach to soft decision decoding for binary linear block code...
International audiencePresented is a soft-decision decoding algorithm for a particular class of rate...
The complexity of algorithms to perform soft-decision decoding on block codes has impeded their use ...
The A* algorithm finds the path in a finite depth binary tree that optimizes a function. Here, it is...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1994.Includes bibliographical references (leaves 177...
International Telemetering Conference Proceedings / November 14-16, 1978 / Hyatt House Hotel, Los An...