Constructing error-correcting codes with huge distances

Florian Hug

Constructing error-correcting codes with huge distances

Florian Hug

Department of Electrical and Information Technology

Research output: Contribution to conference › Paper, not in proceeding

Abstract

The class of error-correcting convolutional codes is commonly used for reliable data transmission in mobile, satellite, and space-communication. Demanding simultaneously larger capacities and smaller error probabilities, convolutional codes with large free distances are needed. Such convolutional codes are in general characterized by large overall constraint lengths, increasing the complexity of determining the corresponding code properties, such as the free distance.

The BEAST – Bidirectional Effcient Algorithm for Searching Trees – will be presented as an alternative, less complex, approach to determine the free distance of convolutional codes. As an example a rate R = 5/20 hypergraph-based woven convolutional code with overall constraint length 67 and constituent convolutional codes is presented. Even though using BEAST, determining the free distance of such a convolutional code is a challenge. Using parallel processing and a common huge storage, it was possible to determine the this convolutional code has free distance 120, which is remarkably large.

Original language	English
Publication status	Published - 2009
Event	Partnership for Advanced Computing in Europe (PRACE) code porting workshop (invited talk) - Linköping Duration: 2009 Oct 13 → 2009 Oct 14

Conference

Conference	Partnership for Advanced Computing in Europe (PRACE) code porting workshop (invited talk)
Period	2009/10/13 → 2009/10/14

Subject classification (UKÄ)

Electrical Engineering, Electronic Engineering, Information Engineering

Cite this

@conference{56d9dc245e514695b45463a9eb816523,

title = "Constructing error-correcting codes with huge distances",

abstract = "The class of error-correcting convolutional codes is commonly used for reliable data transmission in mobile, satellite, and space-communication. Demanding simultaneously larger capacities and smaller error probabilities, convolutional codes with large free distances are needed. Such convolutional codes are in general characterized by large overall constraint lengths, increasing the complexity of determining the corresponding code properties, such as the free distance. The BEAST – Bidirectional Effcient Algorithm for Searching Trees – will be presented as an alternative, less complex, approach to determine the free distance of convolutional codes. As an example a rate R = 5/20 hypergraph-based woven convolutional code with overall constraint length 67 and constituent convolutional codes is presented. Even though using BEAST, determining the free distance of such a convolutional code is a challenge. Using parallel processing and a common huge storage, it was possible to determine the this convolutional code has free distance 120, which is remarkably large.",

author = "Florian Hug",

year = "2009",

language = "English",

note = "Partnership for Advanced Computing in Europe (PRACE) code porting workshop (invited talk) ; Conference date: 13-10-2009 Through 14-10-2009",

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TY - CONF

T1 - Constructing error-correcting codes with huge distances

AU - Hug, Florian

PY - 2009

Y1 - 2009

N2 - The class of error-correcting convolutional codes is commonly used for reliable data transmission in mobile, satellite, and space-communication. Demanding simultaneously larger capacities and smaller error probabilities, convolutional codes with large free distances are needed. Such convolutional codes are in general characterized by large overall constraint lengths, increasing the complexity of determining the corresponding code properties, such as the free distance. The BEAST – Bidirectional Effcient Algorithm for Searching Trees – will be presented as an alternative, less complex, approach to determine the free distance of convolutional codes. As an example a rate R = 5/20 hypergraph-based woven convolutional code with overall constraint length 67 and constituent convolutional codes is presented. Even though using BEAST, determining the free distance of such a convolutional code is a challenge. Using parallel processing and a common huge storage, it was possible to determine the this convolutional code has free distance 120, which is remarkably large.

AB - The class of error-correcting convolutional codes is commonly used for reliable data transmission in mobile, satellite, and space-communication. Demanding simultaneously larger capacities and smaller error probabilities, convolutional codes with large free distances are needed. Such convolutional codes are in general characterized by large overall constraint lengths, increasing the complexity of determining the corresponding code properties, such as the free distance. The BEAST – Bidirectional Effcient Algorithm for Searching Trees – will be presented as an alternative, less complex, approach to determine the free distance of convolutional codes. As an example a rate R = 5/20 hypergraph-based woven convolutional code with overall constraint length 67 and constituent convolutional codes is presented. Even though using BEAST, determining the free distance of such a convolutional code is a challenge. Using parallel processing and a common huge storage, it was possible to determine the this convolutional code has free distance 120, which is remarkably large.

M3 - Paper, not in proceeding

T2 - Partnership for Advanced Computing in Europe (PRACE) code porting workshop (invited talk)

Y2 - 13 October 2009 through 14 October 2009

ER -

Constructing error-correcting codes with huge distances

Abstract

Conference

Subject classification (UKÄ)

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