The Number of Inequivalent (2R+3,7)R Optimal Covering Codes

Journal of Integer Sequences, Vol. 9 (2006), Article 06.4.7

The Number of Inequivalent (2R+3,7)R Optimal Covering Codes

Gerzson Kéri
Computer and Automation Research Institute
Hungarian Academy of Sciences
Kende u. 13-17
H-1111 Budapest
Hungary

Patric R. J. Östergård
Department of Electrical and Communications Engineering
Helsinki University of Technology
P. O. Box 3000
02015 TKK
Finland

Abstract: Let (n,M)R denote any binary code with length n, cardinality M and covering radius R. The classification of (2R+3,7)R codes is settled for any R=1,2,..., and a characterization of these (optimal) codes is obtained. It is shown that, for R=1,2,..., the numbers of inequivalent (2R+3,7)R codes form the sequence 1,3,8,17,33,... identified as A002625 in the Encyclopedia of Integer Sequences and given by the coefficients in the expansion of 1/((1-x)³(1-x²)²(1-x³)).

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(Concerned with sequences A001399 A001400 A001401 A002625 A002625 and A072921 .)

Received January 11 2006; revised version received September 22 2006. Published in Journal of Integer Sequences September 22 2006.

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The Number of Inequivalent (2R+3,7)R Optimal Covering Codes

Gerzson Kéri Computer and Automation Research Institute Hungarian Academy of Sciences Kende u. 13-17 H-1111 Budapest Hungary Patric R. J. Östergård Department of Electrical and Communications Engineering Helsinki University of Technology P. O. Box 3000 02015 TKK Finland

Gerzson Kéri
Computer and Automation Research Institute
Hungarian Academy of Sciences
Kende u. 13-17
H-1111 Budapest
Hungary

Patric R. J. Östergård
Department of Electrical and Communications Engineering
Helsinki University of Technology
P. O. Box 3000
02015 TKK
Finland