May  2016, 10(2): 379-391. doi: 10.3934/amc.2016012

Codes over local rings of order 16 and binary codes

1. 

Department of Mathematics, University of Scranton, Scranton, PA 18510, United States, United States

2. 

Department of Mathematics and Statistics, Eastern Kentucky University Richmond, KY 40475, United States

Received  August 2014 Revised  February 2015 Published  April 2016

We study codes over the commutative local Frobenius rings of order 16 with maximal ideals of size 8. We define a weight preserving Gray map and study the images of these codes as binary codes. We study self-dual codes and determine when they exist.
Citation: Steven T. Dougherty, Esengül Saltürk, Steve Szabo. Codes over local rings of order 16 and binary codes. Advances in Mathematics of Communications, 2016, 10 (2) : 379-391. doi: 10.3934/amc.2016012
References:
[1]

J. H. Conway and N. J. A. Sloane, A new upper bound on the minimal distance of self-dual codes,, IEEE-IT, 36 (1990), 1319.  doi: 10.1109/18.59931.  Google Scholar

[2]

S. T. Dougherty and C. Fernandez-Cordoba, Codes over $\mathbbZ_{2^k}$, Gray maps and self-dual codes,, Adv. Math. Commun., 5 (2011), 571.  doi: 10.3934/amc.2011.5.571.  Google Scholar

[3]

S. T. Dougherty, P. Gaborit, M. Harada, A. Munemasa and P. Solé, Type IV self-dual codes over rings,, IEEE-IT, 45 (1999), 2345.  doi: 10.1109/18.796375.  Google Scholar

[4]

S. T. Dougherty, J. L. Kim, H. Kulosman and H. Liu, Self-dual codes over Frobenius rings,, Finite Fields Appl., 16 (2010), 14.  doi: 10.1016/j.ffa.2009.11.004.  Google Scholar

[5]

S. T. Dougherty and H. Liu, Independence of vectors in codes over rings,, Des. Codes Crypt., 51 (2009), 55.  doi: 10.1007/s10623-008-9243-1.  Google Scholar

[6]

S. T. Dougherty and K. Shiromoto, Maximum distance codes over rings of order 4,, IEEE-IT, 47 (2001), 400.  doi: 10.1109/18.904544.  Google Scholar

[7]

S. T. Dougherty, B. Yildiz and S. Karadeniz, Codes over $R_k$, Gray maps and their binary images,, Finite Fields Appl., 17 (2011), 205.  doi: 10.1016/j.ffa.2010.11.002.  Google Scholar

[8]

A. R. Hammons Jr., P. V. Kumar, A. R. Calderbank, N. J. A. Sloane and P. Solé, The $Z_4$-linearity of Kerdock, Preparata, Goethals and related codes,, IEEE-IT, 40 (1994), 301.  doi: 10.1109/18.312154.  Google Scholar

[9]

F. J. MacWilliams and N. J. A. Sloane, The Theory of Error-Correcting Codes,, North-Holland, (1977).   Google Scholar

[10]

E. Martinez-Moro and S. Szabo, On codes over local Frobenius non-chain rings of order 16,, Contemp. Math., 634 (2015), 227.  doi: 10.1090/conm/634/12702.  Google Scholar

[11]

J. Wood, Duality for modules over finite rings and applications to coding theory,, Amer. J. Math., 121 (1999), 555.   Google Scholar

[12]

B. Yildiz and S. Karadeniz, Linear codes over $\mathbbF_2 + u \mathbbF_2 + v \mathbbF_2 + uv \mathbbF_2$,, Des. Codes Crypt., 54 (2010), 61.  doi: 10.1007/s10623-009-9309-8.  Google Scholar

[13]

B. Yildiz and S. Karadeniz, A new construction for the extended binary Golay code,, Appl. Math. Inf. Sci., 8 (2014), 69.  doi: 10.12785/amis/080107.  Google Scholar

[14]

B. Yildiz and S. Karadeniz, Linear codes over $\mathbbZ_4 + u \mathbbZ_4$, MacWilliams identities, projections, and formally self-dual codes,, Finite Fields Appl., 27 (2014), 24.  doi: 10.1016/j.ffa.2013.12.007.  Google Scholar

show all references

References:
[1]

J. H. Conway and N. J. A. Sloane, A new upper bound on the minimal distance of self-dual codes,, IEEE-IT, 36 (1990), 1319.  doi: 10.1109/18.59931.  Google Scholar

[2]

S. T. Dougherty and C. Fernandez-Cordoba, Codes over $\mathbbZ_{2^k}$, Gray maps and self-dual codes,, Adv. Math. Commun., 5 (2011), 571.  doi: 10.3934/amc.2011.5.571.  Google Scholar

[3]

S. T. Dougherty, P. Gaborit, M. Harada, A. Munemasa and P. Solé, Type IV self-dual codes over rings,, IEEE-IT, 45 (1999), 2345.  doi: 10.1109/18.796375.  Google Scholar

[4]

S. T. Dougherty, J. L. Kim, H. Kulosman and H. Liu, Self-dual codes over Frobenius rings,, Finite Fields Appl., 16 (2010), 14.  doi: 10.1016/j.ffa.2009.11.004.  Google Scholar

[5]

S. T. Dougherty and H. Liu, Independence of vectors in codes over rings,, Des. Codes Crypt., 51 (2009), 55.  doi: 10.1007/s10623-008-9243-1.  Google Scholar

[6]

S. T. Dougherty and K. Shiromoto, Maximum distance codes over rings of order 4,, IEEE-IT, 47 (2001), 400.  doi: 10.1109/18.904544.  Google Scholar

[7]

S. T. Dougherty, B. Yildiz and S. Karadeniz, Codes over $R_k$, Gray maps and their binary images,, Finite Fields Appl., 17 (2011), 205.  doi: 10.1016/j.ffa.2010.11.002.  Google Scholar

[8]

A. R. Hammons Jr., P. V. Kumar, A. R. Calderbank, N. J. A. Sloane and P. Solé, The $Z_4$-linearity of Kerdock, Preparata, Goethals and related codes,, IEEE-IT, 40 (1994), 301.  doi: 10.1109/18.312154.  Google Scholar

[9]

F. J. MacWilliams and N. J. A. Sloane, The Theory of Error-Correcting Codes,, North-Holland, (1977).   Google Scholar

[10]

E. Martinez-Moro and S. Szabo, On codes over local Frobenius non-chain rings of order 16,, Contemp. Math., 634 (2015), 227.  doi: 10.1090/conm/634/12702.  Google Scholar

[11]

J. Wood, Duality for modules over finite rings and applications to coding theory,, Amer. J. Math., 121 (1999), 555.   Google Scholar

[12]

B. Yildiz and S. Karadeniz, Linear codes over $\mathbbF_2 + u \mathbbF_2 + v \mathbbF_2 + uv \mathbbF_2$,, Des. Codes Crypt., 54 (2010), 61.  doi: 10.1007/s10623-009-9309-8.  Google Scholar

[13]

B. Yildiz and S. Karadeniz, A new construction for the extended binary Golay code,, Appl. Math. Inf. Sci., 8 (2014), 69.  doi: 10.12785/amis/080107.  Google Scholar

[14]

B. Yildiz and S. Karadeniz, Linear codes over $\mathbbZ_4 + u \mathbbZ_4$, MacWilliams identities, projections, and formally self-dual codes,, Finite Fields Appl., 27 (2014), 24.  doi: 10.1016/j.ffa.2013.12.007.  Google Scholar

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