论文信息 - Some Constructions of Mutually Orthogonal Latin Squares and Superimposed Codes

Some Constructions of Mutually Orthogonal Latin Squares and Superimposed Codes

Superimposed codes is a special combinatorial structure that has many applications in information theory, data communication and cryptography. On the other hand, mutually orthogonal latin squares is a beautiful combinatorial object that has deep connection with design theory. In this paper, we draw a connection between these two structures. We give explicit construction of mutually orthogonal latin squares and we show a method of generating new larger superimposed codes from an existing one by using mutually orthogonal latin squares. If n denotes the number of codewords in the existing code then the new code contains n2 codewords. Recursively, using this method, we can construct a very large superimposed code from a small simple code. Well-known constructions of superimposed codes are based on algebraic Reed–Solomon codes and our new construction gives a combinatorial alternative approach.

Jennifer Seberry | Dongvu Tonien

[1] Kathleen A. S. Quinn. Bounds for Key Distribution Patterns , 1999, Journal of Cryptology.

[2] Arkadii G. D'yachkov,et al. New Applications and Results of Superimposed Code Theory Arising from the Potentialities of Molecular Biology , 2000 .

[3] Arkadii G. D'yachkov,et al. New Results in the Theory of Superimposed Codes: Part I , 2000 .

[4] Annalisa De Bonis,et al. Constructions of generalized superimposed codes with applications to group testing and conflict resolution in multiple access channels , 2003, Theor. Comput. Sci..

[5] Damaraju Raghavarao,et al. New combinatorial designs and their applications to group testing , 1984 .

[6] Richard C. Singleton,et al. Nonrandom binary superimposed codes , 1964, IEEE Trans. Inf. Theory.

[7] Martin E. Dyer,et al. On key storage in secure networks , 1995, Journal of Cryptology.

[8] Arkadii G. D'yachkov,et al. New constructions of superimposed codes , 2000, IEEE Trans. Inf. Theory.

[9] A. Macula,et al. On optimal parameters of a class of superimposed codes and designs , 1998, Proceedings. 1998 IEEE International Symposium on Information Theory (Cat. No.98CH36252).

[10] Dongvu Tonien,et al. Recursive Constructions of Secure Codes and Hash Families Using Difference Function Families , 2005, IACR Cryptol. ePrint Arch..

[11] Dongvu Tonien,et al. An Efficient Single-Key Pirates Tracing Scheme Using Cover-Free Families , 2006, ACNS.