Enviar artigo por via de e-mail ON PROPERTIES OF KNAPSACK SYSTEMS OF INFORMATION PROTECTION WITH THE OPEN KEY IN Zp
- Autores: Podkolzin V.V.1, Osipyan V.O.1
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Afiliações:
- Kuban State University
- Edição: Volume 11, Nº 7 (2010)
- Páginas: 120-124
- Seção: Articles
- URL: https://journals.eco-vector.com/2712-8970/article/view/505805
- ID: 505805
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Resumo
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Properties of sequences of numbers expressed through components of a knapsack vector are investigated. Properties of isomorphic and similar knapsack systems of information protection are analyzed. Methods of increasing cryptographic security of knapsack systems of information protection with an open key are presented. Keywords: a knapsack vector, isomorphism, cryptoanalysis, density, injectivity. Let’s express a set of natural numbers {0, 1, …, p–1} through Zp and a set of all numerical sets of length n with components from Zp. through n Z p . A knapsack problem for set w ∈ N and vector A = (а1, а2, …, аn), where аi∈N, I = 1…n, has the solution in Zp if there is an equation solution AxT = w, x∈ n Z p (1) we will call vector А of equations (1) a knapsack vector. A knapsack vector A = (а1, а2, …, аn) is an injective one if for any natural w the equation (1) has not more than one solution. A knapsack vector which has two elements ai = aj, I ≠ j, is not injective. Injectivity of a knapsack vector allows to speak about uniqueness of restoration of the original text according to the cryptogram. Supergrowing knapsack vectors are the simplest injective knapsack vectors from the point of view of understanding and algorithmization. For their components in Zp the following relationships are carried out: 1 1 ( 1) j j i i a p a − >Σ − , j = 2...n (2) A knapsack vector A = (а1, а2, …, аn) is a nondecreasing one if its components are ordered according to the rule ai–1 ≤ аi, I = 2…n. Accordingly, the vector is increasing if its components are ordered according to the rule ai–1 <аi, I = 2…n. Definition. Let’s call vector ΔA = (δ 1, δ2, …, δn) a variation of vector A = (а1, а2, …, аn) (аi ∈ N, I = 1…n) in Zp, For its components the following correlations are carried out: δ1 = a1 , 1×
Sobre autores
V. Podkolzin
Kuban State UniversityRussia, Krasnodar
V. Osipyan
Kuban State UniversityRussia, Krasnodar
Bibliografia
- Оsipyan V. О. Development of methods of information transmission and security systems construction. Кrasnodar, 2004.
- Salomaa A. Cryptography with an open key. М. : World, 1995.
- Podkolzin V. V., Оsipyan V. О. Upper boundary of a number of solutions of a generalized task of a knapsack on a set point // Actual problems of information technologies safety : materials of III International theoretical and practical conf. / edited by О. N. Zhdanov, V. V. Zolotarev ; Siberian state aerospace university. Кrasnoyarsk, 2009. P. 30–33.
- Podkolzin V. V. A model of information security system with an open key on the basis of dynamic generation of a knapsack vector. М. : ОPandPМ, 2009. Vol. 16. Issue 5. P. 913–914.
- Podkolzin V. V., Оsipyan V. О. Of one modification of information security task with an open key on the basis of a generalized knapsack point. М. : ОPandPМ, 2009, Vol. 16. Issue 5. Р. 905.
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