A Systems Theoretic Approach to the Design of Scalable Cryptographic Hash Functions.

Josef Scharinger

A Systems Theoretic Approach to the Design of Scalable Cryptographic Hash Functions.

Institute of Computational Perception

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Cryptographic hash functions are security primitives that compute check sums of messages in a strong manner and this way are of fundamental importance for ensuring integrity and authenticity in secure communications. However, recent developments in cryptanalysis indicate that conventional approaches to the design of cryptographic hash functions may have some shortcomings. Therefore it is the intention of this contribution to propose a novel way how to design cryptographic hash functions. Our approach is based on the idea that the hash value of a message is computed as a messagedependent permutation generated by very special chaotic permutation systems, so called Kolomogorov systems. Following this systems theoretic approach we obtain arguably strong hash functions with the additional useful property of excellent scalability.

Original language	English
Title of host publication	Proceedings of the 11th International Conference on Computer Aided Systems Theory (EuroCast 2007)
Publisher	Springer Verlag
Number of pages	8
Publication status	Published - 2007

Fields of science

102 Computer Sciences
102001 Artificial intelligence
102003 Image processing
102015 Information systems
202002 Audiovisual media

Cite this

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title = "A Systems Theoretic Approach to the Design of Scalable Cryptographic Hash Functions.",

abstract = "Cryptographic hash functions are security primitives that compute check sums of messages in a strong manner and this way are of fundamental importance for ensuring integrity and authenticity in secure communications. However, recent developments in cryptanalysis indicate that conventional approaches to the design of cryptographic hash functions may have some shortcomings. Therefore it is the intention of this contribution to propose a novel way how to design cryptographic hash functions. Our approach is based on the idea that the hash value of a message is computed as a messagedependent permutation generated by very special chaotic permutation systems, so called Kolomogorov systems. Following this systems theoretic approach we obtain arguably strong hash functions with the additional useful property of excellent scalability.",

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AB - Cryptographic hash functions are security primitives that compute check sums of messages in a strong manner and this way are of fundamental importance for ensuring integrity and authenticity in secure communications. However, recent developments in cryptanalysis indicate that conventional approaches to the design of cryptographic hash functions may have some shortcomings. Therefore it is the intention of this contribution to propose a novel way how to design cryptographic hash functions. Our approach is based on the idea that the hash value of a message is computed as a messagedependent permutation generated by very special chaotic permutation systems, so called Kolomogorov systems. Following this systems theoretic approach we obtain arguably strong hash functions with the additional useful property of excellent scalability.

M3 - Conference proceedings

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