A random number generation method based on discrete time chaotic maps

Submitted by grigby1 on Wed, 12/27/2017 - 12:09pm

Title	A random number generation method based on discrete time chaotic maps
Publication Type	Conference Paper
Year of Publication	2017
Authors	Boyacı, O., Tantuğ, A. C.
Conference Name	2017 IEEE 60th International Midwest Symposium on Circuits and Systems (MWSCAS)
Date Published	Aug. 2017
Publisher	IEEE
ISBN Number	978-1-5090-6389-5
Keywords	bifurcation, chaos, chaotic cryptography, chaotic signal, composability, Correlation, cryptography, Entropy, field programmable analog arrays, field programmable analogue arrays, field programmable digital arrays, field programmable gate arrays, FIPS 140-2, FPAA-FPGA, Mathematical model, Metrics, NIST 800-22 randomness test, piecewise linear one dimensional discrete time chaotic maps, piecewise linear techniques, pubcrawl, random number generation, random number generation method, random number generator, Resiliency, statistical test, statistical testing, steganography
Abstract	In this paper a random number generation method based on a piecewise linear one dimensional (PL1D) discrete time chaotic maps is proposed for applications in cryptography and steganography. Appropriate parameters are determined by examining the distribution of underlying chaotic signal and random number generator (RNG) is numerically verified by four fundamental statistical test of FIPS 140-2. Proposed design is practically realized on the field programmable analog and digital arrays (FPAA-FPGA). Finally it is experimentally verified that the presented RNG fulfills the NIST 800-22 randomness test without post processing.
URL	https://ieeexplore.ieee.org/document/8053147
DOI	10.1109/MWSCAS.2017.8053147
Citation Key	boyaci_random_2017

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Science of Security VO