Analysis and Design of Digital Chaotic Systems With Desirable Performance via Feedback Control

The dynamical degradation of digital chaotic systems (DCSs) often has serious negative influences on some digital chaos-based systems and then becomes one of the bottleneck problems stopping chaos from some applications. In this paper, we first restrict the Devaney's chaos definition to finite...

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Published in:IEEE transactions on systems, man, and cybernetics. Systems man, and cybernetics. Systems, 2015-08, Vol.45 (8), p.1187-1200
Main Authors: Yashuang Deng, Hanping Hu, Wei Xiong, Xiong, Neal N., Lingfeng Liu
Format: Article
Language:English
Subjects:
Chaos
Control systems
Correlation
Devaney's chaos
digital chaotic systems (DCSs)
Digital systems
dynamical degradation
feedback control
Logistics
Orbits
pseudorandom number generator (PRNG)
Space vehicles
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description The dynamical degradation of digital chaotic systems (DCSs) often has serious negative influences on some digital chaos-based systems and then becomes one of the bottleneck problems stopping chaos from some applications. In this paper, we first restrict the Devaney's chaos definition to finite state sets to describe the chaotic motion of digital systems. Then, we propose a novel control method for DCSs based on the differential mean value theorem and state feedback technology. Simulation results show the effectiveness, robustness, and superiority of the proposed method. Finally, we construct a new pseudorandom number generator (PRNG) and evaluate its randomness via NIST SP800-22 and TestU01 test suites. Statistical test results show that the proposed PRNG has high reliability of randomness, thus it can be used for cryptography and other potential applications.
doi_str_mv 10.1109/TSMC.2015.2398836
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subjects Chaos
Control systems
Correlation
Devaney's chaos
digital chaotic systems (DCSs)
Digital systems
dynamical degradation
feedback control
Logistics
Orbits
pseudorandom number generator (PRNG)
Space vehicles
title Analysis and Design of Digital Chaotic Systems With Desirable Performance via Feedback Control
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