Strange attractors used as telegraphic noise generators

Generative models for the error process in digital transmission channels are implemented deriving error gap lengths from chaotic equations by means of simple procedures. The results obtained by Costamagna and Schirru (see ibid., vol.1, p.577-581, 1994) from the Henon equations are completed, and con...

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Published in1995 IEEE International Conference on Systems, Man and Cybernetics. Intelligent Systems for the 21st Century Vol. 2; pp. 1211 - 1215 vol.2
Main Authors Costamagna, E., Filigheddu, G., Schirru, A.
Format Conference Proceeding
LanguageEnglish
Published IEEE 1995
Subjects
Bit error rate
Chaos
Equations
Error correction
Fractals
Land mobile radio
Noise generators
Signal detection
Signal generators
Statistical distributions
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Summary:Generative models for the error process in digital transmission channels are implemented deriving error gap lengths from chaotic equations by means of simple procedures. The results obtained by Costamagna and Schirru (see ibid., vol.1, p.577-581, 1994) from the Henon equations are completed, and continuous-time chaotic systems are introduced in order to provide a better adjustment of the renewal or non-renewal behavior of the error gap sequences. Simple procedures are introduced to allow independent control of the relevant statistical parameters of the generated error process. As an example, an UHF mobile radio channel is simulated, and the capability of the chaotic model to give adjustable non-renewal characteristics, yet exhibiting compliance to imposed statistical parameters, is demonstrated.
ISBN:0780325591
9780780325593
DOI:10.1109/ICSMC.1995.537936