A current mode CMOS noise generator using multiple Bernoulli maps

J. López-Hernández; A. Díaz-Méndez; J. L. Del-Río-Correa; M. Cruz-Irisson; R. Vázquez-Medina

doi:10.1016/j.mee.2011.05.009

A current mode CMOS noise generator using multiple Bernoulli maps

J. López-Hernández, A. Díaz-Méndez, J. L. Del-Río-Correa, M. Cruz-Irisson, R. Vázquez-Medina

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Culhuacán
Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Querétaro

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This paper presents the analysis and design of a chaotic noise generator using statistical mechanic tools. The noise generator is a CMOS analog circuit operating in current mode, which generates chaotic signals using four Bernoulli chaotic maps with topological dependency on each other. They are randomly or deterministically selected to be applied by iterating an initial condition. These variants of the Bernoulli map are different in their slope and attenuation process. The initial condition can be considered as the secret key in the generation of chaotic noise. The advantage of this chaotic noise generator is that its' control parameter can be selected within an interval greater than the one obtained when basic Bernoulli map is used.

Original language	English
Pages (from-to)	163-167
Number of pages	5
Journal	Microelectronic Engineering
Volume	90
DOIs	https://doi.org/10.1016/j.mee.2011.05.009
State	Published - Feb 2012

Keywords

CMOS circuits
Chaotic noise
Noise generators

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10.1016/j.mee.2011.05.009

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title = "A current mode CMOS noise generator using multiple Bernoulli maps",

abstract = "This paper presents the analysis and design of a chaotic noise generator using statistical mechanic tools. The noise generator is a CMOS analog circuit operating in current mode, which generates chaotic signals using four Bernoulli chaotic maps with topological dependency on each other. They are randomly or deterministically selected to be applied by iterating an initial condition. These variants of the Bernoulli map are different in their slope and attenuation process. The initial condition can be considered as the secret key in the generation of chaotic noise. The advantage of this chaotic noise generator is that its' control parameter can be selected within an interval greater than the one obtained when basic Bernoulli map is used.",

keywords = "CMOS circuits, Chaotic noise, Noise generators",

author = "J. L{\'o}pez-Hern{\'a}ndez and A. D{\'i}az-M{\'e}ndez and Del-R{\'i}o-Correa, {J. L.} and M. Cruz-Irisson and R. V{\'a}zquez-Medina",

note = "Funding Information: The authors are grateful to the financial support of the SIP-IPN 20110670 and ICYTDF 270/2010 projects.",

year = "2012",

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T1 - A current mode CMOS noise generator using multiple Bernoulli maps

AU - López-Hernández, J.

AU - Díaz-Méndez, A.

AU - Del-Río-Correa, J. L.

AU - Cruz-Irisson, M.

AU - Vázquez-Medina, R.

N1 - Funding Information: The authors are grateful to the financial support of the SIP-IPN 20110670 and ICYTDF 270/2010 projects.

PY - 2012/2

Y1 - 2012/2

N2 - This paper presents the analysis and design of a chaotic noise generator using statistical mechanic tools. The noise generator is a CMOS analog circuit operating in current mode, which generates chaotic signals using four Bernoulli chaotic maps with topological dependency on each other. They are randomly or deterministically selected to be applied by iterating an initial condition. These variants of the Bernoulli map are different in their slope and attenuation process. The initial condition can be considered as the secret key in the generation of chaotic noise. The advantage of this chaotic noise generator is that its' control parameter can be selected within an interval greater than the one obtained when basic Bernoulli map is used.

AB - This paper presents the analysis and design of a chaotic noise generator using statistical mechanic tools. The noise generator is a CMOS analog circuit operating in current mode, which generates chaotic signals using four Bernoulli chaotic maps with topological dependency on each other. They are randomly or deterministically selected to be applied by iterating an initial condition. These variants of the Bernoulli map are different in their slope and attenuation process. The initial condition can be considered as the secret key in the generation of chaotic noise. The advantage of this chaotic noise generator is that its' control parameter can be selected within an interval greater than the one obtained when basic Bernoulli map is used.

KW - CMOS circuits

KW - Chaotic noise

KW - Noise generators

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DO - 10.1016/j.mee.2011.05.009

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SN - 0167-9317

VL - 90

SP - 163

EP - 167

JO - Microelectronic Engineering

JF - Microelectronic Engineering

ER -

A current mode CMOS noise generator using multiple Bernoulli maps

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