Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron

Runtao Ren; Jinqi Su; Ban Yang; Raymond Y. K. Lau; Qilei Liu

doi:10.3390/e24111552

Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron

Runtao Ren^*, Jinqi Su^*, Ban Yang, Raymond Y. K. Lau, Qilei Liu

^*Corresponding author for this work

Department of Information Systems

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

7 Citations (Scopus)

51 Downloads (CityUHK Scholars)

Abstract

Multilayer perceptron is composed of massive distributed neural processors interconnected. The nonlinear dynamic components in these processors expand the input data into a linear combination of synapses. However, the nonlinear mapping ability of original multilayer perceptron is limited when processing high complexity information. The introduction of more powerful nonlinear components (e.g., S-box) to multilayer perceptron can not only reinforce its information processing ability, but also enhance the overall security. Therefore, we combine the methods of cryptography and information theory to design a low-power chaotic S-box (LPC S-box) with entropy coding in the hidden layer to make the multilayer perceptron process information more efficiently and safely. In the performance test, our S-box architecture has good properties, which can effectively resist main known attacks (e.g., Berlekamp Massey-attack and Ronjom-Helleseth attack). This interdisciplinary work can attract more attention from academia and industry to the security of multilayer perceptron.

Original language	English
Article number	1552
Journal	Entropy
Volume	24
Issue number	11
Online published	28 Oct 2022
DOIs	https://doi.org/10.3390/e24111552
Publication status	Published - Nov 2022

Funding

This research was funded by Key scientific research project of Shaanxi Provincial Department of Education (No. 18JZ052); Shaanxi Provincial Social Science Foundation (2022D161); Research on major theoretical and practical problems of philosophy and Social Sciences in Shaanxi Province general project later funded project “Research on cultivation mechanism and Countermeasures of data factor market in Shaanxi Province”; Research project of high quality development special research project of Shaanxi Provincial People’s Congress Financial and Economic Committee (2022HZ1500); Shaanxi Province Philosophy and Social Sciences Major Theoretical and Practical Problems Research General Project Later Funding Project (SX-318); Communications Soft Science Project of the Ministry of Industry and Information Technology (2021-R-44); General project of Xi’an soft science research (21RKYJ0019); the Research Grants Council of the Hong Kong Special Administrative Region, China (Project: CityU 11507219); the CityU SRG (Project: 7005780); Humanities and social sciences fund of the Ministry of Education (Youth Project) under Grant 20YJC630086; Key scientific research program of Shaanxi Provincial Department of Education (20JT058).

Research Keywords

S-box
multilayer perceptron
information theory
cyber security

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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title = "Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron",

abstract = "Multilayer perceptron is composed of massive distributed neural processors interconnected. The nonlinear dynamic components in these processors expand the input data into a linear combination of synapses. However, the nonlinear mapping ability of original multilayer perceptron is limited when processing high complexity information. The introduction of more powerful nonlinear components (e.g., S-box) to multilayer perceptron can not only reinforce its information processing ability, but also enhance the overall security. Therefore, we combine the methods of cryptography and information theory to design a low-power chaotic S-box (LPC S-box) with entropy coding in the hidden layer to make the multilayer perceptron process information more efficiently and safely. In the performance test, our S-box architecture has good properties, which can effectively resist main known attacks (e.g., Berlekamp Massey-attack and Ronjom-Helleseth attack). This interdisciplinary work can attract more attention from academia and industry to the security of multilayer perceptron.",

keywords = "S-box, multilayer perceptron, information theory, cyber security",

author = "Runtao Ren and Jinqi Su and Ban Yang and Lau, {Raymond Y. K.} and Qilei Liu",

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T1 - Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron

AU - Ren, Runtao

AU - Su, Jinqi

AU - Yang, Ban

AU - Lau, Raymond Y. K.

AU - Liu, Qilei

PY - 2022/11

Y1 - 2022/11

N2 - Multilayer perceptron is composed of massive distributed neural processors interconnected. The nonlinear dynamic components in these processors expand the input data into a linear combination of synapses. However, the nonlinear mapping ability of original multilayer perceptron is limited when processing high complexity information. The introduction of more powerful nonlinear components (e.g., S-box) to multilayer perceptron can not only reinforce its information processing ability, but also enhance the overall security. Therefore, we combine the methods of cryptography and information theory to design a low-power chaotic S-box (LPC S-box) with entropy coding in the hidden layer to make the multilayer perceptron process information more efficiently and safely. In the performance test, our S-box architecture has good properties, which can effectively resist main known attacks (e.g., Berlekamp Massey-attack and Ronjom-Helleseth attack). This interdisciplinary work can attract more attention from academia and industry to the security of multilayer perceptron.

AB - Multilayer perceptron is composed of massive distributed neural processors interconnected. The nonlinear dynamic components in these processors expand the input data into a linear combination of synapses. However, the nonlinear mapping ability of original multilayer perceptron is limited when processing high complexity information. The introduction of more powerful nonlinear components (e.g., S-box) to multilayer perceptron can not only reinforce its information processing ability, but also enhance the overall security. Therefore, we combine the methods of cryptography and information theory to design a low-power chaotic S-box (LPC S-box) with entropy coding in the hidden layer to make the multilayer perceptron process information more efficiently and safely. In the performance test, our S-box architecture has good properties, which can effectively resist main known attacks (e.g., Berlekamp Massey-attack and Ronjom-Helleseth attack). This interdisciplinary work can attract more attention from academia and industry to the security of multilayer perceptron.

KW - S-box

KW - multilayer perceptron

KW - information theory

KW - cyber security

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DO - 10.3390/e24111552

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JO - Entropy

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Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron

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Novel Low-Power Construction of Chaotic S-Box in Multilayer Perceptron

Abstract

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GRF: A Generative Deep Learning Framework for Emotion-sensitive Robo-advisors in Personal Wealth Management

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