An Experimental Realization of a Chaos-Based Secure Communication Using Arduino Microcontrollers

Security and secrecy are some of the important concerns in the communications world. In the last years, several encryption techniques have been proposed in order to improve the secrecy of the information transmitted. Chaos-based encryption techniques are being widely studied as part of the problem b...

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Vydáno v:TheScientificWorld Ročník 2015; číslo 2015; s. 1 - 10
Hlavní autoři: Zapateiro De la Hoz, Mauricio, Vidal, Yolanda, Acho, Leonardo
Médium: Journal Article Publikace
Jazyk:angličtina
Vydáno: Cairo, Egypt Hindawi Publishing Corporation 2015
John Wiley & Sons, Inc
Wiley
Témata:
93 Systems Theory; Control
Arduino
Chaos
Chaos theory
Classificació AMS
Communications systems
Criptografia
Cryptography
Data encryption
Logistics
Matemàtiques i estadística
Methods
Microcontrollers
secure communication
Àrees temàtiques de la UPC
ISSN:2356-6140, 1537-744X, 1537-744X
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Shrnutí:Security and secrecy are some of the important concerns in the communications world. In the last years, several encryption techniques have been proposed in order to improve the secrecy of the information transmitted. Chaos-based encryption techniques are being widely studied as part of the problem because of the highly unpredictable and random-look nature of the chaotic signals. In this paper we propose a digital-based communication system that uses the logistic map which is a mathematically simple model that is chaotic under certain conditions. The input message signal is modulated using a simple Delta modulator and encrypted using a logistic map. The key signal is also encrypted using the same logistic map with different initial conditions. In the receiver side, the binary-coded message is decrypted using the encrypted key signal that is sent through one of the communication channels. The proposed scheme is experimentally tested using Arduino shields which are simple yet powerful development kits that allows for the implementation of the communication system for testing purposes.
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Academic Editor: Chengqing Li
ISSN:2356-6140
1537-744X
1537-744X
DOI:10.1155/2015/123080