A new approach for constrained chaos synchronization with application to secure data communication

In this paper, a new technique is introduced for chaos secure data communication. In this approach, in addition to the usually used techniques for data encryption, the concept of carrier encryption is introduced to increase the security level of the secure communication scheme. To fulfill this objec...

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Published inJournal of the Franklin Institute Vol. 356; no. 12; pp. 6697 - 6723
Main Authors Hassan, Mohamed F., Hammuda, Mohammad
Format Journal Article
LanguageEnglish
Published Elmsford Elsevier Ltd 01.08.2019
Elsevier Science Ltd
Subjects
Bit error rate
Chaos theory
Constraints
Data communications
Data encryption
Encryption
Error analysis
Oscillators
Signal processing
Stability analysis
Synchronism
Time dependence
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Abstract In this paper, a new technique is introduced for chaos secure data communication. In this approach, in addition to the usually used techniques for data encryption, the concept of carrier encryption is introduced to increase the security level of the secure communication scheme. To fulfill this objective, at the transmitting end, two chaotic oscillators are coupled, and a set of inequality time dependent constraints with time dependent bounds is imposed on the generated chaotic signals. Moreover, to increase system complexity and its security level, the imposed set of constraints and their bounds are allowed to be changeable from one time period to another during the transmission process. As a result, the patterns of the generated chaotic signals are completely changed and the chaotic oscillator is completely encrypted. At the receiving end, the newly developed Constrained Smoothed Regularized Least Square (CSRLS) observer is used to synchronize the received constrained chaotic signals and hence retrieve the transmitted data. Using such an approach, the quality of the received information, measured by the Bit Error Rate (BER), is highly improved due to the superior performance of the developed CSRLS observer. The stability of the observer is analyzed, and simulation results are presented to show the efficiency and effectiveness of the proposed secure communication scheme.
AbstractList In this paper, a new technique is introduced for chaos secure data communication. In this approach, in addition to the usually used techniques for data encryption, the concept of carrier encryption is introduced to increase the security level of the secure communication scheme. To fulfill this objective, at the transmitting end, two chaotic oscillators are coupled, and a set of inequality time dependent constraints with time dependent bounds is imposed on the generated chaotic signals. Moreover, to increase system complexity and its security level, the imposed set of constraints and their bounds are allowed to be changeable from one time period to another during the transmission process. As a result, the patterns of the generated chaotic signals are completely changed and the chaotic oscillator is completely encrypted. At the receiving end, the newly developed Constrained Smoothed Regularized Least Square (CSRLS) observer is used to synchronize the received constrained chaotic signals and hence retrieve the transmitted data. Using such an approach, the quality of the received information, measured by the Bit Error Rate (BER), is highly improved due to the superior performance of the developed CSRLS observer. The stability of the observer is analyzed, and simulation results are presented to show the efficiency and effectiveness of the proposed secure communication scheme.
Author Hassan, Mohamed F.
Hammuda, Mohammad
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Snippet In this paper, a new technique is introduced for chaos secure data communication. In this approach, in addition to the usually used techniques for data...
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SubjectTerms Bit error rate
Chaos theory
Constraints
Data communications
Data encryption
Encryption
Error analysis
Oscillators
Signal processing
Stability analysis
Synchronism
Time dependence
Title A new approach for constrained chaos synchronization with application to secure data communication
URI https://dx.doi.org/10.1016/j.jfranklin.2019.05.013
https://www.proquest.com/docview/2280500328
Volume 356
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