Breaking a chaos-noise-based secure communication scheme |
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Authors: | Li Shujun Alvarez Gonzalo Chen Guanrong Mou Xuanqin |
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Institution: | Department of Electronic Engineering, City University of Hong Kong, Kowloon, Hong Kong SAR, China. hooklee@mail.com |
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Abstract: | This paper studies the security of a secure communication scheme based on two discrete-time intermittently chaotic systems synchronized via a common random driving signal. Some security defects of the scheme are revealed: 1) The key space can be remarkably reduced; 2) the decryption is insensitive to the mismatch of the secret key; 3) the key-generation process is insecure against known/chosen-plaintext attacks. The first two defects mean that the scheme is not secure enough against brute-force attacks, and the third one means that an attacker can easily break the cryptosystem by approximately estimating the secret key once he has a chance to access a fragment of the generated keystream. Yet it remains to be clarified if intermittent chaos could be used for designing secure chaotic cryptosystems. |
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