Abstract
We have considered the problem of secure communication by means of chaotic carrier communication channels. Data protection is provided if the signal in the communication channel looks like a stochastic or noisy one, i.e., by the steganography property, and also by using advanced and secured approaches of mixing a useful signal into a chaotic carrier. The problem is to find effective and efficient techniques for useful signal reconstruction at the receiver side. We firstly use a synergetic nonlinear mathematical observer to recover the two useful signals transmitted simultaneously over a single communication channel. Compared to a known observer, the synergetic one operates with initial nonlinear models, i.e., it may be applied directly to chaotic systems. In that system structure, we consider the useful signals as unobservable variables and estimate them by the given model of a chaotic generator. A chaotic data transmission system with two channels is demonstrated; the presented mathematical procedure explains the steps of synergetic two-channel observer design. Computer simulation results prove the viability of our approach. The proposed data transmission scheme and the observer design procedure provide effective transmission and reconstruction of informational signals. Reconstruction error is up to approximately 25% but has a very short pulses shape and could be eliminated with further analog or digital filtering algorithms. As an example application, simulation of image transmission and recovery is demonstrated. The study’s results may be used as a basis for further research into secure data transmission system design.
Highlights
Dynamic chaos as a phenomenon has attracted researchers’ attention since the well-known works of Lorenz [1,2]
We firstly present a design procedure for a two-channel nonlinear synergetic observer that we used as an adaptive method of signal reception in chaotic carrier communication system; The presented design procedure is implemented for Rössler generator; We built a chaotic communication system viable structure based on the combination of chaotic generator nonlinear parametric modulation, method of global reconstruction of a dynamic system and nonlinear synergetic observer; Application of synergetic observer chaotic carrier communication system for image transmission
According (b) two-channel synergetic to the above example of(a)chaotic carrier communication system design and observer design procedure for a Rössler chaotic generator, we provide this algorithm in detail to Transmittedsignal signalreconstruction reconstructionerror: error: (a)
Summary
Dynamic chaos as a phenomenon has attracted researchers’ attention since the well-known works of Lorenz [1,2]. Chaotic systems and the phenomena of dynamic chaos are used in the development of communication systems [9,10,11,12]. Electronics 2020, 9, 497 digital and/or analog signals hardware and software encryption with various algorithms. Another advanced approach is use of chaotic oscillation generators instead of a van der Pol oscillator as a carrier oscillation generator in data transmission systems. In such a case the unpredictable nature of a chaotic carrier to an external listener becomes a protective tool itself. Secondary problems may include transmitter and receiver systems synchronization, signal reconstruction accuracy, etc
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