Your search keyword '"Ali Akbar Kekha Javan"' showing total 4 results

1. Medical Images Encryption Based on Adaptive-Robust Multi-Mode Synchronization of Chen Hyper-Chaotic Systems

Author

Ali Akbar Kekha Javan, Mahboobeh Jafari, Afshin Shoeibi, Assef Zare, Marjane Khodatars, Navid Ghassemi, Roohallah Alizadehsani, and Juan Manuel Gorriz

Subjects

medical images, encryption, multi-mode synchronization, robust control, adaptive control, time varying, Chemical technology, TP1-1185

Abstract

In this paper, a novel medical image encryption method based on multi-mode synchronization of hyper-chaotic systems is presented. The synchronization of hyper-chaotic systems is of great significance in secure communication tasks such as encryption of images. Multi-mode synchronization is a novel and highly complex issue, especially if there is uncertainty and disturbance. In this work, an adaptive-robust controller is designed for multimode synchronized chaotic systems with variable and unknown parameters, despite the bounded disturbance and uncertainty with a known function in two modes. In the first case, it is a main system with some response systems, and in the second case, it is a circular synchronization. Using theorems it is proved that the two synchronization methods are equivalent. Our results show that, we are able to obtain the convergence of synchronization error and parameter estimation error to zero using Lyapunov’s method. The new laws to update time-varying parameters, estimating disturbance and uncertainty bounds are proposed such that stability of system is guaranteed. To assess the performance of the proposed synchronization method, various statistical analyzes were carried out on the encrypted medical images and standard benchmark images. The results show effective performance of the proposed synchronization technique in the medical images encryption for telemedicine application.

Published

2021

2. Design of Adaptive-Robust Controller for Multi-State Synchronization of Chaotic Systems with Unknown and Time-Varying Delays and Its Application in Secure Communication

Author

Ali Akbar Kekha Javan, Afshin Shoeibi, Assef Zare, Navid Hosseini Izadi, Mahboobeh Jafari, Roohallah Alizadehsani, Parisa Moridian, Amir Mosavi, U. Rajendra Acharya, and Saeid Nahavandi

Subjects

time-delayed chaotic systems, adaptive-robust control, multi-state synchronization, unknown time delays, secure communications, time varying parameter, Chemical technology, TP1-1185

Abstract

In this paper, the multi-state synchronization of chaotic systems with non-identical, unknown, and time-varying delay in the presence of external perturbations and parametric uncertainties was studied. The presence of unknown delays, unknown bounds of disturbance and uncertainty, as well as changes in system parameters complicate the determination of control function and synchronization. During a synchronization scheme using a robust-adaptive control procedure with the help of the Lyapunov stability theorem, the errors converged to zero, and the updating rules were set to estimate the system parameters and delays. To investigate the performance of the proposed design, simulations have been carried out on two Chen hyper-chaotic systems as the slave and one Chua hyper-chaotic system as the master. Our results showed that the proposed controller outperformed the state-of-the-art techniques in terms of convergence speed of synchronization, parameter estimation, and delay estimation processes. The parameters and time delays were achieved with appropriate approximation. Finally, secure communication was realized with a chaotic masking method, and our results revealed the effectiveness of the proposed method in secure telecommunications.

Published

2021

3. Design of Adaptive-Robust Controller for Multi-State Synchronization of Chaotic Systems with Unknown and Time-Varying Delays and Its Application in Secure Communication

Author

Afshin Shoeibi, Mahboobeh Jafari, Saeid Nahavandi, Amirhosein Mosavi, Assef Zare, Navid Hosseini Izadi, Roohallah Alizadehsani, Ali Akbar Kekha Javan, Parisa Moridian, and U. Rajendra Acharya

Subjects

0209 industrial biotechnology, Computer science, unknown time delays, time varying parameter, 02 engineering and technology, lcsh:Chemical technology, Biochemistry, Article, Synchronization, secure communications, Analytical Chemistry, 020901 industrial engineering & automation, Secure communication, Control theory, Synchronization (computer science), circular multi state synchronization, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Parametric statistics, Lyapunov stability, adaptive-robust control, multi-state synchronization, Estimation theory, business.industry, Atomic and Molecular Physics, and Optics, time-delayed chaotic systems, 020201 artificial intelligence & image processing, business

Abstract

In this paper, the multi-state synchronization of chaotic systems with non-identical, unknown, and time-varying delay in the presence of external perturbations and parametric uncertainties was studied. The presence of unknown delays, unknown bounds of disturbance and uncertainty, as well as changes in system parameters complicate the determination of control function and synchronization. During a synchronization scheme using a robust-adaptive control procedure with the help of the Lyapunov stability theorem, the errors converged to zero, and the updating rules were set to estimate the system parameters and delays. To investigate the performance of the proposed design, simulations have been carried out on two Chen hyper-chaotic systems as the slave and one Chua hyper-chaotic system as the master. Our results showed that the proposed controller outperformed the state-of-the-art techniques in terms of convergence speed of synchronization, parameter estimation, and delay estimation processes. The parameters and time delays were achieved with appropriate approximation. Finally, secure communication was realized with a chaotic masking method, and our results revealed the effectiveness of the proposed method in secure telecommunications.

Published

2021

4. Medical Images Encryption Based on Adaptive-Robust Multi-Mode Synchronization of Chen Hyper-Chaotic Systems

Author

Roohallah Alizadehsani, Navid Ghassemi, Ali Akbar Kekha Javan, Assef Zare, Juan Manuel Górriz, Afshin Shoeibi, Mahboobeh Jafari, and Marjane Khodatars

Subjects

Lyapunov function, Adaptive control, Computer science, Robust control, Encryption, TP1-1185, 02 engineering and technology, time varying, adaptive control, Biochemistry, Article, Analytical Chemistry, Multi-mode synchronization, symbols.namesake, Secure communication, Synchronization (computer science), 0202 electrical engineering, electronic engineering, information engineering, Computer Simulation, lyapunov stability, Electrical and Electronic Engineering, multi-mode synchronization, Instrumentation, encryption, Lyapunov stability, business.industry, Communication, Chemical technology, Uncertainty, 020206 networking & telecommunications, medical images, Atomic and Molecular Physics, and Optics, Medical images, Nonlinear Dynamics, Benchmark (computing), symbols, 020201 artificial intelligence & image processing, business, Algorithm, Algorithms, robust control, Time varying

Abstract

In this paper, a novel medical image encryption method based on multi-mode synchronization of hyper-chaotic systems is presented. The synchronization of hyper-chaotic systems is of great significance in secure communication tasks such as encryption of images. Multi-mode synchronization is a novel and highly complex issue, especially if there is uncertainty and disturbance. In this work, an adaptive-robust controller is designed for multimode synchronized chaotic systems with variable and unknown parameters, despite the bounded disturbance and uncertainty with a known function in two modes. In the first case, it is a main system with some response systems, and in the second case, it is a circular synchronization. Using theorems it is proved that the two synchronization methods are equivalent. Our results show that, we are able to obtain the convergence of synchronization error and parameter estimation error to zero using Lyapunov’s method. The new laws to update time-varying parameters, estimating disturbance and uncertainty bounds are proposed such that stability of system is guaranteed. To assess the performance of the proposed synchronization method, various statistical analyzes were carried out on the encrypted medical images and standard benchmark images. The results show effective performance of the proposed synchronization technique in the medical images encryption for telemedicine application., MINECO/ FEDER under the RTI2018-098913-B100 CV20-45250 and A-TIC- 080-UGR18 projects

Published

2021