Jun Mou scite author profile

Combining hyperchaotic map, cross-plane operation and gene theory, a color image encryption scheme is devised. First, the hyperchaotic map used in the encryption scheme is analyzed and studied. On the basis of the dynamics of hyperchaotic map, a color image encryption scheme is designed. At the end of the encryption process, a DNA mutation operation is used to increase the encoding images’ randomness and improve the encryption algorithm’s security. Finally, simulation experiments, performance analysis, and attack tests are performed to prove its effectiveness and security of the designed algorithm. The research work in this paper offers the possibility of applying chaos theory and gene theory in image encryption.

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Memristor-Based LSTM Network for Text Classification

Dou

Zhao

Guo

et al. 2023

Fractals

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Long short-term memory (LSTM) with significantly increased complexity and a large number of parameters have a bottleneck in computing power resulting from limited memory capacity. Hardware acceleration of LSTM using memristor circuit is an effective solution. This paper presents a complete design of memristive LSTM network system. Both the LSTM cell and the fully connected layer circuit are implemented through memristor crossbars, and the 1T1R design avoids the influence of the sneak current which helps to improve the accuracy of network calculation. To reduce the power consumption, the word embedding dimensionality was reduced using the GloVe model, and the number of features in the hidden layer was reduced. The effectiveness of the proposed scheme is verified by performing the text classification task on the IMDB dataset and the hardware training accuracy reached as high as 88.58%.

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A New Image Encryption Scheme based on Fractional-order Hyperchaotic System and Multiple Image Fusion

Gao

Yan

et al. 2021

Preprint

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A multi-image encryption scheme based on the fractional-order hyperchaotic system is designed in this paper. The chaotic characteristics of this system are analyzed by the phase diagram, Lyapunov exponent and bifurcation diagram. According to the analyses results, an interesting image encryption algorithm is proposed. Multiple grayscale images are fused into a color image using different channels. Then, the color image is scrambled and diffused in order to obtain a more secure cipher image. The pixel confusion operation and diffusion operation are assisted by fractional hyperchaotic system. Experimental simulation and test results indicate that the devised multi-image encryption scheme can effectively encrypt multiple images, which increase the efficiency of image encryption and transmission, and have good security performance.

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A novel chaotic system with hidden attractor and its application in color image encryption

Cao

Jiang

et al. 2022

Multimed Tools Appl

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Jun Mou

Design and DSP implementation of a fractional-order detuned laser hyperchaotic circuit with applications in image encryption

A color image encryption algorithm based on hyperchaotic map and DNA mutation

Memristor-Based LSTM Network for Text Classification

A New Image Encryption Scheme based on Fractional-order Hyperchaotic System and Multiple Image Fusion

A novel chaotic system with hidden attractor and its application in color image encryption

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