
Journal Publications
- [21]P. Cheng, K. Sun, C. Zhu.A novel image encryption algorithm based on the delayed maps and permutation-confusion-diffusion architecture[J].Security and Communication Networks, 2021, 6679288: 6679288.
- [22]Y. Peng, K. Sun, S. He.A discrete memristor model and its application in Hénon map[J].Chaos, Solitons & Fractals, 2020, 137: 109873.
- [23]Y. Xiao, K. Sun, S. He.Constructing chaotic map with multi cavity[J].The European Physical Journal Plus, 2020, 135: 21.
- [24]Q. Xu, K. Sun, S. He, C. Zhu.An effective image encryption algorithm based on compressive sensing and 2D-SLIM[J].Optics and Lasers in Engineering, 2020, 134: 106178.
- [25]C. Chen, K. Sun, Q. Xu.A Color Image Encryption Algorithm Based on 2D-CIMM Chaotic Map[J].China Communication, 2020, 17 (5) : 12-20.
- [26]Y. Peng, K. Sun, S. He.An improved return maps method for parameter estimation of chaotic systems[J].International Journal of Bifurcation and Chaos, 2020, 30 (4) : 2050058.
- [27]L. Wang, K. Sun, Y. Peng, S. He.Chaos and complexity in a fractional-order higher-dimensional multicavity chaotic map[J].Chaos, Solitons & Fractals, 2020, 131: 109488.
- [28]Q. Xu, K. Sun, C. Zhu.A visually secure asymmetric image encryption scheme based on RSA algorithm and hyperchaotic map[J].Physica Scripta, 2020, 95: 035223.
- [29]S. He, K. Sun, X. Wu.Fractional symbolic network entropy analysis for the fractional-order chaotic systems[J].Physica Scripta, 2020, 95: 035220.
- [30]S. He, K. Sun, Y. Peng, L. Wang.Modeling of discrete fracmemristor and its application[J].AIP Advances, 2020, 10: 015332.
- [31]Y. Xiao, K. Sun, M. Yu, X. Xu.Dynamics of a new multi-cavity hyperchaotic map and its DSP implementation[J].International Journal of Bifurcation and Chaos, 2019, 29 (14) : (1950194)1-15.
- [32]S. Dai, K. Sun, S. He, W. Ai.Complex chaotic attractor via fractal transformation[J].Entropy, 2019, 21 (11) : 1115.
- [33]Q. Xu, K. Sun, C. Cao, C. Zhu.A fast image encryption algorithm based on compressive sensing and hyperchaotic map[J].Optics and Lasers in Engineering, 2019, 121: 203-214.
- [34]D. Peng, K. Sun, S. He, A. O. A. Alamodi.Numerical analysis of a simplest fractional-order hyperchaotic system[J].Theoretical and Applied Mechanics Letters, 2019, 9 (4) : 220-228.
- [35]C. Chen, K. Sun, S. He.A class of higher-dimensional hyperchaotic maps[J].The European Physical Journal Plus, 2019, 134 (8) : 410.
- [36]S. He, K. Sun, Y. Peng.Detecting chaos in fractional-order nonlinear systems using the smaller alignment index[J].Physics Letters A, 2019, 383 (19) : 2267-2271.
- [37]Y. Peng, K. Sun, D. Peng, W. Ai.Dynamics of a higher dimensional fractional-order chaotic map[J].Physica A: Statistical Mechanics and its Applicati, 2019, 525: 96-107.
- [38]S. He, K. Sun, H. Wang.Dynamics and synchronization of conformable fractional-order hyperchaotic systems using the Homotopy analysis method[J].Communications in Nonlinear Science and Numerical, 2019, 73: 146-164.
- [39]A. O. A. Alamod, K. Sun, W. Ai, C. Chen, D. Peng.Design new chaotic maps based on dimension expansion[J].Chinese Physics B, 2019, 28 (2) : 020503.
- [40]Y. Peng, K. Sun, S. He, D. Peng.Parameter identification of fractional-order discrete chaotic systems[J].Entropy, 2019, 21 (27)
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Kehui Sun

 Email:18858897eda81a0e0f679f60af9d4283e2e63609de37f3dcd40d43cdc0fe1966a94b54c7b3d11f5194dc8b949b62e3934c0b624fc2aa605680f445a1c0a6cd56a42ce3a76f4ecba28882d0a1e6ca1694bd2d40a27ddc54e1401d875fff598f487ba33c2fee4247872dd0c5724c25094b58bfc4ceb1fcdfda1b9750f012b420d8
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