Zhang, Tianwei
Yunnan University, China
Tianwei Zhang received the B.S. degree from the School of Mathematics, Yunnan Normal University, Kunming, China, in 2008, and the M.S. degree in applied mathematics from the Yunnan University of China, Kunming, in 2011, where he is currently pursuing the Doctoral degree. He serves as a Teacher with the Kunming University of Science and Technology, Kunming, teaching the courses of applied mathematics. He is an Active Researcher in applied mathematics (artificial neural networks, stochastic theory, differential equations and dynamic systems, and biomathematics). He has published more than 60 papers and is an active reviewer of many international journals.
- Qualitative analyses of differential equations;
- Periodic, almost periodic and almost automorphic oscillations, etc;
- Investigations on applied models such as neural networks, mathematical models in biology, etc;
- Variational methods and other nonlinear analysis techniques in differential equations;
- Control and optimization theses of differential or difference models in sciences and engineers;
- Numerical analysis on ordinary or partial differential equations;
- Uncertain differential or difference models, e.g., stochastic theory, fuzzy methods, etc;
- The discussions of fractional differential or difference equations.
1. T.W. Zhang, Y.K. Li, S-asymptotically periodic fractional functional differential equations with off-diagonal matrix Mittag-Leffler function kernels, Mathematics and Computers in Simulation 193 (2022) 331-347.
2. T.W. Zhang, Y.K. Li, Exponential Euler scheme of multi-delay Caputo–Fabrizio fractional-order differential equations, Applied Mathematics Letters 124 (2022) 107709.
3. T.W. Zhang, Y.K. Li, J. Zhou, Mittag-Leffler Euler ∇-differences for Caputo fractional-order systems, Results in Physics 37 (2022) 105482.
4. T.W. Zhang, Y.K. Li, Global exponential stability of discrete-time almost automorphic Caputo–Fabrizio BAM fuzzy neural networks via exponential Euler technique, Knowledge-Based Systems 246 (2022) 108675.
5. S.B. Rao, T.W. Zhang, L.J. Xu, Exponential stability and synchronisation of fuzzy Mittag–Leffler discrete-time Cohen–Grossberg neural networks with time delays, International Journal of Systems Science (2022) 1-23.
6. T.W. Zhang, J. Zhou, Y. Liao, Exponentially Stable Periodic Oscillation and Mittag-Leffler Stabilization for Fractional-Order Impulsive Control Neural Networks With Piecewise Caputo Derivatives, IEEE Trans Cybern PP (2021) in press, doi: 10.1109/TCYB.2021.3054946.
7. T.W. Zhang, L. Yang, L.J. Xu, Stage-structured control on a class of predator-prey system in almost periodic environment, International Journal of Control 93 (2020) 1442-1460.
8. T.W. Zhang, L.L. Xiong, Periodic motion for impulsive fractional functional differential equations with piecewise Caputo derivative, Applied Mathematics Letters 101 (2020) 106072.
9. T.W. Zhang, S.F. Han, J.W. Zhou, Dynamic behaviours for semi-discrete stochastic Cohen-Grossberg neural networks with time delays, Journal of the Franklin Institute 357 (2020) 13006-13040.
10. Z.H. Li, J.W. Zhou, T.W. Zhang, Permanence and uniform asymptotical stability of a ratio-dependent Leslie system with feedback controls on time scales, ScienceAsia 46 (2020) 494–502.
11. Z.H. Li, T.W. Zhang, Permanence for Leslie-Gower predator-prey system with feedback controls on time scales, Quaestiones Mathematicae 2020 (2020) in press, doi: 10.2989/16073606.16072020.11799256.
12. T.W. Zhang, L.J. Xu, Mean Almost Periodicity and Moment Exponential Stability of Discrete-Time Stochastic Shunting Inhibitory Cellular Neural Networks with Time Delays, Kybernetika 55 (2019) 690-713.
13. T.W. Zhang, S.F. Han, Multiplicity of almost periodic oscillations in delayed harvesting predator-prey model with modified Leslie-Gower Holling-type II schemes, Scienceasia 45 (2019) 494-501.
(only list the publications from 2019)