吴敏
Doctoral Supervisor
Gender :
Male
Date of Birth :
1963-07-01
Education Level :
Doctoral Degree in Education
Degree :
Doctoral degree
Status :
在岗
School/Department :
未来技术学院
Date of Employment :
2014-09-01
Paper Publications
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[51] X. Yin, J. H. She, M. Wu, D. Sato, K. Ohnishi. Disturbance rejection using SMC-based-equivalent-input-disturbance approach. Applied Mathematics and Computation, 2022, 418: 126839.
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[52] M. Wu, W. J. Su, L. F. Chen, W. Pedrycz, K. Hirota. Two-stage fuzzy fusion based-convolution neural network for dynamic emotion recognition. IEEE Transactions on Affective Computing, 2022, 13 (2): 805-817.
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[53] Z. W. Wang, J. H. She, Z. T. Liu, M. Wu. Modified equivalent-input-disturbance approach to improving disturbance-rejection performance. IEEE Transactions on Industrial Electronics, 2022, 69 (1): 673-683.
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[54] Y. W. Wang, X. Wu, W. A. Zhang, M. Wu. Equivalent-input-disturbance-based position synchronization control of networked multiaxis motion system. IEEE Transactions on Industrial Electronics, 2022, 69 (8): 8317-8324.
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[55] Y. W. Wang, A. D. Liu, W. A. Zhang, M. Wu. Synchronization tracking control of networked multi-axis motion systems: A cooperative distributed model predictive control approach. Control Engineering Practice, 2022, 126: 105233.
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[56] L. J. Wang, X. Z. Lai, P. Zhang, M. Wu. A control strategy based on trajectory planning and optimization for two-link underactuated manipulators in vertical plane. IEEE Transactions on Systems Man Cybernetics: Systems, 2022, 52 (6): 3466-3475.
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[57] L. J. Wang, X. Z. Lai, P. Zhang, M. Wu. A unified and simple control strategy for a class of n-link vertical underactuated manipulator. ISA Transactions, 2022, 128: 198-207.
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[58] C. R. Wang, Y. He, C. K. Zhang, M. Wu. Stability analysis of discrete-time neural networks with a time-varying delay: Extended free-weighting matrices zero equation approach. IEEE Transactions on Cybernetics, 2022, DOI: 10.1109/ TCYB.2022.3201686.
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[59] X. B. Wan, C. Yang, C. K. Zhang, M. Wu. Hybrid adjusting variables-dependent event-based finite-time state estimation for two-time-scale Markov jump complex networks. IEEE Transactions on Neural Networks and Learning Systems, 2022, DOI: 10.1109/TNNLS.2022. 3183447.
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[60] X. B. Wan, F. Wei, C. K. Zhang, M. Wu. Hybrid variables-dependent event-triggered model predictive control subject to polytopic uncertainties. International Journal of Systems Science, 2022, 53 (14): 3042-3055.
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