Pu-Chong Wei

Publication Activity (10 Years)

Years Active: 2015-2019
Publications (10 Years): 8

Top Topics

Reaction Diffusion

Boundary Conditions

Cellular Automata

Top Venues

IEEE Trans. Cybern.

J. Frankl. Inst.

IEEE Trans. Syst. Man Cybern. Syst.

Publications

Jin-Liang Wang, Pu-Chong Wei, Huai-Ning Wu, Tingwen Huang, Meng Xu
Pinning Synchronization of Complex Dynamical Networks With Multiweights. IEEE Trans. Syst. Man Cybern. Syst. 49 (7) (2019)
Jin-Liang Wang, Zhen Qin, Huai-Ning Wu, Tingwen Huang, Pu-Chong Wei
Analysis and Pinning Control for Output Synchronization and $\mathcal{H}_{\infty}$ Output Synchronization of Multiweighted Complex Networks. IEEE Trans. Cybern. 49 (4) (2019)
Shun-Yan Ren, Jigang Wu, Pu-Chong Wei
Passivity and Pinning Passivity of Coupled Delayed Reaction-Diffusion Neural Networks with Dirichlet Boundary Conditions. Neural Process. Lett. 45 (3) (2017)
Meng Xu, Jin-Liang Wang, Pu-Chong Wei
Synchronization for coupled reaction-diffusion neural networks with and without multiple time-varying delays via pinning-control. Neurocomputing 227 (2017)
Meng Xu, Jin-Liang Wang, Yan-Li Huang, Pu-Chong Wei, Shu-Xue Wang
Pinning synchronization of complex dynamical networks with and without time-varying delay. Neurocomputing 266 (2017)
Pu-Chong Wei, Jin-Liang Wang, Yan-Li Huang, Bei-Bei Xu, Shun-Yan Ren
Impulsive control for the synchronization of coupled neural networks with reaction-diffusion terms. Neurocomputing 207 (2016)
Bei-Bei Xu, Yan-Li Huang, Jin-Liang Wang, Pu-Chong Wei, Shun-Yan Ren
Passivity of linearly coupled neural networks with reaction-diffusion terms and switching topology. J. Frankl. Inst. 353 (8) (2016)
Bei-Bei Xu, Yan-Li Huang, Jin-Liang Wang, Pu-Chong Wei, Shun-Yan Ren
Passivity of linearly coupled reaction-diffusion neural networks with switching topology and time-varying delay. Neurocomputing 182 (2016)
Pu-Chong Wei, Jin-Liang Wang, Yan-Li Huang, Bei-Bei Xu, Shun-Yan Ren
Passivity analysis of impulsive coupled reaction-diffusion neural networks with and without time-varying delay. Neurocomputing 168 (2015)