Ming Tang
Ming Tang
School of Information Science and Technology, East China Normal University
Verified email at
Cited by
Cited by
Unification of theoretical approaches for epidemic spreading on complex networks
W Wang, M Tang, HE Stanley, LA Braunstein
Reports on progress in physics 80 (3), 036603, 2017
Asymmetrically interacting spreading dynamics on complex layered networks
W Wang, M Tang, H Yang, Y Do, YC Lai, GW Lee
Scientific reports 4 (1), 5097, 2014
Core-like groups result in invalidation of identifying super-spreader by k-shell decomposition
Y Liu, M Tang, T Zhou, Y Do
Scientific reports 5 (1), 9602, 2015
Epidemic spreading with information-driven vaccination
Z Ruan, M Tang, Z Liu
Physical Review E 86 (3), 036117, 2012
Suppressing disease spreading by using information diffusion on multiplex networks
W Wang, QH Liu, SM Cai, M Tang, LA Braunstein, HE Stanley
Scientific reports 6 (1), 29259, 2016
Epidemic spreading on complex networks with general degree and weight distributions
W Wang, M Tang, HF Zhang, H Gao, Y Do, ZH Liu
Physical Review E 90 (4), 042803, 2014
Improving the accuracy of the k-shell method by removing redundant links: From a perspective of spreading dynamics
Y Liu, M Tang, T Zhou, Y Do
Scientific reports 5 (1), 13172, 2015
Identify influential spreaders in complex networks, the role of neighborhood
Y Liu, M Tang, T Zhou, Y Do
Physica A: Statistical Mechanics and its Applications 452, 289-298, 2016
Dynamics of social contagions with memory of nonredundant information
W Wang, M Tang, HF Zhang, YC Lai
Physical review e 92 (1), 012820, 2015
Suppression of epidemic spreading in complex networks by local information based behavioral responses
HF Zhang, JR Xie, M Tang, YC Lai
Chaos: An Interdisciplinary Journal of Nonlinear Science 24 (4), 2014
An adaptive routing strategy for packet delivery in complex networks
H Zhang, Z Liu, M Tang, PM Hui
Physics letters A 364 (3-4), 177-182, 2007
Self-adjusting routing schemes for time-varying traffic in scale-free networks
M Tang, Z Liu, X Liang, PM Hui
Physical Review E 80 (2), 026114, 2009
Numerical identification of epidemic thresholds for susceptible-infected-recovered model on finite-size networks
P Shu, W Wang, M Tang, Y Do
Chaos: An Interdisciplinary Journal of Nonlinear Science 25 (6), 2015
Suppressing epidemic spreading in multiplex networks with social-support
X Chen, R Wang, M Tang, S Cai, HE Stanley, LA Braunstein
New Journal of Physics 20 (1), 013007, 2018
Dynamics of social contagions with heterogeneous adoption thresholds: crossover phenomena in phase transition
W Wang, M Tang, P Shu, Z Wang
New Journal of Physics 18 (1), 013029, 2016
Constructing ordinal partition transition networks from multivariate time series
J Zhang, J Zhou, M Tang, H Guo, M Small, Y Zou
Scientific reports 7 (1), 7795, 2017
Phase synchronization of inhibitory bursting neurons induced by distributed time delays in chemical coupling
X Liang, M Tang, M Dhamala, Z Liu
Physical Review E 80 (6), 066202, 2009
Efficient routing strategies in scale-free networks with limited bandwidth
M Tang, T Zhou
Physical review E 84 (2), 026116, 2011
An efficient immunization strategy for community networks
K Gong, M Tang, PM Hui, HF Zhang, D Younghae, YC Lai
PloS one 8 (12), e83489, 2013
Effects of behavioral response and vaccination policy on epidemic spreading-an approach based on evolutionary-game dynamics
HF Zhang, ZX Wu, M Tang, YC Lai
Scientific reports 4 (1), 5666, 2014
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