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Communication and Synchronization in Disconnected Networks with Dynamic Topology: Moving Neighborhood Networks
1.  Department of Mathematics, United States Naval Academy, Annapolis, MD 21402, United States 
2.  Deptartments of Mathematics, Computer Science, and Physics, Clarkson University, Potsdam, NY 13699, United States 
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Razvan C. Fetecau, Beril Zhang. Selforganization on Riemannian manifolds. Journal of Geometric Mechanics, 2019, 11 (3) : 397426. doi: 10.3934/jgm.2019020 
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Suoqin Jin, FangXiang Wu, Xiufen Zou. Domain control of nonlinear networked systems and applications to complex disease networks. Discrete & Continuous Dynamical Systems  B, 2017, 22 (6) : 21692206. doi: 10.3934/dcdsb.2017091 
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Hirotada Honda. On a model of target detection in molecular communication networks. Networks & Heterogeneous Media, 2019, 14 (4) : 633657. doi: 10.3934/nhm.2019025 
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W. E. Fitzgibbon, J. J. Morgan. Analysis of a reaction diffusion model for a reservoir supported spread of infectious disease. Discrete & Continuous Dynamical Systems  B, 2019, 24 (11) : 62396259. doi: 10.3934/dcdsb.2019137 
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Ionel S. Ciuperca, Matthieu Dumont, Abdelkader Lakmeche, Pauline Mazzocco, Laurent PujoMenjouet, Human Rezaei, Léon M. Tine. Alzheimer's disease and prion: An in vitro mathematical model. Discrete & Continuous Dynamical Systems  B, 2019, 24 (10) : 52255260. doi: 10.3934/dcdsb.2019057 
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S.M. Moghadas. Modelling the effect of imperfect vaccines on disease epidemiology. Discrete & Continuous Dynamical Systems  B, 2004, 4 (4) : 9991012. doi: 10.3934/dcdsb.2004.4.999 
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Louis D. Bergsman, James M. Hyman, Carrie A. Manore. A mathematical model for the spread of west nile virus in migratory and resident birds. Mathematical Biosciences & Engineering, 2016, 13 (2) : 401424. doi: 10.3934/mbe.2015009 
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David Greenhalgh, Karen E. Lamb, Chris Robertson. A mathematical model for the spread of streptococcus pneumoniae with transmission due to sequence type. Conference Publications, 2011, 2011 (Special) : 553567. doi: 10.3934/proc.2011.2011.553 
[13] 
Luca GerardoGiorda, Pierre Magal, Shigui Ruan, Ousmane Seydi, Glenn Webb. Preface: Population dynamics in epidemiology and ecology. Discrete & Continuous Dynamical Systems  B, 2020, 25 (6) : iii. doi: 10.3934/dcdsb.2020125 
[14] 
Georgy P. Karev. Dynamics of heterogeneous populations and communities and evolution of distributions. Conference Publications, 2005, 2005 (Special) : 487496. doi: 10.3934/proc.2005.2005.487 
[15] 
Giacomo Albi, Lorenzo Pareschi, Mattia Zanella. Opinion dynamics over complex networks: Kinetic modelling and numerical methods. Kinetic & Related Models, 2017, 10 (1) : 132. doi: 10.3934/krm.2017001 
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Shouying Huang, Jifa Jiang. Epidemic dynamics on complex networks with general infection rate and immune strategies. Discrete & Continuous Dynamical Systems  B, 2018, 23 (6) : 20712090. doi: 10.3934/dcdsb.2018226 
[17] 
Marco Sarich, Natasa Djurdjevac Conrad, Sharon Bruckner, Tim O. F. Conrad, Christof Schütte. Modularity revisited: A novel dynamicsbased concept for decomposing complex networks. Journal of Computational Dynamics, 2014, 1 (1) : 191212. doi: 10.3934/jcd.2014.1.191 
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Jiying Ma, Dongmei Xiao. Nonlinear dynamics of a mathematical model on action potential duration and calcium transient in paced cardiac cells. Discrete & Continuous Dynamical Systems  B, 2013, 18 (9) : 23772396. doi: 10.3934/dcdsb.2013.18.2377 
[19] 
Nikolay Pertsev, Konstantin Loginov, Gennady Bocharov. Nonlinear effects in the dynamics of HIV1 infection predicted by mathematical model with multiple delays. Discrete & Continuous Dynamical Systems  S, 2020, 13 (9) : 23652384. doi: 10.3934/dcdss.2020141 
[20] 
Stelian Ion, Gabriela Marinoschi. A selforganizing criticality mathematical model for contamination and epidemic spreading. Discrete & Continuous Dynamical Systems  B, 2017, 22 (2) : 383405. doi: 10.3934/dcdsb.2017018 
2018 Impact Factor: 1.313
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