scholarly article | Q13442814 |
P819 | ADS bibcode | 2003PhRvE..68f6102C |
P818 | arXiv ID | physics/0503023 |
P356 | DOI | 10.1103/PHYSREVE.68.066102 |
P698 | PubMed publication ID | 14754264 |
P5875 | ResearchGate publication ID | 2172443 |
P50 | author | Carlos Castillo-Chavez | Q5041916 |
Stephen Eubank | Q41047902 | ||
P2093 | author name string | Hyman JM | |
Chowell G | |||
P2860 | cites work | Immunization of complex networks | Q21686114 |
The structure of scientific collaboration networks | Q24547768 | ||
Classes of small-world networks | Q24676405 | ||
Scientific collaboration networks. II. Shortest paths, weighted networks, and centrality | Q27345889 | ||
Growing scale-free networks with small-world behavior | Q27346823 | ||
Spread of epidemic disease on networks | Q27347225 | ||
Hierarchical organization in complex networks | Q27347782 | ||
Exploring complex networks | Q28205472 | ||
Lethality and centrality in protein networks | Q29547267 | ||
The large-scale organization of metabolic networks | Q29547498 | ||
Hierarchical organization of modularity in metabolic networks | Q29618451 | ||
The web of human sexual contacts. | Q33952386 | ||
Percolation and epidemics in a two-dimensional small world. | Q43761768 | ||
Simulation of stochastic micropopulation models--II. VESPERS: epidemiological model implementations for spread of viral infections | Q43820984 | ||
Weighted evolving networks. | Q52060315 | ||
Epidemics and percolation in small-world networks. | Q52072636 | ||
Halting viruses in scale-free networks. | Q52940375 | ||
Diameter of the World-Wide Web | Q56029473 | ||
Epidemic dynamics and endemic states in complex networks | Q56762615 | ||
Evolution of the social network of scientific collaborations | Q60240649 | ||
On the critical behavior of the general epidemic process and dynamical percolation | Q60588080 | ||
Scientific collaboration networks. I. Network construction and fundamental results | Q74228822 | ||
Epidemic threshold in structured scale-free networks | Q74774078 | ||
Infection dynamics on scale-free networks | Q77329287 | ||
P433 | issue | 6 Pt 2 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 066102 | |
P577 | publication date | 2003-12-15 | |
P1433 | published in | Physical Review E | Q2128181 |
P1476 | title | Scaling laws for the movement of people between locations in a large city | |
P478 | volume | 68 |
Q30429413 | Age-specific contacts and travel patterns in the spatial spread of 2009 H1N1 influenza pandemic |
Q39895756 | An agent-based approach for modeling dynamics of contagious disease spread. |
Q33724841 | Analysing human mobility patterns of hiking activities through complex network theory. |
Q56773696 | Assessing the Efficiency of Movement Restriction as a Control Strategy of Ebola |
Q35053149 | Change in BMI accurately predicted by social exposure to acquaintances |
Q28652082 | Characterising two-pathogen competition in spatially structured environments |
Q40314246 | Dengue epidemics and human mobility. |
Q27341834 | Dynamical patterns of cattle trade movements |
Q56762574 | EPIDEMIC PREDICTABILITY IN META-POPULATION MODELS WITH HETEROGENEOUS COUPLINGS: THE IMPACT OF DISEASE PARAMETER VALUES |
Q56762555 | EPIDEMIC PREDICTIONS AND PREDICTABILITY IN COMPLEX ENVIRONMENTS |
Q43109746 | Effect of mobility in partially occupied complex networks |
Q54454559 | Empirical temporal networks of face-to-face human interactions |
Q35183005 | Epidemic process over the commute network in a metropolitan area |
Q91910837 | Epidemic spreading in complex networks |
Q51931746 | Extraction and analysis of traffic and topologies of transportation networks. |
Q42122563 | Heterogeneous length of stay of hosts' movements and spatial epidemic spread |
Q34961655 | Host mobility drives pathogen competition in spatially structured populations |
Q40244620 | Human mobility networks and persistence of rapidly mutating pathogens. |
Q27345009 | Impact of human mobility on the periodicities and mechanisms underlying measles dynamics |
Q51958276 | Impact of travel patterns on epidemic dynamics in heterogeneous spatial metapopulation networks. |
Q35954290 | Influence of network dynamics on the spread of sexually transmitted diseases |
Q28647224 | Influence of sociodemographic characteristics on human mobility [corrected] |
Q30819877 | Intra-urban human mobility and activity transition: evidence from social media check-in data |
Q56762564 | Invasion Threshold in Heterogeneous Metapopulation Networks |
Q39920457 | Invasion threshold in structured populations with recurrent mobility patterns |
Q35230655 | Mathematical model of the dynamics of psychotherapy |
Q30217423 | Metapopulation epidemic models with heterogeneous mixing and travel behaviour. |
Q26825861 | Modeling rapidly disseminating infectious disease during mass gatherings |
Q39684931 | Modelling disease outbreaks in realistic urban social networks |
Q27230870 | Multiscale mobility networks and the spatial spreading of infectious diseases |
Q39698246 | Network theory and SARS: predicting outbreak diversity |
Q34711590 | Networks and the epidemiology of infectious disease |
Q34881062 | PLANNING AND RESPONSE IN THE AFTERMATH OF A LARGE CRISIS: AN AGENT-BASED INFORMATICS FRAMEWORK(*) |
Q40382938 | Periodic forcing in a three-level cellular automata model for a vector-transmitted disease |
Q28353961 | Perspectives on the role of mobility, behavior, and time scales in the spread of diseases |
Q41827632 | Phase transitions in contagion processes mediated by recurrent mobility patterns |
Q56762570 | Reaction–diffusion processes and metapopulation models in heterogeneous networks |
Q39625238 | Representing higher-order dependencies in networks. |
Q28596378 | Rich do not rise early: spatio-temporal patterns in the mobility networks of different socio-economic classes |
Q56000945 | Role of short-term dispersal on the dynamics of Zika virus in an extreme idealized environment |
Q36126519 | Spotting Epidemic Keystones by R0 Sensitivity Analysis: High-Risk Stations in the Tokyo Metropolitan Area |
Q38457866 | Statistical mechanical load balancer for the web. |
Q56762578 | The Structure of Interurban Traffic: A Weighted Network Analysis |
Q43944398 | The modeling of global epidemics: stochastic dynamics and predictability |
Q29028332 | The role of the airline transportation network in the prediction and predictability of global epidemics |
Q33750168 | Urban scaling and its deviations: revealing the structure of wealth, innovation and crime across cities |
Q56879516 | Using the Weighted Rich-Club Coefficient to Explore Traffic Organization in Mobility Networks |
Q58921894 | Weighted Complex Network Analysis of Pakistan Highways |
Search more.