scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1033931940 |
P356 | DOI | 10.1038/NATURE02541 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/nature02541 |
P698 | PubMed publication ID | 15141212 |
P5875 | ResearchGate publication ID | 8565252 |
P50 | author | Stephen Eubank | Q41047902 |
Madhav Marathe | Q63015429 | ||
P2093 | author name string | Nan Wang | |
V S Anil Kumar | |||
Hasan Guclu | |||
Aravind Srinivasan | |||
Zoltán Toroczkai | |||
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P433 | issue | 6988 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 180-184 | |
P577 | publication date | 2004-05-01 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Modelling disease outbreaks in realistic urban social networks | |
P478 | volume | 429 |
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Q53210886 | Scale-free networks embedded in fractal space. |
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Q50642782 | Self-attracting walk on heterogeneous networks. |
Q35761127 | Sensitivity Analysis of an ENteric Immunity SImulator (ENISI)-Based Model of Immune Responses to Helicobacter pylori Infection |
Q30423472 | Sensitivity analysis of an individual-based model for simulation of influenza epidemics |
Q33988403 | Sensitivity of household transmission to household contact structure and size |
Q30373408 | Seven challenges for model-driven data collection in experimental and observational studies. |
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Q47136676 | Simple spatial scaling rules behind complex cities |
Q21245251 | Simulation of an SEIR infectious disease model on the dynamic contact network of conference attendees |
Q30477988 | Smallpox transmission and control: spatial dynamics in Great Britain. |
Q36808929 | Social Norms and the Consumption of Fruits and Vegetables across New York City Neighborhoods |
Q36510980 | Social and spatial processes associated with childhood diarrheal disease in Matlab, Bangladesh |
Q28755323 | Social contacts and mixing patterns relevant to the spread of infectious diseases |
Q51193974 | Social encounter networks: characterizing Great Britain. |
Q36343991 | Social encounter networks: collective properties and disease transmission |
Q37677793 | Socially structured human movement shapes dengue transmission despite the diffusive effect of mosquito dispersal |
Q34325967 | Socio-geography of human mobility: a study using longitudinal mobile phone data |
Q48855180 | Source identification of airborne Escherichia coli of swine house surroundings using ERIC-PCR and REP-PCR. |
Q36541101 | Spatial and Functional Organization of Pig Trade in Different European Production Systems: Implications for Disease Prevention and Control |
Q30979076 | Spatial and Temporal Characteristics of Pastoral Mobility in the Far North Region, Cameroon: Data Analysis and Modeling |
Q58593264 | Spatial infectious disease epidemiology: on the cusp |
Q35067341 | Spatial pattern of severe acute respiratory syndrome in-out flow in 2003 in Mainland China |
Q91902832 | Spatial-temporal transmission of influenza and its health risks in an urbanized area |
Q30494126 | Spatio-temporal waves and targeted vaccination in recurrent epidemic network models |
Q34372644 | SpecNet: a spatial network algorithm that generates a wide range of specific structures |
Q33632645 | Spread of infectious disease through clustered populations |
Q51923326 | Spreading dynamics on heterogeneous populations: multitype network approach. |
Q54261833 | Spreading dynamics on small-world networks with connectivity fluctuations and correlations. |
Q36446280 | Spreading of sexually transmitted diseases in heterosexual populations. |
Q36094867 | Stability Analysis of SIR Model with Distributed Delay on Complex Networks |
Q91905859 | Stability of the spreading in small-world network with predictive controller |
Q44328552 | Stamping out fires! Controlling smallpox with targeted mass vaccination. |
Q34960912 | Statistical inference to advance network models in epidemiology |
Q42255374 | Stochastic analysis of epidemics on adaptive time varying networks. |
Q39471540 | Stochastic fluctuations in epidemics on networks |
Q51469731 | Stochastic oscillations in models of epidemics on a network of cities. |
Q42852954 | Stockpiling smallpox virus |
Q30850604 | Strategies for controlling non-transmissible infection outbreaks using a large human movement data set |
Q30830683 | Strengths and weaknesses of Global Positioning System (GPS) data-loggers and semi-structured interviews for capturing fine-scale human mobility: findings from Iquitos, Peru |
Q33797974 | Structure of urban movements: polycentric activity and entangled hierarchical flows |
Q48435226 | Synchronization landscapes in small-world-connected computer networks. |
Q30377417 | Synthesis of a high resolution social contact network for Delhi with application to pandemic planning |
Q36229438 | Systematic Approximations to Susceptible-Infectious-Susceptible Dynamics on Networks |
Q36815927 | Systems science methods in public health: dynamics, networks, and agents |
Q91971367 | Testing the Usability of a Software for Geospatial and Transport Modeling in Acute Stroke Service Planning |
Q39546435 | Testing the hypothesis of preferential attachment in social network formation. |
Q92326199 | The Effect of Climate Change and the Snail-Schistosome Cycle in Transmission and Bio-Control of Schistosomiasis in Sub-Saharan Africa |
Q35757590 | The Effect of Disease-Induced Mortality on Structural Network Properties |
Q59029441 | The Effects of Decision-Making Processes and Population Turnover on the Formation of Social Networks |
Q30399263 | The GLEaMviz computational tool, a publicly available software to explore realistic epidemic spreading scenarios at the global scale |
Q52687829 | The Myth of Optimality in Clinical Neuroscience. |
Q36873516 | The Role of Computational Epidemiology and Risk Analysis in the Fight Against HIV/AIDS |
Q35215978 | The Separatrix Algorithm for synthesis and analysis of stochastic simulations with applications in disease modeling |
Q59039945 | The Stability of SI Epidemic Model in Complex Networks with Stochastic Perturbation |
Q35767914 | The Topology of a Discussion: The #Occupy Case |
Q35064930 | The Western Africa ebola virus disease epidemic exhibits both global exponential and local polynomial growth rates |
Q36066015 | The benefits to all of ensuring equal and timely access to influenza vaccines in poor communities |
Q90709473 | The effect of control strategies to reduce social mixing on outcomes of the COVID-19 epidemic in Wuhan, China: a modelling study |
Q38531153 | The effect of network mixing patterns on epidemic dynamics and the efficacy of disease contact tracing |
Q36354236 | The effect of social mixing controls on the spread of smallpox--a two-level model |
Q30358764 | The effect of travel restrictions on the spread of a moderately contagious disease. |
Q46198249 | The final size of an epidemic and its relation to the basic reproduction number |
Q30359756 | The impact of contact structure on infectious disease control: influenza and antiviral agents. |
Q40129578 | The index case is not enough: Variation among individuals, groups and social networks modify bacterial transmission dynamics. |
Q43944398 | The modeling of global epidemics: stochastic dynamics and predictability |
Q33987063 | The origin of bursts and heavy tails in human dynamics |
Q30368968 | The role of different social contexts in shaping influenza transmission during the 2009 pandemic |
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Q30405804 | The role of subway travel in an influenza epidemic: a New York City simulation |
Q29028332 | The role of the airline transportation network in the prediction and predictability of global epidemics |
Q34520888 | The scaling of human interactions with city size |
Q30487198 | The spread of awareness and its impact on epidemic outbreaks |
Q29997781 | The untapped potential of virtual game worlds to shed light on real world epidemics |
Q30598545 | Theory and data for simulating fine-scale human movement in an urban environment |
Q27486877 | Three-dimensional visualization of cultural clusters in the 1878 yellow fever epidemic of New Orleans |
Q90638102 | Topological Properties of Neuromorphic Nanowire Networks |
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Q33986106 | Towards a characterization of behavior-disease models |
Q37136609 | Towards multiscale modeling of influenza infection |
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Q28394783 | Tracking and visualization of space-time activities for a micro-scale flu transmission study |
Q35843112 | Tracking social contact networks with online respondent-driven detection: who recruits whom? |
Q37385972 | Traffic-driven epidemic spreading in finite-size scale-free networks |
Q92067239 | Trait-Based Modeling of Multihost Pathogen Transmission: Plant-Pollinator Networks |
Q30365504 | Transmission characteristics of different students during a school outbreak of (H1N1) pdm09 influenza in China, 2009. |
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Q33242482 | Transmission patterns of smallpox: systematic review of natural outbreaks in Europe and North America since World War II. |
Q30398025 | Two resource distribution strategies for dynamic mitigation of influenza pandemics |
Q35070339 | Uncertainty in predictions of disease spread and public health responses to bioterrorism and emerging diseases |
Q44014757 | Uncovering disassortativity in large scale-free networks |
Q41549536 | Uncovering the spatial structure of mobility networks. |
Q29617921 | Understanding individual human mobility patterns |
Q34362063 | Understanding metropolitan patterns of daily encounters |
Q35097910 | Understanding self-organized regularities in healthcare services based on autonomy oriented modeling |
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Q27490507 | Usefulness of commercially available GPS data-loggers for tracking human movement and exposure to dengue virus |
Q33273781 | Using GIS to create synthetic disease outbreaks |
Q27334703 | Using GPS technology to quantify human mobility, dynamic contacts and infectious disease dynamics in a resource-poor urban environment |
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Q30374205 | Using Influenza-Like Illness Data to Reconstruct an Influenza Outbreak |
Q51784068 | Using an agent-based model to evaluate the effect of producer specialization on the epidemiological resilience of livestock production networks. |
Q38650383 | Using contact networks to explore mechanisms of parasite transmission in wildlife |
Q30356829 | Using data on social contacts to estimate age-specific transmission parameters for respiratory-spread infectious agents. |
Q31170274 | Using data-driven agent-based models for forecasting emerging infectious diseases |
Q51574724 | Using network properties to predict disease dynamics on human contact networks. |
Q35737899 | Using the network reliability polynomial to characterize and design networks |
Q30226922 | Vaccination deep into a pandemic wave potential mechanisms for a "third wave" and the impact of vaccination |
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Q30391709 | Visual analytics of geo-social interaction patterns for epidemic control |
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Q33753015 | Voluntary Vaccination through Self-organizing Behaviors on Locally-mixed Social Networks. |
Q36216533 | Web-based infectious disease surveillance systems and public health perspectives: a systematic review |
Q37442924 | What You Believe Travels Differently: Information and Infection Dynamics across Sub-networks |
Q92379108 | What can urban mobility data reveal about the spatial distribution of infection in a single city? |
Q28754461 | When individual behaviour matters: homogeneous and network models in epidemiology |
Q30540904 | in silico surveillance: evaluating outbreak detection with simulation models |
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