| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2006PNAS..10312637R |
| P356 | DOI | 10.1073/PNAS.0510873103 |
| P932 | PMC publication ID | 1567931 |
| P698 | PubMed publication ID | 16894173 |
| P5875 | ResearchGate publication ID | 6893266 |
| P50 | author | Neil Ferguson | Q54209622 |
| Steven Riley | Q60584609 | ||
| P2860 | cites work | Factors that make an infectious disease outbreak controllable | Q24568031 |
| Strategies for containing an emerging influenza pandemic in Southeast Asia | Q29618561 | ||
| Adverse events associated with smallpox vaccination in the United States, January-October 2003. | Q30231595 | ||
| Transmission potential of smallpox: estimates based on detailed data from an outbreak | Q30810832 | ||
| Emergency response to a smallpox attack: the case for mass vaccination. | Q34076400 | ||
| A model for a smallpox-vaccination policy | Q35032220 | ||
| Modelling disease outbreaks in realistic urban social networks | Q39684931 | ||
| Estimating the immunity coverage required to prevent epidemics in a community of households | Q40566925 | ||
| Synchrony, waves, and spatial hierarchies in the spread of influenza. | Q51944895 | ||
| Containing bioterrorist smallpox. | Q52028448 | ||
| A brief history of R0 and a recipe for its calculation. | Q53419219 | ||
| Monte Carlo sampling methods using Markov chains and their applications | Q55880695 | ||
| Case isolation and contact tracing can prevent the spread of smallpox | Q57104827 | ||
| Transmission potential of smallpox in contemporary populations | Q57105983 | ||
| P433 | issue | 33 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | smallpox | Q12214 |
| spatial dynamics | Q123709600 | ||
| P304 | page(s) | 12637-12642 | |
| P577 | publication date | 2006-08-07 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Smallpox transmission and control: spatial dynamics in Great Britain | |
| P478 | volume | 103 |
| Q42276540 | A class of pairwise models for epidemic dynamics on weighted networks. |
| Q30388982 | A generalized-growth model to characterize the early ascending phase of infectious disease outbreaks |
| Q37276205 | A new framework and software to estimate time-varying reproduction numbers during epidemics |
| Q30227287 | An optimal control theory approach to non-pharmaceutical interventions |
| Q33964413 | Analysis of CDC social control measures using an agent-based simulation of an influenza epidemic in a city |
| Q36093580 | Beyond Contact Tracing: Community-Based Early Detection for Ebola Response |
| Q36128051 | Building Ventilation as an Effective Disease Intervention Strategy in a Dense Indoor Contact Network in an Ideal City. |
| Q34888664 | Close encounters of the infectious kind: methods to measure social mixing behaviour. |
| Q30230157 | Comparison of smallpox outbreak control strategies using a spatial metapopulation model |
| Q33738098 | Conflicts of interest during contact investigations: a game-theoretic analysis |
| Q33530946 | Contingency planning for a deliberate release of smallpox in Great Britain--the role of geographical scale and contact structure |
| Q30368071 | Dynamic social networks and the implications for the spread of infectious disease. |
| Q33553413 | Dynamics and control of diseases in networks with community structure |
| Q30361341 | Early efforts in modeling the incubation period of infectious diseases with an acute course of illness. |
| Q56896972 | Effect of poor census data on population maps |
| Q92058798 | Effect of time delay on pattern dynamics in a spatial epidemic model |
| Q33665951 | Effectiveness assessment of countermeasures against bioterrorist smallpox attacks in Japan using an individual-based model |
| Q27318216 | Efficient simulation of the spatial transmission dynamics of influenza |
| Q30385347 | Efficient simulation of the spatial transmission dynamics of influenza. |
| Q30226505 | Epidemiological characteristics of 2009 (H1N1) pandemic influenza based on paired sera from a longitudinal community cohort study. |
| Q33294824 | Estimating individual and household reproduction numbers in an emerging epidemic |
| Q30228781 | Extracting key information from historical data to quantify the transmission dynamics of smallpox |
| Q30224717 | Finding and removing highly connected individuals using suboptimal vaccines |
| Q35252728 | Five challenges for spatial epidemic models |
| Q37019760 | Human mobility and the worldwide impact of intentional localized highly pathogenic virus release |
| Q55451348 | Infections on the move: how transient phases of host movement influence disease spread. |
| Q30000673 | Inferring epidemic network topology from surveillance data |
| Q57932794 | Is it growing exponentially fast? -- Impact of assuming exponential growth for characterizing and forecasting epidemics with initial near-exponential growth dynamics |
| Q114255102 | Knowledge Graph Analysis of Digital Emergency Management Research Based on CiteSpace Visualisation: Comparative Analysis of WOS and CNKI Databases |
| Q28730483 | Large-scale spatial population databases in infectious disease research |
| Q30362054 | Large-scale spatial-transmission models of infectious disease. |
| Q30397317 | Little Italy: an agent-based approach to the estimation of contact patterns- fitting predicted matrices to serological data |
| Q30248812 | Mathematical models to characterize early epidemic growth: A review |
| Q37221114 | Mechanistic Models of Infectious Disease and Their Impact on Public Health |
| Q26825861 | Modeling rapidly disseminating infectious disease during mass gatherings |
| Q30205740 | Modeling the Effect of Herd Immunity and Contagiousness in Mitigating a Smallpox Outbreak |
| Q39811816 | Modelling emerging viral epidemics for public health protection |
| Q40119871 | Network-Centric Interventions to Contain the Syphilis Epidemic in San Francisco |
| Q42219771 | Optimal vaccination policies for an SIR model with limited resources |
| Q90668161 | Pattern formation of an epidemic model with diffusion |
| Q30244204 | Pattern transitions in spatial epidemics: Mechanisms and emergent properties. |
| Q35033599 | Poxy models and rash decisions |
| Q40017592 | Predicting undetected infections during the 2007 foot-and-mouth disease outbreak. |
| Q30227771 | Recommendations for modeling disaster responses in public health and medicine: a position paper of the society for medical decision making |
| Q58140012 | Review of research studies on population specific epidemic disasters |
| Q89855240 | Role of Live-Duck Movement Networks in Transmission of Avian Influenza, France, 2016-2017 |
| Q30399149 | Role of social networks in shaping disease transmission during a community outbreak of 2009 H1N1 pandemic influenza. |
| Q91902832 | Spatial-temporal transmission of influenza and its health risks in an urbanized area |
| Q35004633 | Spatiotemporal infectious disease modeling: a BME-SIR approach. |
| Q44328552 | Stamping out fires! Controlling smallpox with targeted mass vaccination. |
| Q42852954 | Stockpiling smallpox virus |
| 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 |
| Q91924367 | The Relationship between the Migrant Population's Migration Network and the Risk of COVID-19 Transmission in China-Empirical Analysis and Prediction in Prefecture-Level Cities |
| Q57097843 | The Role of Mathematical Models in Vaccine Development and Public Health Decision Making |
| Q33548792 | The impact of contact tracing in clustered populations |
| Q27302097 | The impact of the unstructured contacts component in influenza pandemic modeling |
| Q27322738 | The spatial resolution of epidemic peaks |
| Q30000821 | The use of census migration data to approximate human movement patterns across temporal scales |
| Q30598545 | Theory and data for simulating fine-scale human movement in an urban environment |
| Q39231426 | Threshold parameters for a model of epidemic spread among households and workplaces |
| Q37005541 | Vaccination and clinical severity: is the effectiveness of contact tracing and case isolation hampered by past vaccination? |
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