11 Matching Annotations
  1. Apr 2021
  2. psyarxiv.com psyarxiv.com
    The human factor between airborne pollen concentrations and COVID-19 disease dynamics
    1
    1. sophia.sterckx 18 Apr 2021

      Betsch, Cornelia, and Philipp Sprengholz. ‘The Human Factor between Airborne Pollen Concentrations and COVID-19 Disease Dynamics’. PsyArXiv, 16 April 2021. https://doi.org/10.31234/osf.io/hw9gf.

      is:preprint lang:en COVID-19 airborne pollen concentration disease dynamics human factor pollen viral infection aerobiology
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    psyarxiv.com/hw9gf/
  3. Oct 2020
  4. www.pnas.org www.pnas.org
    Local lockdowns outperform global lockdown on the far side of the COVID-19 epidemic curve
    1
    1. katietaylor_99 01 Oct 2020

      Karatayev, Vadim A., Madhur Anand, and Chris T. Bauch. ‘Local Lockdowns Outperform Global Lockdown on the Far Side of the COVID-19 Epidemic Curve’. Proceedings of the National Academy of Sciences 117, no. 39 (29 September 2020): 24575–80. https://doi.org/10.1073/pnas.2014385117.

      is:report lang:en COVID-19 local lockdowns global lockdown epidemic curve decision making urban rural county-by-county geographical distribution disease dynamics stochastic model demographic epidemiology testing travel data Ontario Canada control strategies
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    pnas.org/content/117/39/24575
  5. Sep 2020
  6. arxiv.org arxiv.org
    Epidemic Thresholds of Infectious Diseases on Tie-Decay Networks
    1
    1. ErikStuchly 29 Sep 2020

      Chen, Q., & Porter, M. A. (2020). Epidemic Thresholds of Infectious Diseases on Tie-Decay Networks. ArXiv:2009.12932 [Physics]. http://arxiv.org/abs/2009.12932

      is:preprint lang:en COVID-19 threshold epidemiology infectious disease tie-decay network structure forecast modeling factor transmission dynamics
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    arxiv.org/abs/2009.12932
  7. www.imperial.ac.uk www.imperial.ac.uk
    COVID-19 reports
    1
    1. ErikStuchly 17 Sep 2020

      COVID-19 reports. (n.d.). Imperial College London. Retrieved September 17, 2020, from http://www.imperial.ac.uk/medicine/departments/school-public-health/infectious-disease-epidemiology/mrc-global-infectious-disease-analysis/covid-19/covid-19-reports/

      is:webpage lang:en COVID-19 report database epidemiology case number mortality analysis big data infectious disease testing hospitalization dynamics
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    imperial.ac.uk/mrc-global-infectious-disease-analysis/covid-19/covid-19-reports/
  8. www.pnas.org www.pnas.org
    Trip duration modifies spatial spread of infectious diseases
    1
    1. ErikStuchly 17 Sep 2020

      Giles, J. R., Erbach-Schoenberg, E. zu, Tatem, A. J., Gardner, L., Bjørnstad, O. N., Metcalf, C. J. E., & Wesolowski, A. (2020). The duration of travel impacts the spatial dynamics of infectious diseases. Proceedings of the National Academy of Sciences, 117(36), 22572–22579. https://doi.org/10.1073/pnas.1922663117

      is:article lang:en COVID-19 infectious disease transmission travel duration spatial dynamics modeling data epidemiology population size distance
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    pnas.org/content/117/37/22637
  9. Aug 2020
  10. arxiv.org arxiv.org
    Scaling up epidemiological models with rule-based modelling
    1
    1. ErikStuchly 28 Aug 2020

      Waites, W., Cavaliere, M., Manheim, D., Panovska-Griffiths, J., & Danos, V. (2020). Scaling up epidemiological models with rule-based modelling. ArXiv:2006.12077 [q-Bio]. http://arxiv.org/abs/2006.12077

      is:article lang:en modeling epidemiology rule-based scaling infectious disease dynamics transmission prevention tracking decision making measures
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    arxiv.org/abs/2006.12077
  11. Jun 2020
  12. doi.org doi.org
    SOCRATES: An online tool leveraging a social contact data sharing initiative to assess mitigation strategies for COVID-19
    1
    1. edampf 19 Jun 2020

      Willem, L., Hoang, T. V., Funk, S., Coletti, P., Beutels, P., & Hens, N. (2020). SOCRATES: An online tool leveraging a social contact data sharing initiative to assess mitigation strategies for COVID-19 [Preprint]. Epidemiology. https://doi.org/10.1101/2020.03.03.20030627

      is:preprint COVID-19 lang:en contact tracing online SOCRATES interactive mitigation data data sharing social contact matrix R infection transmission social distancing user interface transmission dynamics infectious disease epidemiology behavioral change open source
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    doi.org/10.1101/2020.03.03.20030627
  13. arxiv.org arxiv.org
    Disease and information spreading at different speeds in multiplex networks
    1
    1. Marlene_Wulf 04 Jun 2020

      Velásquez-Rojas, F., da Silva, P. C. V., Connaughton, C., Moreno, Y., Rodrigues, F. A., & Vazquez, F. (2020). Disease and information spreading at different speeds in multiplex networks. ArXiv:2006.01965 [Physics]. http://arxiv.org/abs/2006.01965

      is:article lang:en disease information spreading different speed multiplex network risk outbreak dynamics study behavior modeling
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    arxiv.org/abs/2006.01965
  14. May 2020
  15. science.sciencemag.org science.sciencemag.org
    Modeling infectious disease dynamics
    1
    1. edampf 25 May 2020

      Cobey, S. (2020). Modeling infectious disease dynamics. Science, 368(6492), 713–714. https://doi.org/10.1126/science.abb5659

      is:article lang:en COVID-19 infectious disease modeling epidemiology uncertainty communication prediction transmission rate social disruption vaccine dynamics
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    science.sciencemag.org/content/368/6492/713.full
  16. www.pnas.org www.pnas.org
    The airborne lifetime of small speech droplets and their potential importance in SARS-CoV-2 transmission
    1
    1. edampf 25 May 2020

      Stadnytskyi, V., Bax, C. E., Bax, A., & Anfinrud, P. (2020). The airborne lifetime of small speech droplets and their potential importance in SARS-CoV-2 transmission. Proceedings of the National Academy of Sciences, 202006874. https://doi.org/10.1073/pnas.2006874117

      is:article lang:en COVID-19 transmission dynamics airborne lifetime speech droplet independent action hypothesis respiratory disease normal speaking
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    pnas.org/content/117/22/11875
  17. Apr 2020
  18. journals.plos.org journals.plos.org
    The research and development process for multiscale models of infectious disease systems
    1
    1. edampf 23 Apr 2020

      Garira W (2020) The research and development process for multiscale models of infectious disease systems. PLoS Comput Biol 16(4): e1007734. https://doi.org/10.1371/journal.pcbi.1007734

      citation is:preprint modeling infection multiscale complexity science dynamics research infectious disease
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    journals.plos.org/ploscompbiol/article