14 Matching Annotations
  1. Apr 2022
  2. twitter.com twitter.com
    NetScience on Twitter
    1
    1. NatasjaDerbyMcCabe 20 Apr 2022

      NetScience on Twitter. (n.d.). Twitter. Retrieved 15 February 2021, from https://twitter.com/net_science/status/1360990028168503297

      is:twitter lang:en COVID-19 non-pharmaceutical interventions SARS-CoV-2 behavioral changes transmission empirical data epidemic models UK USA Italy France China Canada Ethiopia South Korea Poland Taiwan
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    twitter.com/net_science/status/1360990028168503297
  3. Oct 2021
  4. epjdatascience.springeropen.com epjdatascience.springeropen.com
    Finding disease outbreak locations from human mobility data
    1
    1. jasminehollingworth 21 Oct 2021

      Schlosser, F., & Brockmann, D. (2021). Finding disease outbreak locations from human mobility data. EPJ Data Science, 10(1), 1–17. https://doi.org/10.1140/epjds/s13688-021-00306-6

      lang:en is:article disease outbreak location human mobility infectious mitigate origin data epidemic risk increase transmission
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    epjdatascience.springeropen.com/articles/10.1140/epjds/s13688-021-00306-6
  5. inews.co.uk inews.co.uk
    Covid cases in schools fuel two-tier pandemic with children and their parents more exposed
    1
    1. SIYANYE 08 Oct 2021

      thomas-saunders. (2021, October 7). Covid cases in schools fuel two-tier pandemic with children and their parents more exposed. Inews.Co.Uk. https://inews.co.uk/news/education/covid-cases-schools-two-tier-pandemic-children-1236187

      lang:en is:webpage COVID-19 pandemic children parent transmission epidemic
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    inews.co.uk/news/education/covid-cases-schools-two-tier-pandemic-children-1236187
  6. May 2021
  7. arxiv.org arxiv.org
    Untitled document
    1
    1. lucyparfitt16 20 May 2021

      Mizutaka, S., Mori, K., & Hasegawa, T. (2021). Synergistic epidemic spreading in correlated networks. ArXiv:2105.08992 [Physics, q-Bio]. http://arxiv.org/abs/2105.08992

      is:pdf lang:en transmission modeling synergy susceptible-infected-susceptible synergistic effect correlated networks epidemic prediction research statistics
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    arxiv.org/pdf/2105.08992.pdf
  8. blog.frontiersin.org blog.frontiersin.org
    Early government intervention is key to reducing the spread of COVID-19
    1
    1. jasminehollingworth 07 May 2021

      Early government intervention is key to reducing the spread of COVID-19. (2020, May 6). Science & Research News | Frontiers. https://blog.frontiersin.org/2020/05/06/early-government-intervention-is-key-to-reducing-the-spread-of-covid-19/

      lang:en is:blog article evidence COVID-19 spread government intervention reduction factor outbreak publication population epidemic pandemic USA death Italy China infection rate database transmission
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    blog.frontiersin.org/2020/05/06/early-government-intervention-is-key-to-reducing-the-spread-of-covid-19/
  9. Mar 2021
  10. www.sciencedirect.com www.sciencedirect.com
    Non-pharmaceutical interventions during the COVID-19 pandemic: A review
    1
    1. NatasjaDerbyMcCabe 19 Mar 2021

      Perra, N. (2021). Non-pharmaceutical interventions during the COVID-19 pandemic: A review. Physics Reports. https://doi.org/10.1016/j.physrep.2021.02.001

      is:other lang:en COVID-19 non-pharmaceutical interventions SARS-CoV-2 behavioral changes transmission empirical data epidemic models UK USA Italy France China Canada Ethiopia South Korea Poland Taiwan
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    sciencedirect.com/science/article/pii/S0370157321000624
  11. www.theguardian.com www.theguardian.com
    How modelling Covid has changed the way we think about epidemics | Adam Kucharrski
    1
    1. sophia.sterckx 15 Mar 2021

      the Guardian. ‘How Modelling Covid Has Changed the Way We Think about Epidemics | Adam Kucharrski’, 4 January 2021. http://www.theguardian.com/commentisfree/2021/jan/04/covid-model-epidemic-collaboration-experiment.

      is:article lang:en COVID-19 epidemics covid thoughts natural experiment transmission symptoms modelling covid assumptions models epidemic waves predictions patterns outbreaks
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    theguardian.com/commentisfree/2021/jan/04/covid-model-epidemic-collaboration-experiment
  12. Feb 2021
  13. link.aps.org link.aps.org
    Effect of heterogeneous risk perception on information diffusion, behavior change, and disease transmission
    1
    1. jasminehollingworth 24 Feb 2021

      Ye, Y., Zhang, Q., Ruan, Z., Cao, Z., Xuan, Q., & Zeng, D. D. (2020). Effect of heterogeneous risk perception on information diffusion, behavior change, and disease transmission. Physical Review E, 102(4), 042314. https://doi.org/10.1103/PhysRevE.102.042314

      lang:en is:article COVID-19 heterogeneous risk perception information diffusion behavior change disease transmission outbreak model infection infected approximation rate epidemic prevention case media leader opinion population global protection
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    link.aps.org/doi/10.1103/PhysRevE.102.042314
  14. journals.plos.org journals.plos.org
    Dynamics of COVID-19 under social distancing measures are driven by transmission network structure
    1
    1. david_gru 06 Feb 2021

      Nande A, Adlam B, Sheen J, Levy MZ, Hill AL (2021) Dynamics of COVID-19 under social distancing measures are driven by transmission network structure. PLoS Comput Biol 17(2): e1008684. https://doi.org/10.1371/journal.pcbi.1008684

      lang:en is:article COVID-19 intervention social distancing modeling transmission network simulation epidemic disease elimination household
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    journals.plos.org/ploscompbiol/article
  15. Aug 2020
  16. www.nber.org www.nber.org
    The Macroeconomics of Epidemics
    1
    1. Danaeioak 28 Aug 2020

      Eichenbaum, M. S., Rebelo, S., & Trabandt, M. (2020). The Macroeconomics of Epidemics (Working Paper No. 26882; Working Paper Series). National Bureau of Economic Research. https://doi.org/10.3386/w26882

      is:article lang:en macroeconomics epidemic canonical epidemiology model decision making consumption work recession transmission containment policy death rate
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    nber.org/papers/w26882
  17. www.nber.org www.nber.org
    The Hammer and the Scalpel: On the Economics of Indiscriminate versus Targeted Isolation Policies during Pandemics
    1
    1. katietaylor_99 11 Aug 2020

      Chari, Varadarajan V, Rishabh Kirpalani, and Christopher Phelan. ‘The Hammer and the Scalpel: On the Economics of Indiscriminate versus Targeted Isolation Policies during Pandemics’. Working Paper. Working Paper Series. National Bureau of Economic Research, May 2020. https://doi.org/10.3386/w27232.

      is:report lang:en COVID-19 economics indiscriminate targeted isolation policies pandemics dynamic economic model epidemic transmission SIR benefits and costs welfare gains intervention recession mortality cumulative deaths
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    nber.org/papers/w27232
  18. May 2020
  19. arxiv.org arxiv.org
    Production networks and epidemic spreading: How to restart the UK economy?
    1
    1. Gaurav_Saxena 23 May 2020

      Pichler, Anton, Marco Pangallo, R. Maria del Rio-Chanona, François Lafond, and J. Doyne Farmer. “Production Networks and Epidemic Spreading: How to Restart the UK Economy?” ArXiv:2005.10585 [Physics, q-Fin], May 21, 2020. http://arxiv.org/abs/2005.10585.

      is:article lang:en COVID-19 economic growth epidemic spreading production network economics epidemiology United Kingdom supply demand social distincing input-output constraints production inventory dynamics unemployment consumption industry transmission rate reopening industry GDP work from home
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    arxiv.org/abs/2005.10585
  20. link.aps.org link.aps.org
    Small inter-event times govern epidemic spreading on networks
    1
    1. edampf 20 May 2020

      Masuda, N., & Holme, P. (2020). Small inter-event times govern epidemic spreading on networks. Physical Review Research, 2(2), 023163. https://doi.org/10.1103/PhysRevResearch.2.023163

      is:article lang:en epidemic spreading network interaction infection rate transmission dynamics rumor heavy-tailed distribution inter-event susceptible infected recovered modeling
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    link.aps.org/doi/10.1103/PhysRevResearch.2.023163
  21. doi.org doi.org
    https://doi.org/10.1101/2020.04.15.20064980
    1
    1. edampf 18 May 2020

      Rader, B., Scarpino, S., Nande, A., Hill, A., Reiner, R., Pigott, D., Gutierrez, B., Shrestha, M., Brownstein, J., Castro, M., Tian, H., Pybus, O., & Kraemer, M. U. G. (2020). Crowding and the epidemic intensity of COVID-19 transmission [Preprint]. Epidemiology. https://doi.org/10.1101/2020.04.15.20064980

      is:preprint lang:en COVID-19 crowding transmission China epidemic intensity dense city spatial variable population density epidemiology infection rate
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    doi.org/10.1101/2020.04.15.20064980