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Modèles compartimentaux en épidémiologie (French Wikipedia)

Analysis of information sources in references of the Wikipedia article "Modèles compartimentaux en épidémiologie" in French language version.

refsWebsite
Global rank French rank
11doi.org
2nd place
3rd place
6issn.org
57th place
4th place
4nih.gov
4th place
12th place
2yorku.ca
3,576th place
2,201st place
1cdc.gov
218th place
480th place
1duke.edu
1,880th place
2,850th place
1ird.fr
6,042nd place
573rd place
1web.archive.org
1st place
1st place
1wikiwix.com
194th place
17th place
1archive.is
87th place
20th place
1googleusercontent.com
243rd place
21st place
1sosmath.com
low place
low place
1univ-lille1.fr
low place
2,063rd place
1lemonde.fr
83rd place
2nd place
1pagepress.org
low place
low place
1jstor.org
26th place
110th place
1who.int
195th place
221st place
1psu.edu
207th place
929th place
1medrxiv.org
low place
low place
1google.be
1,422nd place
141st place
1royalsocietypublishing.org
1,993rd place
854th place
1wiley.com
222nd place
129th place
1sciencedirect.com
149th place
80th place
1tandfonline.com
507th place
420th place

archive.is (Global: 87th place; French: 20th place)

cdc.gov (Global: 218th place; French: 480th place)

doi.org (Global: 2nd place; French: 3rd place)

dx.doi.org

  • (en)M. P. Coleman, « A plague epidemic in voluntary quarantine », International Journal of Epidemiology, vol. 15, no 3,‎ , p. 379–385 (ISSN 0300-5771, PMID 3533810, DOI 10.1093/ije/15.3.379, lire en ligne, consulté le )
  • (en)« Modelling an influenza pandemic: A guide for the perplexed », CMAJ: Canadian Medical Association Journal, vol. 181, nos 3-4,‎ , p. 171–173 (ISSN 0820-3946, PMID 19620267, PMCID 2717691, DOI 10.1503/cmaj.090885, lire en ligne, consulté le ).
  • (en) Flahault A, Vergu E , Coudeville L , Grais RF, « Strategies for containing a global influenza pandemic », Vaccine, vol. 24, nos 44-46,‎ , p. 6751-6755 (DOI 10.1016/j.vaccine.2006.05.079).
  • (en) Ferguson NM, Cummings DA, Cauchemez S, Fraser C, Riley S, Meeyai A, Iamsirithaworn S, Burke DS, « Strategies for containing an emerging influenza pandemic in Southeast Asia », Nature, vol. 437, no 7056,‎ , p. 209-214 (DOI 10.1038/nature04017).
  • Kathy Leung, Joseph T Wu, Di Liu et Gabriel M Leung, « First-wave COVID-19 transmissibility and severity in China outside Hubei after control measures, and second-wave scenario planning: a modelling impact assessment », The Lancet,‎ (ISSN 0140-6736, DOI 10.1016/s0140-6736(20)30746-7, lire en ligne, consulté le ).
  • Peter Czuppon, Emmanuel Schertzer, François Blanquart et Florence Débarre, « The stochastic dynamics of early epidemics: probability of establishment, initial growth rate, and infection cluster size at first detection », Journal of The Royal Society Interface, vol. 18, no 184,‎ , p. 20210575 (PMID 34784776, PMCID 8596012, DOI 10.1098/rsif.2021.0575, lire en ligne, consulté le )
  • (en) G. N. Mercer, K. Glass et N. G. Becker, « Effective reproduction numbers are commonly overestimated early in a disease outbreak », Statistics in Medicine, vol. 30, no 9,‎ , p. 984–994 (ISSN 1097-0258, DOI 10.1002/sim.4174, lire en ligne, consulté le )
  • Nicolas P. Rebuli, N. G. Bean et J. V. Ross, « Estimating the basic reproductive number during the early stages of an emerging epidemic », Theoretical Population Biology, vol. 119,‎ , p. 26–36 (ISSN 0040-5809, DOI 10.1016/j.tpb.2017.10.004, lire en ligne, consulté le )
  • (en) Peter Jagers, « A general stochastic model for population development », Scandinavian Actuarial Journal, vol. 1969, nos 1-2,‎ , p. 84–103 (ISSN 0346-1238 et 1651-2030, DOI 10.1080/03461238.1969.10405220, lire en ligne, consulté le )

doi.org

  • Kathy Leung, Joseph T Wu, Di Liu et Gabriel M Leung, « First-wave COVID-19 transmissibility and severity in China outside Hubei after control measures, and second-wave scenario planning: a modelling impact assessment », The Lancet,‎ (ISSN 0140-6736, DOI 10.1016/s0140-6736(20)30746-7, lire en ligne, consulté le ).
  • Tom Britton et Etienne Pardoux, « Chapter 1 Stochastic Epidemic Models », dans Lecture Notes in Mathematics, Springer International Publishing, , 5–19 p. (ISBN 978-3-030-30899-5, lire en ligne)

duke.edu (Global: 1,880th place; French: 2,850th place)

math.duke.edu

google.be (Global: 1,422nd place; French: 141st place)

books.google.be

googleusercontent.com (Global: 243rd place; French: 21st place)

webcache.googleusercontent.com

ird.fr (Global: 6,042nd place; French: 573rd place)

issn.org (Global: 57th place; French: 4th place)

portal.issn.org

jstor.org (Global: 26th place; French: 110th place)

  • Bauch C.T, Lloyd-Smith J.O, Coffee M.P & Galvani A.P (2005) Dynamically modeling SARS and other newly emerging respiratory illnesses: past, present, and future. Epidemiology, 791-801 (résumé).

lemonde.fr (Global: 83rd place; French: 2nd place)

medrxiv.org (Global: low place; French: low place)

nih.gov (Global: 4th place; French: 12th place)

ncbi.nlm.nih.gov

  • (en)M. P. Coleman, « A plague epidemic in voluntary quarantine », International Journal of Epidemiology, vol. 15, no 3,‎ , p. 379–385 (ISSN 0300-5771, PMID 3533810, DOI 10.1093/ije/15.3.379, lire en ligne, consulté le )
  • (en)« Modelling an influenza pandemic: A guide for the perplexed », CMAJ: Canadian Medical Association Journal, vol. 181, nos 3-4,‎ , p. 171–173 (ISSN 0820-3946, PMID 19620267, PMCID 2717691, DOI 10.1503/cmaj.090885, lire en ligne, consulté le ).
  • Gumel, A. B., Ruan, S., Day, T., Watmough, J., Brauer, F., Van den Driessche, P., ... & Wu, J. (2004) Modelling strategies for controlling SARS outbreaks. Proceedings of the Royal Society of London. Series B: Biological Sciences, 271(1554), 2223-2232.
  • Peter Czuppon, Emmanuel Schertzer, François Blanquart et Florence Débarre, « The stochastic dynamics of early epidemics: probability of establishment, initial growth rate, and infection cluster size at first detection », Journal of The Royal Society Interface, vol. 18, no 184,‎ , p. 20210575 (PMID 34784776, PMCID 8596012, DOI 10.1098/rsif.2021.0575, lire en ligne, consulté le )

pagepress.org (Global: low place; French: low place)

psu.edu (Global: 207th place; French: 929th place)

citeseerx.ist.psu.edu

royalsocietypublishing.org (Global: 1,993rd place; French: 854th place)

  • Peter Czuppon, Emmanuel Schertzer, François Blanquart et Florence Débarre, « The stochastic dynamics of early epidemics: probability of establishment, initial growth rate, and infection cluster size at first detection », Journal of The Royal Society Interface, vol. 18, no 184,‎ , p. 20210575 (PMID 34784776, PMCID 8596012, DOI 10.1098/rsif.2021.0575, lire en ligne, consulté le )

sciencedirect.com (Global: 149th place; French: 80th place)

  • Nicolas P. Rebuli, N. G. Bean et J. V. Ross, « Estimating the basic reproductive number during the early stages of an emerging epidemic », Theoretical Population Biology, vol. 119,‎ , p. 26–36 (ISSN 0040-5809, DOI 10.1016/j.tpb.2017.10.004, lire en ligne, consulté le )

sosmath.com (Global: low place; French: low place)

tandfonline.com (Global: 507th place; French: 420th place)

univ-lille1.fr (Global: low place; French: 2,063rd place)

fil.univ-lille1.fr

web.archive.org (Global: 1st place; French: 1st place)

who.int (Global: 195th place; French: 221st place)

wikiwix.com (Global: 194th place; French: 17th place)

archive.wikiwix.com

wiley.com (Global: 222nd place; French: 129th place)

onlinelibrary.wiley.com

  • (en) G. N. Mercer, K. Glass et N. G. Becker, « Effective reproduction numbers are commonly overestimated early in a disease outbreak », Statistics in Medicine, vol. 30, no 9,‎ , p. 984–994 (ISSN 1097-0258, DOI 10.1002/sim.4174, lire en ligne, consulté le )

yorku.ca (Global: 3,576th place; French: 2,201st place)

cdm.yorku.ca