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J A Heesterbeek

Showing results (1-10 of 13) with videos related to

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Nature|December 16, 2000
Bernoulli was ahead of modern epidemiologyK Dietz, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1993
The saturating contact rate in marriage- and epidemic modelsJ A Heesterbeek, J A Metz
Parasitology|May 1, 1995
The dynamics of nematode infections of farmed ruminantsM G Roberts, J A Heesterbeek
Journal of Mathematical Biology|October 24, 1998
A simple parasite model with complicated dynamicsM G Roberts, J A Heesterbeek
Journal of Theoretical Biology|March 30, 2000
On optimal size and number of reserves for metapopulation persistenceR S Etienne, J A Heesterbeek
The American Naturalist|August 19, 2008
Rules of thumb for conservation of metapopulations based on a stochastic winking-patch modelR S Etienne, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1995
Threshold quantities for helminth infectionsJ A Heesterbeek, M G Roberts
Mathematical Biosciences|March 1, 1989
How to estimate the efficacy of periodic control of an infectious plant diseaseH R Thieme, J A Heesterbeek
Mathematical Biosciences|December 1, 1991
The basic reproduction ratio for sexually transmitted diseases: I. Theoretical considerationsO Diekmann, K Dietz, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1990
On the definition and the computation of the basic reproduction ratio R0 in models for infectious diseases in heterogeneous populationsO Diekmann, J A Heesterbeek, J A Metz
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Nature|December 16, 2000
Bernoulli was ahead of modern epidemiologyK Dietz, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1993
The saturating contact rate in marriage- and epidemic modelsJ A Heesterbeek, J A Metz
Parasitology|May 1, 1995
The dynamics of nematode infections of farmed ruminantsM G Roberts, J A Heesterbeek
Journal of Mathematical Biology|October 24, 1998
A simple parasite model with complicated dynamicsM G Roberts, J A Heesterbeek
Journal of Theoretical Biology|March 30, 2000
On optimal size and number of reserves for metapopulation persistenceR S Etienne, J A Heesterbeek
The American Naturalist|August 19, 2008
Rules of thumb for conservation of metapopulations based on a stochastic winking-patch modelR S Etienne, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1995
Threshold quantities for helminth infectionsJ A Heesterbeek, M G Roberts
Mathematical Biosciences|March 1, 1989
How to estimate the efficacy of periodic control of an infectious plant diseaseH R Thieme, J A Heesterbeek
Mathematical Biosciences|December 1, 1991
The basic reproduction ratio for sexually transmitted diseases: I. Theoretical considerationsO Diekmann, K Dietz, J A Heesterbeek
Journal of Mathematical Biology|January 1, 1990
On the definition and the computation of the basic reproduction ratio R0 in models for infectious diseases in heterogeneous populationsO Diekmann, J A Heesterbeek, J A Metz
Pageof 2