Hans (J.A.P.) Heesterbeek
Hans (J.A.P.) Heesterbeek
Professor of Theoretical Epidemiology, Universiteit Utrecht
Verified email at uu.nl
Title
Cited by
Cited by
Year
On the definition and the computation of the basic reproduction ratio R 0 in models for infectious diseases in heterogeneous populations
O Diekmann, JAP Heesterbeek, JAJ Metz
Journal of mathematical biology 28 (4), 365-382, 1990
43471990
Mathematical epidemiology of infectious diseases: model building, analysis and interpretation
O Diekmann, JAP Heesterbeek
John Wiley & Sons, 2000
37132000
How will country-based mitigation measures influence the course of the COVID-19 epidemic?
RM Anderson, H Heesterbeek, D Klinkenberg, TD Hollingsworth
The lancet 395 (10228), 931-934, 2020
30592020
The construction of next-generation matrices for compartmental epidemic models
O Diekmann, JAP Heesterbeek, MG Roberts
Journal of the Royal Society Interface 7 (47), 873-885, 2010
13032010
Ecology of wildlife diseases
PJ Hudson, AP Rizzoli, BT Grenfell, JAP Heesterbeek, AP Dobson
Oxford University Press, 2002
7682002
Stability in real food webs: weak links in long loops
A Neutel, JAP Heesterbeek, PC De Ruiter
Science 296, 1120-1123, 2002
7372002
Mathematical tools for understanding infectious disease dynamics
O Diekmann, H Heesterbeek, T Britton
Mathematical Tools for Understanding Infectious Disease Dynamics, 2012
6822012
A brief history of R 0 and a recipe for its calculation
JAP Heesterbeek
Acta biotheoretica 50 (3), 189-204, 2002
5332002
Modeling infectious disease dynamics in the complex landscape of global health
H Heesterbeek, RM Anderson, V Andreasen, S Bansal, D De Angelis, ...
Science 347 (6227), 2015
4842015
Complexity theory and financial regulation
S Battiston, JD Farmer, A Flache, D Garlaschelli, AG Haldane, ...
Science 351 (6275), 818-819, 2016
4232016
How does transmission of infection depend on population size?
MCM de Jong, O Diekmann, JAP Heesterbeek
Epidemic models: their structure and relation to data 5, 84, 1995
3901995
Reconciling complexity with stability in naturally assembling food webs
AM Neutel, JAP Heesterbeek, J Van de Koppel, G Hoenderboom, A Vos, ...
Nature 449 (7162), 599-602, 2007
3562007
Daniel Bernoulli’s epidemiological model revisited
K Dietz, JAP Heesterbeek
Mathematical biosciences 180 (1-2), 1-21, 2002
3292002
Methicillin resistant Staphylococcus aureus ST398 in veal calf farming: human MRSA carriage related with animal antimicrobial usage and farm hygiene
H Graveland, JA Wagenaar, H Heesterbeek, D Mevius, E Van Duijkeren, ...
PloS one 5 (6), e10990, 2010
3152010
The concept of Ro in epidemic theory
JAP Heesterbeek, K Dietz
Statistica neerlandica 50 (1), 89-110, 1996
3021996
A new method for estimating the effort required to control an infectious disease
MG Roberts, JAP Heesterbeek
Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2003
2802003
Heterogeneous shedding of Escherichia coli O157 in cattle and its implications for control
L Matthews, JC Low, DL Gally, MC Pearce, DJ Mellor, JAP Heesterbeek, ...
Proceedings of the National Academy of Sciences 103 (3), 547-552, 2006
2732006
Persistence of livestock associated MRSA CC398 in humans is dependent on intensity of animal contact
H Graveland, JA Wagenaar, K Bergs, H Heesterbeek, D Heederik
PloS one 6 (2), e16830, 2011
2312011
The changing incidence of dengue haemorrhagic fever in Indonesia: a 45-year registry-based analysis
MR Karyanti, CSPM Uiterwaal, R Kusriastuti, SR Hadinegoro, MM Rovers, ...
BMC infectious diseases 14 (1), 1-7, 2014
2082014
The saturating contact rate in marriage-and epidemic models
JAP Heesterbeek, JAJ Metz
Journal of Mathematical Biology 31 (5), 529-539, 1993
2051993
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