Mick Roberts
Mick Roberts
Professor in Mathematical Biology, Massey University
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Cited by
Cited by
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
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), aaa4339, 2015
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
The dynamics of an infectious disease in a population with birth pulses
MG Roberts, RR Kao
Mathematical Biosciences 149 (1), 23-36, 1998
The role of pathogens in biological conservation
S Cleaveland, GR Hess, A Dobson, MK Laurenson, HI McCallum, ...
Oxford University Press, 2002
The type-reproduction number T in models for infectious disease control
JAP Heesterbeek, MG Roberts
Mathematical biosciences 206 (1), 3-10, 2007
Control of echinococcosis.
MA Gemmell, MG Roberts, TC Beard, S Campano Diaz, JR Lawson, ...
WHO/OIE manual on echinococcosis in humans and animals: a public health …, 2001
The metapopulation dynamics of an infectious disease: tuberculosis in possums
GR Fulford, MG Roberts, JAP Heesterbeek
Theoretical population biology 61 (1), 15-29, 2002
Early epidemiological assessment of the virulence of emerging infectious diseases: a case study of an influenza pandemic
H Nishiura, D Klinkenberg, M Roberts, JAP Heesterbeek
PloS one 4 (8), e6852, 2009
Nine challenges for deterministic epidemic models
M Roberts, V Andreasen, A Lloyd, L Pellis
Epidemics 10, 49-53, 2015
Hepatitis B in a high prevalence New Zealand population: a mathematical model applied to infection control policy
S Thornley, C Bullen, M Roberts
Journal of Theoretical Biology 254 (3), 599-603, 2008
Population dynamics in echinococcosis and cysticercosis: biological parameters of Echinococcus granulosus in dogs and sheep
MA Gemmell, JR Lawson, MG Roberts
Parasitology 92 (3), 599-620, 1986
Model-consistent estimation of the basic reproduction number from the incidence of an emerging infection
MG Roberts, JAP Heesterbeek
Journal of mathematical biology 55 (5), 803-816, 2007
The pluses and minuses of 0
MG Roberts
Journal of the Royal Society Interface 4 (16), 949-961, 2007
Population dynamics in echinococcosis and cysticercosis: mathematical model of the life-cycle of Echinococcus granulosus
MG Roberts, JR Lawson, MA Gemmell
Parasitology 92 (3), 621-641, 1986
The dynamics of bovine tuberculosis in possum populations, and its eradication or control by culling or vaccination
MG Roberts
Journal of Animal Ecology, 451-464, 1996
Microparasite transmission and persistence
J Swinton, MEJ Woolhouse, ME Begon, AP Dobson, E Ferroglio, ...
The ecology of wildlife diseases, 83-101, 2002
Predicting and preventing measles epidemics in New Zealand: application of a mathematical model
MG Roberts, MI Tobias
Epidemiology & Infection 124 (2), 279-287, 2000
Mathematical models for microparasites of wildlife
JAP Heesterbeek, MG Roberts
Ecology of infectious diseases in natural populations 90, 122, 1995
Spatial aspects of disease dynamics
GR Hess, SE Randolph, P Arneberg, C Chemini, C Furlanello, J Harwood, ...
The ecology of wildlife diseases, 102-118, 2002
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