Mick Roberts
Mick Roberts
Professor in Mathematical Biology, Massey University
Verified email at massey.ac.nz
TitleCited byYear
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
6302010
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
2502015
The dynamics of an infectious disease in a population with birth pulses
MG Roberts, RR Kao
Mathematical Biosciences 149 (1), 23-36, 1998
2351998
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
2272003
The role of pathogens in biological conservation
S Cleaveland, GR Hess, A Dobson, MK Laurenson, HI McCallum, ...
Oxford University Press, 2002
1952002
The type-reproduction number T in models for infectious disease control
JAP Heesterbeek, MG Roberts
Mathematical biosciences 206 (1), 3-10, 2007
1482007
The metapopulation dynamics of an infectious disease: tuberculosis in possums
GR Fulford, MG Roberts, JAP Heesterbeek
Theoretical Population Biology 61 (1), 15-29, 2002
1422002
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
1321986
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
128*2001
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
1141996
Mathematical models for microparasites of wildlife
JAP Heesterbeek, MG Roberts
Ecology of infectious diseases in natural populations 90, 122, 1995
1021995
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
1002002
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
981986
The pluses and minuses of 0
MG Roberts
Journal of the Royal Society Interface 4 (16), 949-961, 2007
922007
Microparasite transmission and persistence
J Swinton, MEJ Woolhouse, ME Begon, AP Dobson, E Ferroglio, ...
Oxford University Press, 2002
922002
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
882007
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
782008
The population dynamics of parasitic helminth communities
A Dobson, M Roberts
Parasitology 109 (S1), S97-S108, 1994
781994
Predicting and preventing measles epidemics in New Zealand: application of a mathematical model
MG Roberts, MI Tobias
Epidemiology & Infection 124 (2), 279-287, 2000
772000
Population dynamics in echinococcosis and cysticercosis: evaluation of the biological parameters of Taenia hydatigena and T. ovis and comparison with those of Echinococcus …
MA Gemmell, JR Lawson, MG Roberts
Parasitology 94 (1), 161-180, 1987
771987
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