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Junling Ma
Titolo
Citata da
Citata da
Anno
Estimating epidemic exponential growth rate and basic reproduction number
J Ma
Infectious Disease Modelling 5, 129-141, 2020
3652020
Generality of the final size formula for an epidemic of a newly invading infectious disease
J Ma, DJD Earn
Bulletin of mathematical biology 68, 679-702, 2006
3442006
Cholera epidemic in Haiti, 2010: using a transmission model to explain spatial spread of disease and identify optimal control interventions
AR Tuite, J Tien, M Eisenberg, DJD Earn, J Ma, DN Fisman
Annals of internal medicine 154 (9), 593-601, 2011
2982011
Effective degree network disease models
J Lindquist, J Ma, P Van den Driessche, FH Willeboordse
Journal of mathematical biology 62 (2), 143-164, 2011
2592011
Epidemic threshold conditions for seasonally forced SEIR models
J Ma, Z Ma
Mathematical Biosciences and Engineering 3 (1), 161, 2006
2052006
Inferring the causes of the three waves of the 1918 influenza pandemic in England and Wales
D He, J Dushoff, T Day, J Ma, DJD Earn
Proceedings of the Royal Society B: Biological Sciences 280 (1766), 20131345, 2013
1672013
Estimating initial epidemic growth rates
J Ma, J Dushoff, BM Bolker, DJD Earn
Bulletin of mathematical biology 76 (1), 245-260, 2014
1512014
Survival and stationary distribution analysis of a stochastic competitive model of three species in a polluted environment
Y Zhao, S Yuan, J Ma
Bulletin of mathematical biology 77 (7), 1285-1326, 2015
1132015
Reconstructing influenza incidence by deconvolution of daily mortality time series
E Goldstein, J Dushoff, J Ma, JB Plotkin, DJD Earn, M Lipsitch
Proceedings of the National Academy of Sciences 106 (51), 21825-21829, 2009
1082009
Age-specific mortality risk from pandemic influenza
J Ma, J Dushoff, DJD Earn
Journal of theoretical biology 288, 29-34, 2011
882011
Mechanistic modelling of the three waves of the 1918 influenza pandemic
D He, J Dushoff, T Day, J Ma, DJD Earn
Theoretical Ecology 4 (2), 283-288, 2011
642011
Vaccination against 2009 pandemic H1N1 in a population dynamical model of Vancouver, Canada: timing is everything
JM Conway, AR Tuite, DN Fisman, N Hupert, R Meza, B Davoudi, ...
BMC public health 11 (1), 932, 2011
502011
The importance of contact network topology for the success of vaccination strategies
J Ma, P van den Driessche, FH Willeboordse
Journal of theoretical biology 325, 12-21, 2013
422013
Effective degree household network disease model
J Ma, P van den Driessche, FH Willeboordse
Journal of mathematical biology 66 (1-2), 75-94, 2013
422013
The evolution of resource adaptation: how generalist and specialist consumers evolve
J Ma, SA Levin
Bulletin of mathematical biology 68 (5), 1111-1123, 2006
422006
Epidemic dynamics on semi-directed complex networks
X Zhang, GQ Sun, YX Zhu, J Ma, Z Jin
Mathematical biosciences 246 (2), 242-251, 2013
402013
Network evolution by different rewiring schemes
J Lindquist, J Ma, P Van den Driessche, FH Willeboordse
Physica D: Nonlinear Phenomena 238 (4), 370-378, 2009
302009
Edge-based epidemic spreading in degree-correlated complex networks
Y Wang, J Ma, J Cao, L Li
Journal of theoretical biology 454, 164-181, 2018
292018
Model for disease dynamics of a waterborne pathogen on a random network
M Li, J Ma, P van den Driessche
Journal of mathematical biology 71 (4), 961-977, 2015
282015
Edge removal in random contact networks and the basic reproduction number
D Koch, R Illner, J Ma
Journal of mathematical biology 67 (2), 217-238, 2013
272013
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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