Dyson, Louise - University of Warwick - Department of Biomedical Science

个人简介

2004-2008 MMath at Balliol College, University of Oxford 2008-2013 D.Phil in the Centre for Mathematical Biology, funded through the Systems Biology Doctoral Training Centre, University of Oxford 2013-2015 Postdoctoral Research Associate in the Complex Systems and Statistical Physics Group, University of Manchester 2015-2016 Postdoctoral Research Fellow, Neglected Tropical Diseases Modelling Consortium, University of Warwick

研究领域

I am an Associate Professor in epidemiology appointed jointly between the Mathematics Institute and the School of Life Sciences. I am also a member of the Warwick Infectious Disease Epidemiology Research centre (WIDER), a cross-disciplinary group who undertake research into understanding and predicting the spread and control of infectious diseases. I am interested in using mathematical modelling to study problems in epidemiology and more generally in biological systems. I am particularly interested in situations in which stochastic effects play a critical role in the behaviour of the system. More specifically, I am currently working on modelling the transmission of Yaws (a neglected tropical disease), the impact of people who are systematically missed on the success of mass drug administration campaigns, the movement of cells during embryogenesis and ways to assess when we can safely stop disease control efforts without the danger of reemergence.

近期论文

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Lafuerz, Luis F., Dyson, Louise, Edmonds, Bruce, McKane, Alan J.. 2016. Simplification and analysis of a model of social interaction in voting. Physical Journal B: Condensed Matter and Complex Systems, 89 (7), View Lafuerza, Luis F., Dyson, Louise, Edmonds, Bruce, McKane, Alan J.. 2016. Staged models for interdisciplinary research. PLoS One, 11 (6), View Chapman, Lloyd A. C., Dyson, Louise, Courtenay, Orin, Chowdhury, Rajib, Bern, Caryn, Medley, Graham, Hollingsworth, T. Déirdre. 2015. Quantification of the natural history of visceral leishmaniasis and consequences for control. Parasites & Vectors, 8 (1), pp. 1-13, View Dyson, Louise, Baker, Ruth E.. 2015. The importance of volume exclusion in modelling cellular migration. Journal of Mathematical Biology, 71 (3), pp. 691-711, View Biancalani, Tommaso, Dyson, Louise, McKane, Alan J.. 2015. The statistics of fixation times for systems with recruitment. Journal of Statistical Mechanics: Theory and Experiment, 2015 (1), View Hollingsworth, T. Déirdre, Adams, Emily R., Anderson, Roy M., Atkins, Katherine, Bartsch, Sarah, Basà¡à±ez, Maràa-Gloria, Behrend, Matthew, Blok, David J., Chapman, Lloyd A. C., Coffeng, Luc, Courtenay, Orin, Crump, Ron E., Vlas, Sake J. de, Dobson, Andy, Dyson, Louise, Farkas, Hajnal, Galvani, Alison P., Gambhir, Manoj, Gurarie, David, Irvine, Michael Alastair, Jervis, Sarah, Keeling, Matthew James, Kelly-Hope, Louise, King, Charles, Lee, Bruce Y., Le Rutte, Epke A., Lietman, Thomas M., Ndeffo-Mbah, Martial, Medley, Graham F., Michael, Edwin, Pandey, Abhishek, Peterson, Jennifer K., Pinsent, Amy, Porco, Travis C., Richardus, Jan Hendrik, Reimer, Lisa J., Rock, Kat S., Singh, Brajendra K., Stolk, Wilma, Swaminathan, Subramanian, Torr, Steve J., Townsend, Jeffrey, Truscott, James E., Walker, Martin, Zoueva, Alexandra. 2015. Quantitative analyses and modelling to support achievement of the 2020 goals for nine neglected tropical diseases. Parasites & Vectors, 8 (1), View