Barbel Finkenstadt
Barbel Finkenstadt
Professor of Statistics, University of Warwick UK
Verified email at - Homepage
Cited by
Cited by
Noise and determinism in synchronized sheep dynamics
BT Grenfell, K Wilson, BF Finkenstädt, TN Coulson, S Murray, SD Albon, ...
Nature 394 (6694), 674-677, 1998
Dynamics of measles epidemics: estimating scaling of transmission rates using a time series SIR model
ON Bjørnstad, BF Finkenstädt, BT Grenfell
Ecological monographs 72 (2), 169-184, 2002
Time series modelling of childhood diseases: a dynamical systems approach
BF Finkenstädt, BT Grenfell
Journal of the Royal Statistical Society: Series C (Applied Statistics) 49 …, 2000
Statistical inference in a stochastic epidemic SEIR model with control intervention: Ebola as a case study
PE Lekone, BF Finkenstädt
Biometrics 62 (4), 1170-1177, 2006
Arabidopsis defense against Botrytis cinerea: chronology and regulation deciphered by high-resolution temporal transcriptomic analysis
O Windram, P Madhou, S McHattie, C Hill, R Hickman, E Cooke, ...
The Plant Cell 24 (9), 3530-3557, 2012
Dynamics of measles epidemics: scaling noise, determinism, and predictability with the TSIR model
BT Grenfell, ON Bjørnstad, BF Finkenstädt
Ecological monographs 72 (2), 185-202, 2002
Statistics of extremes, with applications in environment, insurance and finance
RL Smith
Extreme values in finance, telecommunications and the environment 1, 78, 2003
Extreme values in finance, telecommunications, and the environment
B Finkenstadt, H Rootzén
CRC Press, 2003
Dynamic analysis of stochastic transcription cycles
CV Harper, B Finkenstädt, DJ Woodcock, S Friedrichsen, S Semprini, ...
PLoS Biol 9 (4), e1000607, 2011
Bayesian inference of biochemical kinetic parameters using the linear noise approximation
M Komorowski, B Finkenstädt, CV Harper, DA Rand
BMC bioinformatics 10 (1), 1-10, 2009
Statistical methods for spatio-temporal systems
B Finkenstadt, L Held, V Isham
CRC Press, 2006
A stochastic model for extinction and recurrence of epidemics: estimation and inference for measles outbreaks
BF Finkenstädt, ON Bjørnstad, BT Grenfell
Biostatistics 3 (4), 493-510, 2002
Population dynamic interference among childhood diseases
P Rohani, DJ Earn, B Finkenstädt, BT Grenfell
Proceedings of the Royal Society of London. Series B: Biological Sciences …, 1998
Reconstruction of transcriptional dynamics from gene reporter data using differential equations
B Finkenstädt, EA Heron, M Komorowski, K Edwards, S Tang, CV Harper, ...
Bioinformatics 24 (24), 2901-2907, 2008
Empirical determinants of measles metapopulation dynamics in England and Wales
B Finkenstädt, B Grenfell
Proceedings of the Royal Society of London. Series B: Biological Sciences …, 1998
Network balance via CRY signalling controls the Arabidopsis circadian clock over ambient temperatures
PD Gould, N Ugarte, M Domijan, M Costa, J Foreman, D MacGregor, ...
Molecular systems biology 9 (1), 650, 2013
Time-series transcriptomics reveals that AGAMOUS-LIKE22 affects primary metabolism and developmental processes in drought-stressed Arabidopsis
U Bechtold, CA Penfold, DJ Jenkins, R Legaie, JD Moore, T Lawson, ...
The Plant Cell 28 (2), 345-366, 2016
Discrete time modelling of disease incidence time series by using Markov chain Monte Carlo methods
A Morton, BF Finkenstädt
Journal of the Royal Statistical Society: Series C (Applied Statistics) 54 …, 2005
Bayesian inference for dynamic transcriptional regulation; the Hes1 system as a case study
EA Heron, B Finkenstädt, DA Rand
Bioinformatics 23 (19), 2596-2603, 2007
A primer on space-time modeling from a Bayesian perspective
D Higdon
Monographs on Statistics and Applied Probability 107, 217, 2006
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