about
sameAs
P3373
P40
Diversification of Neoaves: integration of molecular sequence data and fossilsFive challenges for stochastic epidemic models involving global transmissionDynamics of fat cell turnover in humansEpidemic modelling: aspects where stochasticity matters.One versus two doses: What is the best use of vaccine in an influenza pandemic?Inferring global network properties from egocentric data with applications to epidemics.Estimating vaccine effects on transmission of infection from household outbreak data.Molecular Infectious Disease Epidemiology: Survival Analysis and Algorithms Linking Phylogenies to Transmission TreesInference of Transmission Network Structure from HIV Phylogenetic Trees.Seven challenges for metapopulation models of epidemics, including households models.Stochastic epidemics in growing populations.[The Ebola epidemic--few infected but many indirectly affected].A Network Epidemic Model with Preventive Rewiring: Comparative Analysis of the Initial Phase.Separation of nearly identical repeats in shotgun assemblies using defined nucleotide positions, DNPs.A stochastic vector-borne epidemic model: Quasi-stationarity and extinction.A network with tunable clustering, degree correlation and degree distribution, and an epidemic thereon.SEIRS epidemics with disease fatalities in growing populations.Household epidemics: modelling effects of early stage vaccination.Estimating vaccine effects from studies of outbreaks in household pairs.Household epidemic models with varying infection response.Evaluation of Bayesian models of substitution rate evolution--parental guidance versus mutual independence.Phylogenetic dating with confidence intervals using mean path lengths.Reliability of Bayesian posterior probabilities and bootstrap frequencies in phylogenetics.Estimating divergence times in large phylogenetic trees.Erratum to: A Network Epidemic Model with Preventive Rewiring: Comparative Analysis of the Initial Phase.Inhomogeneous epidemics on weighted networks.Inferring speciation and extinction rates under different sampling schemes.Stochastic epidemic models: a survey.The time to extinction for a stochastic SIS-household-epidemic model.An epidemic model with infector and exposure dependent severity.Networks, epidemics and vaccination through contact tracing.Improving divergence time estimation in phylogenetics: more taxa vs. longer sequences.Bayesian support is larger than bootstrap support in phylogenetic inference: a mathematical argument.Modelling sexually transmitted infections: the effect of partnership activity and number of partners on R0.Endemic persistence or disease extinction: The effect of separation into sub-communities.Fundamental differences between the methods of maximum likelihood and maximum posterior probability in phylogenetics.Stochastic multitype epidemics in a community of households: estimation and form of optimal vaccination schemes.Who is the infector? Epidemic models with symptomatic and asymptomatic cases.Dynamics of Fat Cell Turnover in HumansInference of transmission network structure from HIV phylogenetic trees
P50
Q24675773-0540C9BF-DDC3-4D83-8883-9FBC09E11301Q26779518-62152B88-58FC-46BC-966C-3BF96EB0E264Q29615688-339B789E-2EB1-4BE4-AC50-ABD100E4B68DQ30381741-BE63E00A-DC6A-4D21-9EAA-4C1FAD65DBDAQ30382026-F39AD64D-0559-412C-B9EB-C19231BB4E34Q30679034-C1097DC6-AA27-4AFD-9336-2962CF8FACD6Q30883592-3E4A6A38-E220-4035-B796-53F034E57DFAQ35987075-AA8292E5-7539-4B31-8216-754F70286911Q36248721-C988A0DB-CDFF-4B94-98B4-D5CDC8F3F2B0Q39021565-C393D4A2-925B-4236-92B8-D166FF6D1E3BQ39351620-9A8B2985-8DA1-4D4A-914D-31C5A3488A5EQ40120974-6D8FE20C-258E-4895-98A2-56D34838A3F0Q40472311-4F14D9C0-0059-4FF0-A31E-FACB69292D3CQ40648386-52D464EC-FE7B-4555-912C-493F0841581FQ42027415-F938EDE1-2D33-49BB-9656-9BC4FA352595Q42286068-9840CE78-5813-40B0-9CA8-72F3DFD244E0Q43923811-BDD8D184-BFB9-4C63-9841-B2DD34E74F7CQ43943038-B9049B7D-0E66-47C1-A664-BBCB3B84CA4AQ44109792-1448EC18-DE87-4FBC-BD10-CB78B1C6765AQ45948505-5A968802-621E-4D73-B3D9-ED9A23A82B9FQ46221832-037AACC2-D86C-4A96-A4FF-CD15925B3942Q47316932-E66CF3ED-A8A9-40A6-9013-9A3B940792D7Q47582092-107B8D28-08FC-4231-8943-65D897B24897Q47752149-77B19873-909D-43BD-95DB-0C46C0BE9106Q47786738-49674F3B-CE3D-4B1A-839C-84F632B8432FQ51348676-068568BC-C743-4A51-B7C7-2A7BD643FB5EQ51579992-287679C8-69A0-45ED-BEFB-064C189FA181Q51726433-00210532-EB8F-4B44-B2DC-0DFD190F4A4CQ51763486-201ECBD1-790F-48E5-BF25-31FC14C6ACC3Q51816521-CCFFBE67-A0E9-4E32-AD87-75E71F7B3924Q51872805-A08F3D88-DA1F-4CCF-A760-6F4B957AA56FQ51897405-0454F843-DBFD-4524-BE09-A16799258D6AQ51901868-FD2E1820-1D2F-4A06-9D26-A18E88D2A15DQ51907585-5F426391-CE99-426A-B9F1-5859CDB384B1Q51911847-D3F52CD4-ADD6-4AA9-A733-4BA05E6362F9Q51948631-187A65B2-0249-42F8-81DB-4883A63C4F43Q51991751-D048A1D3-08BB-4381-A4C0-FD07E800D11AQ54235982-F80AEC72-350A-4766-929A-8D6BDBC9E734Q57046972-57EA120B-A57D-4552-BD2F-BBE79D139568Q57723914-5FEF45E3-16B9-4E1F-A53D-A5739DE067DA
P50
description
Swedish mathematician
@en
matematico svedese
@it
matematikari suediarra
@eu
matemàtic suec
@ca
matemático sueco
@es
matemático sueco
@gl
matemático sueco
@pt
matemáticu suecu
@ast
mathématicien suédois
@fr
svensk professor i matematisk statistik
@sv
name
Tom Britton
@ast
Tom Britton
@ca
Tom Britton
@en
Tom Britton
@es
Tom Britton
@eu
Tom Britton
@fi
Tom Britton
@fr
Tom Britton
@gl
Tom Britton
@it
Tom Britton
@nb
type
label
Tom Britton
@ast
Tom Britton
@ca
Tom Britton
@en
Tom Britton
@es
Tom Britton
@eu
Tom Britton
@fi
Tom Britton
@fr
Tom Britton
@gl
Tom Britton
@it
Tom Britton
@nb
prefLabel
Tom Britton
@ast
Tom Britton
@ca
Tom Britton
@en
Tom Britton
@es
Tom Britton
@eu
Tom Britton
@fi
Tom Britton
@fr
Tom Britton
@gl
Tom Britton
@it
Tom Britton
@nb
P1006
P214
P906
P1006
P106
P21
P214
P22
P27
P31
P3373
P496
0000-0002-9228-7357
P569
1965-02-28T00:00:00Z
P7859
lccn-n98095581