about
Mathematical studies on the sterile insect technique for the Chikungunya disease and Aedes albopictus.Seasonal variation in size estimates of Aedes albopictus population based on standard mark-release-recapture experiments in an urban area on Reunion Island.Vector control for the Chikungunya disease.On a temporal model for the Chikungunya disease: modeling, theory and numerics.Larval interference competition between the native Neotropical mosquito Limatus durhamii and the invasive Aedes aegypti improves the fitness of both species.Human behaviors: A threat to mosquito control?An impulsive modelling framework of fire occurrence in a size-structured model of tree-grass interactions for savanna ecosystems.Intraguild predation and mesopredator release effect on long-lived preyModels for Miridae, a cocoa insect pest. Application in control strategiesModeling oil palm pollinator dynamics using deterministic and agent-based approaches. Applications on fruit set estimates. Some preliminary resultsOn crop vector-borne diseases. Impact of virus lifespan and contact rate on the traveling-wave speed of infective frontsA minimalistic model of tree–grass interactions using impulsive differential equations and non-linear feedback functions of grass biomass onto fire-induced tree mortalitySimulations and parameter estimation of a trap-insect model using a finite element approachTree–grass interaction dynamics and pulsed fires: Mathematical and numerical studiesDynamic contact of a beam against rigid obstacles: Convergence of a velocity-based approximation and numerical resultsDirect and apparent compensation in plant–herbivore interactionsDynamically consistent nonstandard finite difference schemes for epidemiological modelsPredicting the altitudinal distribution of an introduced phytophagous insect against an invasive alien plant from laboratory controlled experiments: case of Cibdela janthina (Hymenoptera:Argidae) and Rubus alceifolius (Rosaceae) in La RéunionImpact of environmental factors on mosquito dispersal in the prospect of sterile insect technique controlStability Analysis and Dynamics Preserving Nonstandard Finite Difference Schemes for a Malaria ModelA minimal continuous model for simulating growth and development of plant root systemsA new mathematical framework for modelling the biomechanics of growing trees with rod theoryAnalysis and simulations of a nonlinear elastic dynamic beamMathematical modeling of sterile insect technology for control of anopheles mosquitoNumerical methods for the biomechanics of growing treesOn nonstandard finite difference schemes in biosciencesBiomechanics of Growing Trees: Mathematical Model, Numerical Resolution and PerspectivesMathematical Modeling of Sterile Insect Technology for Control of Anopheles MosquitoModeling Mosquito Distribution. Impact of the LandscapeSpatio-temporal Modeling of Mosquito DistributionNon-standard finite difference schemes for multi-dimensional second-order systems in non-smooth mechanicsVibrations of a beam between obstacles. Convergence of a fully discretized approximationNon-standard finite-difference methods for vibro-impact problemsQ57082245Q57082246Vibrations of a beam between stops: numerical simulations and comparison of several numerical schemesA Dynamic Model with Friction and Adhesion with Applications to RocksFrictional contact of a nonlinear springQ57082251Modeling the temporal evolution of cocoa black pod rot disease caused by Phytophthora megakarya
P50
Q34061687-8B405BA3-ABD6-4D4D-B131-BF50E11D60A3Q40173675-4D0F9535-1096-4B97-BC22-D007EDD8EF10Q40358902-E6171C62-9E16-4B70-8DC8-7DF7C3CBBA21Q42977587-0376B42F-BC35-4721-B411-B6AAD61981DEQ43038523-C4ACE019-82FF-4E53-A569-1BC02C666FD8Q44159976-5E7CEABB-3F92-41CF-95C9-E0AA38E022CAQ46486440-80BFBB65-698D-4217-BC0A-E043EBE28D4FQ56771740-C6C2E07E-DE43-4C05-BFB5-EF883B4DF1F3Q57082207-E6BC0DC4-D626-478F-A240-B8D58E738EBDQ57082208-24FECD1A-4F52-4853-A308-167761D819E8Q57082209-C5E40776-A725-42E8-930C-77DDE2FD94B4Q57082210-A33B9BF2-4121-43A8-8970-70A505B37B52Q57082212-A86F59FA-A9C5-4B2D-A88B-B5490D5BE981Q57082213-EB799B2E-5C3D-4256-B3D2-B300FFAA6D50Q57082214-2754A2A5-1D33-4AD4-91B2-7E72A10B7385Q57082215-C598128C-0E24-4678-A0A6-354D883B46A5Q57082216-0A6997A7-09B7-46D8-A346-25DD8D9A593FQ57082217-52FE7E7D-9D9F-473C-BB5D-BCC467CC098FQ57082218-05A989D3-AE12-4D9B-87FB-B0AC2FE10F73Q57082220-6D45BC11-B3C7-4753-9B0F-90AABB21C214Q57082222-08D901A0-31D3-4B8B-9748-88B92ECDA539Q57082223-A000741F-82EB-4240-9690-C3351D63DC72Q57082224-3E1EEB58-019E-4240-A98D-8BB5CE97839EQ57082225-46468A69-BF58-4743-B792-D1BBFE4FFFB8Q57082227-757B4478-C0BB-4991-9CE8-54C91B261063Q57082228-A7DDFD2C-4CEF-486C-B12C-406893EA4885Q57082229-22141F67-C80F-49F8-8B5F-5E7C151FD1A3Q57082231-67AD5107-E721-4DEC-8177-56CC6A7F73C7Q57082232-7C00519E-5EC1-4702-BE5E-DA8FDBAF3E4BQ57082234-29B04EAA-0473-4D86-B605-F228E408C156Q57082241-40D21ED6-3E21-4D1C-B987-DA23ED4C9D1BQ57082243-4B9BA2B6-433F-4625-B42A-DC90CEA684E2Q57082244-A03E3BC2-F1E3-40F3-9923-4BAA540F40D9Q57082245-82E1CCDE-7419-47B4-BB09-AA45240D6B56Q57082246-97AB905E-01CA-407D-BCC1-F460520E06D2Q57082248-264BC20C-87DF-41B0-A20E-DE2F7B3292EAQ57082249-105CDBB1-5525-4FDC-A484-ECC872A77A35Q57082250-5173B3BF-8741-4521-9AE7-F09C07D6DD8DQ57082251-2CCC9D6A-1985-4150-870B-4B89166A29A4Q58820802-F79760ED-9A8A-43DD-B5AC-6654315E16B3
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Yves Dumont
@ast
Yves Dumont
@en
Yves Dumont
@es
Yves Dumont
@nl
Yves Dumont
@sl
type
label
Yves Dumont
@ast
Yves Dumont
@en
Yves Dumont
@es
Yves Dumont
@nl
Yves Dumont
@sl
prefLabel
Yves Dumont
@ast
Yves Dumont
@en
Yves Dumont
@es
Yves Dumont
@nl
Yves Dumont
@sl
P1053
O-3801-2017
P106
P108
P21
P31
P3829
P496
0000-0003-4817-685X