A spatially explicit (1D) individual-based model for large river fish
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Updated
Oct 14, 2023 - IDL
A spatially explicit (1D) individual-based model for large river fish
Pan-Arctic Behavioral and Life-history Simulator for Calanus: a 3D super-individual-based model.
Mini project (5ECTS) as part of the MSc Biology (University of Groningen), aiming to increase the efficeincy and speed of DAISIE model simulations.
Individual-based model for assessing the effects by-catch, ship noise etc. on harbour porpoises in the inner Danish waters
A spatially explicit individual-based food web model for a large ecosystem
This repository contains my Master's internship project which aims at developing an individual-based model of foraging in pollinators.
Complete source code and intermediary files to accompany the manuscript published in PLOS Global Public Health.
Complete source code and intermediary files to accompany the manuscript published in Nature Medicine.
An individual based model for larval cod
Scripts and Data underlying the 2017 Ecological Modelling paper on UVAFME-VOC.
Individual-based model of a theoretical reintroduction of wild boars in France
Fitting a stochastic individual based model for arboviral disease.
Easy-to-use C++ library for the live tracking of lineage and coalescence trees in individual-based forward-in-time simulations.
Individual based-model to determine which management option (buffers or corridors between ponds) is better for promoting the population of newts.
System to simulate individual interactions and capture ecological and evolutionary dynamics
Python package for implementing individual-based forest models
Rcpp package providing an individual-based model to simulate the evolution of movement strategies under risk of pathogen spread.
Source code of the model used in Cornejo-Donoso, J., Einarsson, B., Birnir, B., Gaines, S.D. (2017) Effects of fish movement assumptions on the design of a marine protected area to protect an overfished stock. PlosONE 12(10): e.0186309 https://doi.org/10.1371/journal.pone.0186309
Supplementary material for "Identifying density-dependent interactions in collective cell behaviour"
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