VERMOLEN, Fred

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VERMOLEN, Fred
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fred.vermolen@uhasselt.be
 
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Publications

Results 1-20 of 20 (Search time: 0.01 seconds).

Issue DateTitleContributor(s)TypeCat.
12023A Spatial Markov Chain Cellular Automata Model for the Spread of VirusesLu, Jenny; VERMOLEN, Fred; Tavares, JMRS; Bourauel, C; Geris, L; Slote, JVProceedings PaperC1
22023Predicting the Efficacy of Stalk Cells Following Leading Cells Through a Micro-Channel Using Morphoelasticity and a Cell Shape Evolution ModelPENG, Qiyao; VERMOLEN, Fred; Weihs, D.; Tavares, JMRS; Bourauel, L.; Geris, L; Slote, JVProceedings PaperC1
32022On the fundamental solutions-based inversion of Laplace matricesVERMOLEN, Fred; den Bakker, D. R.; Vuik, C.Journal ContributionA1
42022Scar formation from the perspective of complexity science: a new look at the biological system as a wholeKorkmaz, H. Ibrahim; Niessen, Frank B.; Pijpe, Anouk; Sheraton, Vivek M.; VERMOLEN, Fred; Krijnen, Paul Aj; Niessen, Hans Wm; Sloot, Peter Ma; Middelkoop, Esther; Gibbs, Susan; van Zuijlen, Paul PmJournal ContributionA1
52022The future of burn care from a complexity science perspectiveVan Zuijlen, Paul; Korkmaz, H; Sheraton, Vivek; Haanstra, Tsjitske; Pijpe, Anouk; De Vries, Annebeth; Van Der Vlies, Cornelis; Bosma, Eelke; De Jong, Evelien; Middelkoop, Esther; VERMOLEN, Fred; Sloot, PeterJournal ContributionA1
62022Numerical Methods to Compute Stresses and Displacements from Cellular Forces: Application to the Contraction of TissuePENG, Qiyao; VERMOLEN, FredJournal ContributionA1
72022Point forces in elasticity equation and their alternatives in multi dimensionsPENG, Qiyao; VERMOLEN, FredJournal ContributionA1
82022Sensitivity of a two-dimensional biomorphoelastic model for post-burn contractionEGBERTS, Ginger; Desmouliere, Alexis; VERMOLEN, Fred; van Zuijlen, PaulJournal ContributionA1
92022Comparison between a phenomenological approach and a morphoelasticity approach regarding the displacement of extracellular matrixPENG, Qiyao; Gorter, W. S.; VERMOLEN, FredJournal ContributionA1
102022A Bayesian finite-element trained machine learning approach for predicting post-burn contractionEGBERTS, Ginger; Schaaphok, Marianne; VERMOLEN, Fred; van Zuijlen, PaulJournal ContributionA1
112021Chapter 13 - A phenomenological dashpot model for morphoelasticity for the contraction of scarsVERMOLEN, FredBook SectionB2
122021Computational mathematics aspects of flow and mechanics of porous mediaVERMOLEN, Fred; Rodrigo, Carmen; Gaspar, Francisco; Kumar, KundanJournal ContributionA2
132021A one-dimensional morphoelastic model for burn injuries: stability analysis, numerical validation and biological interpretation of (in)stabilityEGBERTS, Ginger; VERMOLEN, Fred; Van Zuijlen, PaulPreprintO
142021A one-dimensional morphoelastic model for burn injuries: sensitivity analysis and a feasibility studyEGBERTS, Ginger; VERMOLEN, Fred; Van Zuijlen, PaulPreprintO
152021Upscaling between an Agent-Based Model (Smoothed Particle Approach) and a Continuum-Based Model for Skin ContractionsPENG, Qiyao; VERMOLEN, FredJournal ContributionA1
162021A formalism for modelling traction forces and cell shape evolution during cell migration in various biomedical processesPENG, Qiyao; VERMOLEN, Fred; Weihs, DJournal ContributionA1
172021Sensitivity and feasibility of a one-dimensional morphoelastic model for post-burn contractionEGBERTS, Ginger; VERMOLEN, Fred; van Zuijlen, PaulJournal ContributionA1
182021Stability of a one-dimensional morphoelastic model for post-burn contractionEGBERTS, Ginger; VERMOLEN, Fred; van Zuijlen, PaulJournal ContributionA1
192020A Cellular Automata Model of Oncolytic Virotherapy in Pancreatic CancerChen, J.; Weihs, D.; VERMOLEN, FredJournal ContributionA1
202020Agent‑based modelling and parameter sensitivity analysis with a finite‑element method for skin contractionPENG, Qiyao; VERMOLEN, FredJournal ContributionA1