Qiyao Peng
Onderzoeker
- Naam
- Dr. Q. Peng MSc
- Telefoon
- 071 5272727
- q.peng@math.leidenuniv.nl
- ORCID iD
- 0000-0002-7077-0727
Onderzoeker
- Faculteit der Wiskunde en Natuurwetenschappen
- MI
- Analysis and Dynamical Systems
Contact
- Yang X., Peng Q. & Hille S.C. (2025), Approximation of a compound-exchanging cell by a Dirac point. Jadachowski L. (red.), 11th Vienna International Conference on Mathematical Modelling MATHMOD 2025. 11th Vienna International Conference on Mathematical Modelling MATHMOD 2025 19 februari 2025 - 21 februari 2025. IFAC-PapersOnLine: Elsevier. 73-78.
- Peng Q. & Hille S.C. (2025), Approximating a spatially‐heterogeneously mass‐emitting object by multiple point sources in a diffusion model, Studies in Applied Mathematics 155(5): e70131.
- Peng Q. & Hille S.C. (2023), Quality of approximating a mass-emitting object by a point source in a diffusion model, Computers and Mathematics with Applications 151: 491-507.
- Peng Q., Vermolen F.J. & Weihs D. (2023), Physical confinement and cell proximity increase cell migration rates and invasiveness: a mathematical model of cancer cell invasion through flexible channels, Journal of the Mechanical Behavior of Biomedical Materials 142: 105843.
- Peng Q., Gorter W.S. & Vermolen F.J. (2022), Comparison between a phenomenological approach and a morphoelasticity approach regarding the displacement of extracellular matrix, Biomechanics and Modeling in Mechanobiology 21(3): 919-935.
- Peng Q. & Vermolen F.J. (2022), Point forces in elasticity equation and their alternatives in multi dimensions, Mathematics and Computers in Simulation 199: 182-201.
- Peng Q. & Vermolen F.J. (2022), Upscaling between an agent-based model (smoothed particle approach) and a continuum-based model for skin contractions, Journal of Mathematical Biology 85(3): 25.
- Peng Q. & Vermolen F.J. (2022), Numerical methods to compute stresses and displacements from cellular forces: application to the contraction of tissue, Journal of Computational and Applied Mathematics 404: 113892.
- Peng Q., Vermolen F.J. & Weihs D. (2021), A formalism for modelling traction forces and cell shape evolution during cell migration in various biomedical processes, Biomechanics and Modeling in Mechanobiology 20(4): 1459-1475.
- Peng Q. & Vermolen F.J. (2020), Agent-based modelling and parameter sensitivity analysis with a finite-element method for skin contraction, Biomechanics and Modeling in Mechanobiology 19(6): 2525-2551.