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Single-Cell
Morpheus at Recent & Upcoming Events
Workshop on Computational Models in Biology and Medicine 2024
The joint workshop of the
GMDS
/
IBS-DR
working groups
‘Mathematical Models in Medicine and Biology’
and
‘Statistical Methods in …
Thu, 06 Jun 2024 12:00 +0200 — Fri, 07 Jun 2024 14:00 +0200
Center for Regenerative Therapies Dresden (CRTD)
Models
Contributed Examples
CPM
CPM Parameter Plane
Morpheus Model ID:
M2001
Two-parameter plane showing all possible regimes of behavior for a single CPM cell Introduction The idea is based on figure 3 in the referenced paper. Description But here, we use two dimensionless parameters:
L. Edelstein-Keshet
,
J. Starruß
(Authors)
D. Jahn
,
Y. Xiao
(Contributors)
L. Edelstein-Keshet: Mathematical Models in Cell Biology
Models
Contributed Examples
CPM
One Random Walker
Morpheus Model ID:
M2003
Unbiased and biased random walkers Introduction We can simulate the swimming motion of a cell, such as a bacterium, by interspersing short periods of directed motion with random turns or random scrambling of the cell’s velocity.
L. Edelstein-Keshet
(Author)
Y. Xiao
(Contributor)
L. Edelstein-Keshet: Mathematical Models in Cell Biology
Models
Contributed Examples
CPM
One CPM Cell
Morpheus Model ID:
M2002
Time sequence showing the changing shape of a CPM cell Introduction Not all cell shapes are circular. In this example, a single cell undergoes a whole series of deformations resulting in the development of irregular cell shapes.
L. Edelstein-Keshet
(Author)
Y. Xiao
(Contributor)
L. Edelstein-Keshet: Mathematical Models in Cell Biology
Models
Contributed Examples
CPM
Agent-based Model
Morpheus Model ID:
M2016
An agent-based model where each cell’s position and velocity is tracked Introduction We expand our exploration of local and non-local models to the class of agent-based models. Description Instead of tracking continuous distributions of cell density, neural activity, or other properties that vary continuously across space, we adopt a different kind of modeling approach by tracking the trajectories and behavior of individual cells.
L. Edelstein-Keshet
(Author)
Y. Xiao
(Contributor)
L. Edelstein-Keshet: Mathematical Models in Cell Biology
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