Smoothed-Particle Hydrodynamics, SPH & FitzHugh-Nagumo model, FHN
Try the SPH-9-3 (liquid simulation) and 9-26 (heartbeat simulation) files first if you want to see the completed and most speed-up models.
author-img
2021-6-1
Simplest Single Ball Bouncing Model
Model.html (please open in newest Chorme)
SPH.pdf (Basic summary of SPH method, made by me)
  • First line
  • Second line
2021-6-4
Multiple Balls Bouncing Model
Model.html (please open in newest Chorme)
  • First line
  • Second line
2021-6-5
Multiple Balls Bouncing Model With Gravity Force Added
Model.html (please open in newest Chorme)
  • First line
  • Second line
2021-6-11
Smoothed Particle Hydrodynamics Model
Model.html (please open in newest Chorme)
  • First line
  • Second line
2021-6-15
Smoothed Particle Hydrodynamics Model, using GPU-coding to search neighbors
Model.html (please open in newest Chorme)
  • author-img
  • author-img
2021-6-25
Synchronization-based reconstruction
Summary.pdf
  • author-img
2021-6-28
Surface tension F and a movable block added
model.html
FHN model
FHN(6.28).pdf
matlab file for single cell FHN cal
2021-7-6
GT summer REU & CUHK physics summer camp
  • GT REU
  • CUHK physics
2021-7-9
1D & 2D FHN visualized model
FHN-1D.html
FHN-2D.html
2021-8-12
Cardiac cells simulation 1
2021-8-10.html
2021-9-3
SPH and MESH & FHN (The highly GPU speed-up one!!)
MESH-9-3.html
SPH-9-3.html
2021-9-26
The Final Model!!!!
A heart model simulating blood cycle!!
Model-9-26.html
  • Instructions of how to play with this heart model
  • click running to start whole model
  • draw some random curve in left FHN model to create periodic heart electro signal and click startHeartBeat to record signal
  • Then you can see the heartbeat in the right figure. Click addBloodIn to add blood into heart chamber which will show as green