* Stochastic Processes: Data Analysis and Computer Simulation [#r93b945e]
** Week4: Brownian motion 2: computer simulation [#m7758a70]
***4.1. Random force in the Langevin equation [#ada45879]
- Video [ [[''Go'':http://test.ac.jp]] ]
- iPython notebook [ [[''Go'':https://nbviewer.jupyter.org/url/www-tph.cheme.kyoto-u.ac.jp/p/ryoichi/lec/edx/009x/SP041.ipynb]] ]
- Exercise [ [[''Go''>ry/en/StochasticProcessesEx41]] ]
- Handout and programing resources [ [[''Download'':http://test.ac.jp]] ]
***4.2. Python code to simulate Brownian motion [#wa513ba3]
- Video [ [[''Go'':http://test.ac.jp]] ]
- iPython notebook [ [[''Go'':https://nbviewer.jupyter.org/url/www-tph.cheme.kyoto-u.ac.jp/p/ryoichi/lec/edx/009x/SP042.ipynb]] ]
- Exercise [ [[''Go''>ry/en/StochasticProcessesEx42]] ]
- Handout and programing resources [ [[''Download'':http://test.ac.jp]] ]
***4.3. Making animations [#lbfb80ed]
- Video [ [[''Go'':http://test.ac.jp]] ]
- iPython notebook [ [[''Go'':https://nbviewer.jupyter.org/url/www-tph.cheme.kyoto-u.ac.jp/p/ryoichi/lec/edx/009x/SP043.ipynb]] ]
- Exercise [ [[''Go''>ry/en/StochasticProcessesEx43]] ]
- Handout and programing resources [ [[''Download'':http://test.ac.jp]] ]
Return to [[Home>ry/en/StochasticProcesses]]