Wiki source code of Fall School 2023
Hide last authors
| author | version | line-number | content |
|---|---|---|---|
 |
3.1 | 1 | [[image:Virtual-Course-Fall-2023-Banner.png]] |
| |
1.1 | 2 | |
| |
9.1 | 3 | (% class="wikigeneratedid" id="HDiveintotheworldofpersonalizedbrainnetworkmodelingandsimulationinourupcomingVirtualCourseSeriesforFall2023.Gainexpertiseinconstructingbrainmodels2Cprocessingmultimodalimagingdata2Candrunningsimulations.ExplorethepowerofTheVirtualBrain28TVB292Canopen-sourceneuroinformaticsplatform2Candunlockitspotentialinclinicalresearch.Thiscoursecoverseverythingfromtheoreticalfoundationstoreal-worldapplications2Cmakingitessentialforanyoneinterestedincutting-edgebrainresearch.Program.EveryTuesday2CfromA0September52C2023toNovember282C2023andfrom16:30to18:302C" style="text-align: justify;" %) |
| |
10.1 | 4 | **DIVE INTO THE WORLD OF PERSONALIZED BRAIN NETWORK MODELING AND SIMULATION IN OUR UPCOMING VIRTUAL COURSE SERIES FOR FALL 2023.** |
| |
9.1 | 5 | \\Gain expertise in constructing brain models, processing multimodal imaging data, and running simulations. Explore the power of The Virtual Brain (TVB), an open-source neuroinformatics platform, and unlock its potential in clinical research. This course covers everything from theoretical foundations to real-world applications, making it essential for anyone interested in cutting-edge brain research. |
| |
11.1 | 6 | \\To embark on this enlightening journey into brain network modeling and clinical research, simply register and access the online course using our convenient [[online registration form>>https://docs.google.com/forms/d/e/1FAIpQLSerbRdSq7qshY4x2mcQEqf7f4cYi-T9Dg87F_iQLQbBOWgFSw/viewform]]. |
| 7 | The best part? Registration remains **open throughout the entire duration of the course**, ensuring that you can join at your convenience and pace. | ||
| |
9.1 | 8 | \\\\**Program.** |
| |
7.1 | 9 | Every Tuesday, from September 5, 2023 to November 28,2023 |
| 10 | and from 16:30 to 18:30, | ||
| |
1.1 | 11 | |
| |
9.1 | 12 | ==== ==== |
| 13 | |||
| |
5.1 | 14 | **Week 1 **“**The Virtual Brain - Overview**” – Prof. Petra Ritter |
| 15 | **Week 2 “Introduction to The Virtual Brain” **– Dr. Julie Courtiol | ||
| 16 | **Week 3 “Modeling neurodegeneration” **– Dr. Leon Stefanovski | ||
| 17 | **Week 4 “Integrating biological knowledge in brain network models” **- Leon Martin, M.Sc. | ||
| 18 | \\**Week 5 **“**Combining AI and Brain Modeling**” – Dr. Kiret Dhindsa | ||
| 19 | **Week 6 **“**The Virtual Brain and multiscale co-simulation**” – Dr. Dionysios Perdikis | ||
| 20 | **Week 7 **“**Generating virtual brains using tailored brain image processing workflows**” – Patrik Bey, M.Sc. | ||
| 21 | **Week 8 **“**In silico optimization of deep brain stimulation**” – Dr. Jil Meier | ||
| 22 | \\**Week 9 **“**TVB-Positron Emission Tomography**” – Dr. Halgurd Taher | ||
| 23 | **Week 10 **“**Understanding principles of traveling waves**” – Dominik Koller, M.Sc. | ||
| 24 | **Week 11 “Workflows on GDPR compliant platforms: Virtual Research Environment and Health Data Cloud**” – Dr. Michael Schirner | ||
| 25 | **Week 12 **“**Modeling mechanisms of psychosis**” – Dr. Konstantin Bülau | ||
| |
6.1 | 26 | |
| |
5.1 | 27 | |
| |
4.1 | 28 | **Training Materials.** |
| 29 | Training Materials can be found in Drive. | ||
| |
8.1 | 30 | \\**Video Recordings.** |
| 31 | The replay of the lecture can be found on our [[Youtube Channel>>https://www.youtube.com/watch?v=kal13LqIBjw&list=PLVtblERyzDeKFmdmFxdxuu1phaXylA2cf]]. |