LASCON 2024 Program

 

Date: Time: Activity: Coordinator(s):
Sun Jan 7 14:00–22:00 Arrival day A. Roque
Mon Jan 8 09:00–10:00 Lecture 1. Introduction to LASCON and computational neuroscience W. Lytton
10:00–10:20 Coffee break
10:20–11:20 Lecture 2. The cable equation A. Roth
11:20–11:30 Interval
11:30–12:30 Lecture 3. The Hodgkin-Huxley model H. Rotstein
12:30–14:30 Lunch
14:30–15:30 Tutorial 1. PYTHON tutorial M. Girardi-Schappo
15:30–15:40 Interval
15:40–16:40 Tutorial 2. Software installation tutorial M. Girardi-Schappo
16:40–17:00 Coffee break
17:00–18:00 Tutorial 3. NEURON 1 A. Roth and TBA
18:00–20:00 Exercises Tutors
Tue Jan 9 09:00–10:00 Lecture 4. Modeling ionic currents and their effects H. Rotstein
10:00–10:20 Coffee break
10:20–11:20 Lecture 5. Matching passive neuron models to data A. Roth
11:20–11:30 Interval
11:30–12:30 Lecture 6. Reduced and simplified neuron models and phase plane analysis 1 H. Rotstein
12:30–14:30 Lunch
14:30–15:30 Tutorial 4. NEURON 2 A. Roth and TBA
15:30–15:40 Interval
15:40–16:40 Tutorial 5. NEURON 3 A. Roth and TBA
16:40–17:00 Coffee break
17:00–18:00 Tutorial 6. Reduced and simplified neuron models and phase plane analysis tutorial 1 H. Rotstein and M. Girardi-Schappo
18:00–20:00 Exercises Tutors
Wed Jan 10 09:00–10:00 Lecture 7. Compartmental modeling H. Rotstein
10:00–10:20 Coffee break
10:20–11:20 Lecture 8. Modeling synapses A. Roth
11:20–11:30 Interval
11:30–12:30 Lecture 9. Reduced and simplified neuron models and phase plane analysis 2 H. Rotstein
12:30–14:30 Lunch
14:30–15:30 Tutorial 7. NEURON 4 A. Roth and TBA
15:30–15:40 Interval
15:40–16:40 Tutorial 8. NEURON 5 A. Roth and TBA
16:40–17:00 Coffee break
17:00–18:00 Tutorial 9. Reduced and simplified neuron models and phase plane analysis tutorial 2 H. Rotstein and M. Girardi-Schappo
18:00–20:00 Exercises Tutors
Thu Jan 11 09:00–10:00 Lecture 10. Dendritic computation A. Roth
10:00–10:20 Coffee break
10:20–11:20 Lecture 11. Reduced and simplified neuron models and phase plane analysis 3 H. Rotstein
11:20–11:30 Interval
11:30–12:30 Lecture 12. Networks of biophysical neuron models 1 W. Lytton
12:30–14:30 Lunch
14:30–15:30 Tutorial 10. Reduced and simplified neuron models and phase plane analysis tutorial 3 H. Rotstein and M. Girardi-Schappo
15:30–15:40 Interval
15:40–16:40 Tutorial 11. Networks of biophysical neuron models tutorial 1 V. Bragin
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 1. A. Roth
19:30–22:30 Get together party 1 A. Roque
Fri Jan 12 09:00–10:00 Lecture 13. Reduced and simplified neuron models and phase plane analysis 4 H. Rotstein
10:00–10:20 Coffee break
10:20–11:20 Lecture 14. Networks of biophysical neuron models 2 W. Lytton
11:20–11:30 Interval
11:30–12:30 Lecture 15. Networks of simplified neuron models 1 H. E. Plesser
12:30–14:30 Lunch
14:30–15:30 Tutorial 12. Reduced and simplified neuron models and phase plane analysis tutorial 4 H. Rotstein and M. Girardi-Schappo
15:30–15:40 Interval
15:40–16:40 Tutorial 13. Networks of biophysical neuron models tutorial 2 V. Bragin
16:40–17:00 Coffee break
17:00–18:00 Tutorial 14. NEST 1 H. E. Plesser
18:00–20:00 Discussion session: Career perspectives in computational neuroscience Lecturers, tutors and students
Sat Jan 13 09:00–10:00 Lecture 16. Synaptic plasticity and learning 1 G. Mato
10:00–10:20 Coffee break
10:20–11:20 Invited lecture 2. H. Rotstein
11:20–11:30 Interval
11:30–12:30 Invited lecture 3. TBA
Free afternoon
Sun Jan 14 Day off
Mon Jan 15 09:00–10:00 Lecture 17. Networks of biophysical neuron models 3 W. Lytton
10:00–10:20 Coffee break
10:20–11:20 Lecture 18. Networks of simplified neuron models 2 H. E. Plesser
11:20–11:30 Interval
11:30–12:30 Lecture 19. Synaptic plasticity and learning 2 G. Mato
12:30–14:30 Lunch
14:30–15:30 Tutorial 15. Networks of biophysical neuron models tutorial 3 V. Bragin
15:30–15:40 Interval
15:40–16:40 Tutorial 16. NEST 2 H. E. Plesser
16:40–17:00 Coffee break
17:00–18:00 Tutorial 17. Synaptic plasticity and learning tutorial 1 G. Mato
18:00–20:00 Exercises Tutors
Tue Jan 16 09:00–10:00 Lecture 20. Networks of biophysical neuron models 4 W. Lytton
10:00–10:20 Coffee break
10:20–11:20 Lecture 21. Networks of simplified neuron models 3 H. E. Plesser
11:20–11:30 Interval
11:30–12:30 Lecture 22. Synaptic plasticity and learning 3 G. Mato
12:30–14:30 Lunch
14:30–15:30 Tutorial 18. Networks of biophysical neuron models tutorial 4 V. Bragin
15:30–15:40 Interval
15:40–16:40 Tutorial 19. NEST 3 H. E. Plesser
16:40–17:00 Coffee break
17:00–18:00 Tutorial 20: Synaptic plasticity and learning tutorial 2 G. Mato
18:00–20:00 Exercises Tutors
Wed Jan 17 09:00–10:00 Lecture 23. Probabilistic spiking neuronal networks 1 C. Pouzat
10:00–10:20 Coffee break
10:20–11:20 Lecture 24. Networks of simplified neuron models 4 H. E. Plesser
11:20–11:30 Interval
11:30–12:30 Tutorial 21. Probabilistic spiking neuronal networks tutorial 1 C. Pouzat
12:30–14:30 Lunch
14:30–15:30 Tutorial 22. NEST 4 H. E. Plesser
15:30–15:40 Interval
15:40–16:40 Interviews with students for projects definitions A. Roque, lecturers and tutors
16:40–17:00 Coffee break
17:00–20:00 Interviews with students for projects definitions A. Roque, lecturers and tutors
Thu Jan 18 09:00–10:00 Lecture 25. Synaptic plasticity and learning 4 G. Mato
10:00–10:20 Coffee break
10:20–11:20 Lecture 26. Probabilistic spiking neuronal networks 2 C. Pouzat
11:20–11:30 Interval
11:30–12:30 Invited Lecture 4. W. Lytton
12:30–14:30 Lunch
14:30–15:30 Tutorial 23. Synaptic plasticity and learning tutorial 3 G. Mato
15:30–15:40 Interval
15:40–16:40 Tutorial 24. Probabilistic spiking neuronal networks tutorial 2 C. Pouzat
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 5. H. E. Plesser
19:30–22:30 Get together party 2 A. Roque
Fri Jan 19 09:00–10:00 Lecture 27. Spike train analysis 1 S. Gruen
10:00–10:20 Coffee break
10:20–11:20 Lecture 28. Probabilistic spiking neuronal networks 3 C. Pouzat
11:20–11:30 Interval
11:30–12:30 Invited lecture 6. G. Mato
12:30–14:30 Lunch
14:30–15:30 Tutorial 25. Spike train analysis tutorial 1 J. Ito
15:30–15:40 Interval
15:40–16:40 Tutorial 26. Probabilistic spiking neuronal networks tutorial 3 C. Pouzat
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 7. M. Girardi-Schappo
18:00–20:00 Exercises and project work Tutors
Sat Jan 20 09:00–10:00 Lecture 29. Spike train analysis 2 S. Gruen
10:00–10:20 Coffee break
10:20–11:20 Lecture 30. Probabilistic spiking neuronal networks 4 C. Pouzat
11:20–11:30 Interval
11:30–12:30 Tutorial 27. Spike train analysis tutorial 2
 J. Ito
Free afternoon
Sun Jan 21 Day off
Mon Jan 22 09:00–10:00 Lecture 31. Spike train analysis 3 S. Gruen
10:00–10:20 Coffee break
10:20–11:20 Lecture 32. Computational modeling of local field potentials 1 G. Einevoll
11:20–11:30 Interval
11:30–12:30 Tutorial 28. Spike train analysis tutorial 3 J. Ito
12:30–14:30 Lunch
14:30–15:30 Tutorial 29. Computational modeling of local field potentials tutorial 1 G. Einevoll
15:30–15:40 Interval
15:40–20:00 Special session in honor to Antonio Galves
15:40–16:40 Invited lecture 8. A. Duarte
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 9. C. Pouzat
18:00–18:10 Interval
18:10–19:10 Invited lecture 10. Large-scale network models as digital twins advance theory and neuromorphic computing M. Diesmann
19:10–19:20 Interval
19:20–20:00 Invited lecture 11. TBA
Tue Jan 23 09:00–10:00 Lecture 33. Spike train analysis 4 S. Gruen
10:00–10:20 Coffee break
10:20–11:20 Lecture 34. Computational modeling of local field potentials 2 G. Einevoll
11:20–11:30 Interval
11:30–12:30 Lecture 35. Structural learning by the brain 1 A. Duarte
12:30–14:30 Lunch
14:30–15:30 Lecture 36. Modeling neuron-glia interactions 1 M-L. Linne
15:30–15:40 Interval
15:40–16:40 Tutorial 30. Spike train analysis tutorial 4 J. Ito
16:40–17:00 Coffee break
17:00–18:00 Tutorial 31. Computational modeling of local field potentials tutorial 2 G. Einevoll
18:00–20:00 Exercises and project work Tutors
Wed Jan 24 09:00–10:00 Lecture 37. Computational modeling of local field potentials 3 G. Einevoll
10:00–10:20 Coffee break
10:20–11:20 Lecture 38. Structural learning by the brain 2 A. Duarte
11:20–11:30 Interval
11:30–12:30 Lecture 39. Modeling neuron-glia interactions 2 M-L. Linne
12:30–14:30 Lunch
14:30–15:30 Tutorial 32. Computational modeling of local field potentials tutorial 3 G. Einevoll
15:30–15:40 Interval
15:40–16:40 Tutorial 33. Modeling neuron-glia interactions tutorial 1 M-L. Linne
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 12. S. Gruen
18:00–18:10 Interval
18:10–19:10 Lecture 40. Brain criticality 1 M. Copelli
19:10–20:00 Exercises and project work Tutors
Thu Jan 25 09:00–10:00 Lecture 41. Modeling neuron-glia interactions 2 M-L. Linne
10:00–10:20 Coffee break
10:20–11:20 Lecture 42. Population models of spiking neural networks 1 T. Schwalger
11:20–11:30 Interval
11:30–12:30 Lecture 43. Structural learning by the brain 2 A. Duarte
12:30–14:30 Lunch
14:30–15:30 Tutorial 34. Modeling neuron-glia interactions tutorial 2 M-L. Linne
15:30–15:40 Interval
15:40–16:40 Invited lecture 13. G. Einevoll
16:40–17:00 Coffee break
17:00–18:00 Lecture 44. Brain criticality 2 M. Copelli
19:30–22:30 Get together party 3 A. Roque
Fri Jan 26 09:00–10:00 Lecture 45. Population models of spiking neural networks 2 T. Schwalger
10:00–10:20 Coffee break
10:20–11:20 Lecture 46. Brain criticality 3 M. Copelli
11:20–11:30 Interval
11:30–12:30 Lecture 47. Computational psychiatry 1 J. Murray
12:30–14:30 Lunch
14:30–15:30 Tutorial 35. Population models of spiking neural networks tutorial T. Schwalger
15:30–15:40 Interval
15:40–16:40 Invited lecture 14. M-L. Linne
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 15. J. Ito
18:00–20:00 Exercises and project work Tutors
Sat Jan 27 Day off
Sun Jan 28 Day off
Mon Jan 29 09:00–10:00 Lecture 48. Population models of spiking neural networks 3 T. Schwalger
10:00–10:20 Coffee break
10:20–11:20 Lecture 49. Computational psychiatry 2 J. Murray
11:20–11:30 Interval
11:30–12:30 Lecture 50. Traveling waves in neural systems 1 L. Muller
12:30–14:30 Lunch
14:30–15:30 Student projects progress report session A. Roque, lecturers and tutors
15:30–15:40 Interval
15:40–16:40 Student projects progress report session A. Roque, lecturers and tutors
16:40–17:00 Coffee break
17:00–18:0 Student projects progress report session A. Roque, lecturers and tutors
18:00–18:10 Interval
18:10–19:10 Student projects progress report session A. Roque, lecturers and tutors
19:10–19:20 Interval
19:20–20:00 Student projects progress report session A. Roque, lecturers and tutors
Tue Jan 30 09:00–10:00 Lecture 51.  Computational psychiatry 3 J. Murray
10:00–10:20 Coffee break
10:20–11:20 Lecture 52. Traveling waves in neural systems 2 L. Muller
11:20–11:30 Interval
11:30–12:30 Lecture 53. Dynamics of functional connectivity 1 D. Battaglia
12:30–14:30 Lunch
14:30–15:30 Tutorial 36. Computational psychiatry tutorial J. Murray
15:30–15:40 Interval
15:40–16:40 Tutorial 37. Traveling waves in neural systems tutorial L. Muller
16:40–17:00 Coffee break
17:00–18:00 Invited lecture 16. T. Schwalger
18:00–20:00 Exercises and project work Tutors
Wed Jan 31 09:00–10:00 Lecture 54. Traveling waves in neural systems 3 L. Muller
10:00–10:20 Coffee break
10:20–11:20 Lecture 55. Dynamics of functional connectivity 2 D. Battaglia
11:20–11:30 Interval
11:30–12:30 Invited lecture 17. J. Murray
12:30–14:30 Lunch
14:30–15:30 Tutorial 38. Dynamics of functional connectivity tutorial 1 D. Battaglia
15:30–15:40 Interval
15:40–16:40 Exercises and project work Tutors
16:40–17:00 Coffee break
17:00–20:00 Exercises and project work Tutors
Thu Feb 01 09:00–10:00 Lecture 56. Dynamics of functional connectivity 3 D. Battaglia
10:00–10:20 Coffee break
10:20–11:20 Invited lecture 18. L. Muller
11:20–11:30 Interval
11:30–12:30 Invited lecture 19. D. Battaglia
12:30–14:30 Lunch
14:30–15:30 Exercises and project work Tutors
15:30–15:40 Interval
15:40–16:40 Exercises and project work Tutors
16:40–17:00 Coffee break
17:00–20:00 Exercises and project work Tutors
Fri Feb 02 08:50–09:00 Introduction to the project presentations A. Roque
09:00–09:20 Project presentation 1.
09:20–09:40 Project presentation 2.
09:40–10:00 Project presentation 3.
10:00–10:20 Coffee-break
10:20–10:40 Project presentation 4.
10:40–11:00 Project presentation 5.
11:00–11:20 Project presentation 6.
11:20–11:30 Interval
11:30–11:50 Project presentation 7.
11:50–12:10 Project presentation 8.
12:10–12:30 Project presentation 9.
12:30–14:00 Lunch
14:00–14:20 Project presentation 10.
14:20–14:40 Project presentation 11.
14:40–15:00 Project presentation 12.
15:00–15:10 Interval
15:10–15:30 Project presentation 13.
15:30–15:50 Project presentation 14.
15:50–16:10 Project presentation 15.
16:10–16:30 Project presentation 16.
16:30–16:50 Coffee-break
16:50–17:10 Project presentation 17.
17:10–17:30 Project presentation 18.
17:30–17:50 Project presentation 19.
17:50–18:10 Project presentation 20.
18:10–18:30 Interval
18:30–20:00 Closing remarks A. Roque
21:00– Final party A. Roque
Sat Feb 03 09:00– Return home

 

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