1 | 2023-2024 | NEURO-X | Section Neuro-X | ||||||
---|---|---|---|---|---|---|---|---|---|
2 | Mineur interdisciplinaire | Responsable : Hummel F, Micera S. | |||||||
3 | |||||||||
4 | validé par la Vice-présidence académique le 15 juin 2023 | ||||||||
5 | Les enseignants, les crédits et la période des cours sont indiqués sous réserve de modification. | ||||||||
6 | Les cours déjà suivis au bachelor ou au master ne peuvent pas être pris également dans un mineur. | 217 | crédits offerts | ||||||
7 | |||||||||
8 | CODE | MATIERES | ENSEIGNANTS sous réserve de modification | LIVRET DE COURS | CREDITS ECTS | NBRE PLACES | PERIODE DES COURS | ||
9 | |||||||||
10 | AUT | PRI | |||||||
11 | |||||||||
12 | Groupe "Mineur" | 30 | |||||||
13 | Projet obligatoire du mineur en Neuro-X | ||||||||
14 | NX-493 | Project in minor Neuro-X | Divers enseignants | -- | 7 | A | P | ||
15 | |||||||||
16 | Core courses pour le mineur | ||||||||
17 | NX-450 | Computational neurosciences: biophysics | Romani | NX | 5 | A | |||
18 | NX-465 | Computational neurosciences: neuronal dynamics | Gerstner | NX | 5 | P | |||
19 | CS-433 | Machine learning | Flammarion/Jaggi | IN | 8 | A | |||
20 | NX-422 | Neural interfaces | Lacour S./Shoaran | NX | 6 | A | |||
21 | NX-421 | Neural signals and signal processing | Micera/Van De Ville | NX | 6 | A | |||
22 | BIO-483 | Neuroscience: behavior and cognition | Blanke/Herzog/Sandi | SV | 5 | P | |||
23 | BIO-482 | Neuroscience: cellular and circuit mechanisms | Crochet/Petersen | SV | 5 | A | |||
24 | BIO-480 | Neuroscience: from molecular mechanisms to disease | Graeff/Lashuel/Schneider B. | SV | 5 | A | |||
25 | NX-423 | Translational neuroengineering | Blanke/Courtine/Hummel//Micera | NX | 6 | P | |||
26 | |||||||||
27 | Cours optionels pour le mineur | ||||||||
28 | Area: Technology | ||||||||
30 | EE-320 | Analog IC design | Shoaran | EL | 3 | A | |||
31 | MICRO-450 | Basics of robotics for manipulation | Bouri | MT-Ro | 3 | A | |||
32 | EE-519 | Bioelectronics and biomedical microelectronics | Schmid | EL | 3 | A | |||
33 | CS-432 | Computational motor control | Ijspeert | GM | 4 | P | |||
34 | BIOENG-456 | Controlling behavior in animals and robots | Ramdya | SV | 4 | P | |||
35 | CS-472 | Design technologies for integrated systems | De Micheli | IN | 6 | A | |||
36 | EE-515 | Fundamentals of biosensors and electronic biochips | (pas donné en 2023-24) | Guiducci | EL | 3 | 70 | A | |
37 | MICRO-553 | Haptic human robot interfaces | Bouri/Shokur | MT | 4 | 32 | P | ||
39 | EE-511 | Sensors in medical instrumentation | Chételat/Ionescu | EL | 3 | P | |||
40 | CS-444 | Virtual reality | Boulic | IN | 6 | P | |||
41 | EE-517 | Bio-nano-chip design | Carrara | EL | 3 | A | |||
42 | MICRO-505 | Organic and printed electronics | Briand/Subramanian | MT | 2 | P | |||
43 | MICRO-530 | Nanotechnology | Boero/Brugger | MT | 3 | P | |||
44 | |||||||||
45 | Area: Data Science and Machine Learning | ||||||||
46 | MATH-493 | Applied biostatistics | Goldstein | MA | 5 | P | |||
47 | CS-401 | Applied data analysis | West | IN | 8 | A | |||
48 | MICRO-455 | Applied machine learning | Billard | MT | 4 | A | |||
49 | MGT-484 | Applied probability & stochastic processes | Sutter | MGT | 4 | A | |||
50 | CS-456 | Artificial neural networks/reinforcement learning | Gerstner | IN | 6 | P | |||
51 | NX-414 | Brain-like computation and intelligence | Mathis A. | NX | 4 | P | |||
52 | EE-559 | Deep learning | Cavallaro | EL | 4 | 150 | P | ||
53 | COM-502 | Dynamical system theory for engineers | (pas donné en 2023-24) | Thiran P. | SC | 6 | P | ||
54 | CS-431 | Introduction to natural language processing | Bosselut/Chappelier/Rajman/ | IN | 6 | A | |||
55 | CS-421 | Machine learning for behavioral data | (pas donné en 2023-24) | Käser | IN | 6 | P | ||
56 | EE-556 | Mathematics of data: from theory to computation | Cevher | EL | 6 | A | |||
57 | CS-439 | Optimization for machine learning | Flammarion/Jaggi | IN | 8 | P | |||
58 | BIO-449 | Understanding statistics and experimental design | Herzog | SV | 4 | A | |||
59 | CS-503 | Visual intelligence : machines and minds | Zamir | IN | 6 | P | |||
60 | CS-502 | Deep Learning in biomedicine | Brbić | IN | 6 | A | |||
61 | MATH-352 | Causal thinking | Mats | CGC | 5 | A | |||
62 | |||||||||
63 | Area: Imaging and Image Analysis | ||||||||
64 | CS-440 | Advanced computer graphics | Jakob | IN | 6 | P | |||
65 | BIOENG-445 | Biomedical optics | Wagnières | SV | 3 | A | |||
66 | MICRO-561 | Biomicroscopy I | Altug | MT | 3 | A | |||
67 | MICRO-562 | Biomicroscopy II | Altug/Seitz | MT | 4 | P | |||
68 | CS-442 | Computer vision | Fua | IN | 6 | P | |||
69 | PHYS-438 | Fundamentals of biomedical imaging | Gruetter | PH-ING | 4 | P | |||
70 | BIO-443 | Fundamentals of biophotonics | Radenovic | SV | 3 | P | |||
71 | EE-451 | Image analysis and pattern recognition | Bozorgtabar/Thiran J.-Ph. | EL | 4 | P | |||
72 | MICRO-511 | Image processing I | Unser/Van de Ville | MT | 3 | A | |||
73 | MICRO-512 | Image processing II | Liebling/Sage/Unser/Van de Ville | MT | 3 | P | |||
74 | |||||||||
75 | Area: Neuro-exploration | ||||||||
77 | NX-435 | Systems neuroscience | Mathis M. | NX | 4 | P | |||
78 | NX-436 | Advanced methods for human neuromodulation | Hummel | NX | 4 | A | |||
79 | BIOENG-451 | Scientific literature analysis in neuroscience | La Manno | SV | 4 | 20 | A | ||
80 | BIO-493 | Scientific project design in integrative neurosciences | Petersen | SV | 4 | 20 | A | ||
82 | BIO-499 | Neural circuits of motivated behaviors | Kochubey/Schneggenburger | SV | 4 | E | |||
83 |