Neuroprosthetics
Course 00EINEU020 in WS 2023/4
General Data
Course Type | lecture with integrated exercises |
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Semester Weekly Hours | 4 SWS |
Organisational Unit | Associate Professorship of Bio-inspired Information Processing (Prof. Hemmert) |
Lecturers |
Siwei Bai Albert Croner Christian Hauptmann Werner Hemmert Andrej Voss |
Dates |
Fri, 09:45–11:15, 3999 Fri, 11:30–13:00, -1947 Fri, 13:15–14:45, -1947 Fri, 09:45–11:15, virtuell |
Assignment to Modules
- EI60021: Neuroprosthetics (Neuroprothetik: Elektrische Stimulation von Neuronen mit Fokus auf das Cochlea-Implantat) / Neuroprosthetics (Neuroprosthetics: electrical stimulation of neurons with a focus on cochlear implants)
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EI70270: Neuroprosthetics (Neuroprothetik: Elektrische Stimulation von Neuronen mit Fokus auf das Cochlea-Implantat) / Neuroprosthetics (Neuroprosthetics: electrical stimulation of neurons with a focus on cochlear implants)
This module is included in the following catalogs:- Focus Area Bio-Sensors in M.Sc. Biomedical Engineering and Medical Physics
Further Information
Courses are together with exams the building blocks for modules. Please keep in mind that information on the contents, learning outcomes and, especially examination conditions are given on the module level only – see section "Assignment to Modules" above.
additional remarks | The lecture covers the theoretical foundations of neuroprostheses. As the underlying principle of all neuroprostheses is the electrical excitation of neurons, we will cover this topic in depth using cochlea implants as an example.In the practical computer laboratory (2SWS), which complements the lecture (2SWS), we will program a solver for the cable equation of an active axon and implement a computer model of a cochlea implant. The practical part is obligatory, it will be graded and you have to pass with at least 4.0. Topcis:- Overview neuroimplants- numerical solution of linear and nonlinear differential equations- electrical models of cells and neurons- derivation and solution of the cable equation for nerve fibers (axons)- simulation of the electrical excitation of nerve fibers (axons)- simulation of electrical field spread in the body- anatomy and function of the hearing organ- coding of sound in the auditory nerve- implementation of a coding strategy for a cochlear implant- electrochemistry of electrodes, biocompatibility and foreign body reactions |
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Links |
E-Learning course (e. g. Moodle) TUMonline entry |
Equivalent Courses (e. g. in other semesters)
Semester | Title | Lecturers | Dates |
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SS 2024 | Neuroprosthetics |
Castaneda González, C.
Croner, A.
Driendl, L.
Eisenlauer, R.
Hemmert, W.
Assistants: Voss, A. |
Fri, 11:30–13:00, 3999 Fri, 13:15–14:45, -1947 Fri, 15:00–16:30, -1947 |
SS 2023 | Neuroprosthetics |
Castaneda González, C.
Croner, A.
Driendl, L.
Eisenlauer, R.
Hemmert, W.
Assistants: Voss, A. |
Fri, 11:30–13:00, 3999 Fri, 13:15–14:45, -1947 Fri, 15:00–16:30, -1947 |
WS 2022/3 | Neuroprosthetics | Bai, S. Croner, A. Hauptmann, C. Hemmert, W. Voss, A. |
Fri, 09:45–11:15, 3999 Fri, 11:30–13:00, -1947 Fri, 13:15–14:45, -1947 |
SS 2022 | Neuroprosthetics |
Hemmert, W.
Assistants: Driendl, L. |
Fri, 11:30–13:00, 3999 Fri, 09:45–11:15, -1947 Fri, 13:15–14:45, -1947 |
WS 2021/2 | Neuroprosthetics | Hauptmann, C. Hemmert, W. |
Fri, 09:45–10:30, virtuell Fri, 11:00–12:30, virtuell |
SS 2021 | Neuroprosthetics | Hemmert, W. |
Fri, 09:45–11:15 Fri, 11:30–13:00, virtuell Fri, 13:15–14:45, virtuell |
WS 2020/1 | Neuroprosthetics | Hemmert, W. |
Fri, 09:45–11:15 Fri, 11:30–13:30, virtuell |
WS 2019/20 | Neuroprosthetics | Hemmert, W. | |
WS 2018/9 | Neuroprosthetics | Hemmert, W. | |
SS 2018 | Neuroprosthetics | ||
SS 2017 | Neuroprothetics |