Imaging Systems in Medicine 3 - Interaktive Studienpläne der TU Ilmenau
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| Modulinformationen zu Imaging Systems in Medicine 3 im Studiengang Master Biomedical Engineering by Research 2025 | |
|---|---|
| Modulnummer | 201276 |
| Prüfungsnummer | 2200897 |
| Fakultät | Fakultät für Informatik und Automatisierung |
| Fachgebietsnummer | 2223 (Multimodale Datenanalyse in der Biomedizintechnik) |
| Modulverantwortliche(r) | Prof. Dr. Silvio Dutz |
| Turnus | Wintersemester |
| Sprache | Englisch |
| Leistungspunkte | 2 |
| Präsenzstudium (h) | 11 |
| Selbststudium (h) | 49 |
| Verpflichtung | Wahlmodul |
| Abschluss | schriftliche Studienleistung, 60 Minuten |
| Details zum Abschluss | |
| Link zum Moodle-Kurs | |
| Lehrende | Prof. Dutz; Gastdozenten |
| Anmeldemodalitäten für alternative PL oder SL | |
| max. Teilnehmerzahl | |
| Vorkenntnisse | physics, measurement technology, signals and systems, image processing in medicine, imaging |
| Lernergebnisse und erworbene Kompetenzen | Professional competence: The students have knowledge and overview of modern procedures in medical imaging. The students have basic engineering knowledge to understand the imaging procedures presented in theory and practice. They know the functional principles of the methods with their specific areas of application, requirements and possibilities as well as their limitations. The students have subject-related skills for the broad, professional use of special imaging procedures in medicine for use in clinics, industry and research institutions Methodological competence: The students have basic engineering knowledge to understand the imaging procedures presented in theory and practice. They know the functional principles of the methods with their specific areas of application, requirements and possibilities as well as their limitations. The students recognize the issues that need to be imaged in medical practice, can assign specific imaging procedures to them and interpret the results obtained. Social skills: Working in a team with colleagues, doctors and scientists, students are able to understand the tasks of imaging procedures in medicine, from planning through implementation to evaluation. The students can solve a problem/question about imaging procedures by working on exercises in a team and know how to appreciate the achievements of their fellow students. The students can develop a strategy/argument to represent the selection of a specific imaging procedure for a specific medical question to others. Note: This subject is one of the necessary entry requirements for recognition of the BMT course of study for postgraduate qualification as a medical physics expert. |
| Inhalt | The course includes 7 lectures: . Functional magnetic resonance imaging . Light microscopy . Diffusion Tensor Imaging in MRI - Part 1 . Diffusion Tensor Imaging in MRI - Part 2 . Magnetic particle imaging . Optical perception in animals - anatomy and sensory physiology as bionic inspiration . Current developments in computer tomography |
| Medienformen und technische Anforderungen bei Lehr- und Abschlussleistungen in elektronischer Form | Media form: PPT presentations, blackboard, notes, demonstration videos Event form: face-to-face |
| Literatur | 1. Klaus D. To?nnies, "Grundlagen der Bildverarbeitung" 2. John L. Semmlow, "Biosignal and Medical Image Processing" 3. Torsten Buzug, "Einfu?hrung in die Computertomographie - Mathematisch-physikalische Grundlagen der Bildrekonstruktion" 4. M. Vlaardingerbroek, "Magnetresonanzbildgebung" |
| Lehrevaluation | |