Microwave Sensing in Medicine - Interaktive Studienpläne der TU Ilmenau
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Modulinformationen zu Microwave Sensing in Medicine
im Studiengang Master Biomedical Engineering by Research 2025
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| Modulnummer | 201270 |
| Prüfungsnummer | 220505 |
| Fakultät | Fakultät für Informatik und Automatisierung |
| Fachgebietsnummer |
2222 (Biosignalverarbeitung)
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| Modulverantwortliche(r) | Dr. Marko Helbig |
| Turnus | Wintersemester |
| Sprache | Englisch |
| Leistungspunkte | 5 |
| Präsenzstudium (h) | 45 |
| Selbststudium (h) | 105 |
| Verpflichtung | Pflichtmodul |
| Abschluss | Prüfungsleistung mit mehreren Teilleistungen |
| Details zum Abschluss | Das Modul Microwave Sensing in Medicine mit der Prüfungsnummer 220505 schließt mit folgenden Leistungen ab:
- schriftliche Prüfungsleistung über 90 Minuten mit einer Wichtung von 100% (Prüfungsnummer: 2200895)
- Studienleistung mit einer Wichtung von 0% (Prüfungsnummer: 2200896)
Details zum Abschluss Teilleistung 2: Certificate for passed practical exercise
A documented instruction is required each semester in order to carry out laboratory experiments. |
| Link zum Moodle-Kurs |
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| Lehrende | Dr. Marko Helbig |
| Anmeldemodalitäten für alternative PL oder SL | |
| max. Teilnehmerzahl | |
| Vorkenntnisse | Fundamentals
in Electrical Engineering, Electromagnetic Field and Measurement Technology |
| Lernergebnisse und erworbene Kompetenzen | Technical competence: The students know the physical principles which determine the propagation and the interactions of microwaves in media (especially tissue) and at dielectric interfaces. They have basic knowledge about measurement methods in the microwave frequency range (e.g. network analysis, dielectric spectroscopy) as well as about the necessary technical components and measurement systems. They are familiar with the principles and technical implementation of ultra-wideband sensor technology, in particular UWB radar technology.
Methodological competence: Students are able to name medical fields of application for UWB sensor technology and analyze their potential. They know the technical requirements and signal processing methods to apply such systems in medicine. They are able to deal with recorded data and know which relevant information is to be extracted and how. This applies in particular for medical UWB imaging and non-contact vital sign data acquisition using microwaves.
Social competence: With the knowledge acquired in the lecture, the students are able to present and explain methods and procedures of microwave sensing to medical professionals and to point out and demonstrate areas of application in clinical practice. They will be able to actively participate in professional discourses and share their experiences.
The following skills are acquired specifically during the practical exercise: Students are able to perform related measurement tasks (e.g. S-parameter measurement, dielectric spectroscopy, various UWB radar applications) in a group and solve related problems together. They can discuss different approaches in order to jointly find and implement the best solution for a given problem. They can accept criticism and take comments and advice to heart.
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| Inhalt | - Physical basics of microwaves and microwave propagation in media
- Microwave measurement techniques, dielectric spectroscopy
- Antennas and components for microwave sensing
- Ultra-wideband (UWB) technology, UWB radar and signal processing
- Microwave and UWB imaging
- Applications of microwaves in diagnostics and therapy
- Seminar: Exercises and demonstrations on lecture content
- Practical exercise with the thematic
content: dielectric spectroscopy, imaging / beamforming, non-contact
vital data acquisition |
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| Medienformen und technische Anforderungen bei Lehr- und Abschlussleistungen in elektronischer Form | Slides and blackboard (lecture)
Slides, blackboard and UWB lab equipment (seminar and practical exercise) |
| Literatur | A
list of relevant literature will be provided for each lecture. |
| Lehrevaluation | |
