Prof. Dr.-Ing. Michael Wiehl

Professor
Professor Department of Electrical Engineering, Media and Computer Science

Phone +49(9621) 482-3646
Fax +49(9621) 482-4646
m.wiehl@oth-aw.de

Amberg, Digital Campus Amberg, Room 1.13

Office hours

Appointment by arrangement

Subject area(s)

Cyberphysical Systems, Design of Intelligent Medical Systems, Project management

Research area(s)

  • Cyberphysical intelligent medical systems for Healthcare 5.0
  • Smart Home, Ambient Assisted Living and Aging in Place
  • Data acquisition and data fusion for medical applications
  • Integration of artificial intelligence in modern cyberphysical systems

Bachelor's and master's theses are available in my research areas at any time. Feel free to contact me if you are interested in these topics!

Follow my research and activities on ResearchGate / Google Scholar / LinkedIn / ORCID.

Study programme coordinator 

for "Master of Artificial Intelligence for Industrial Applications". 

Office hours for students in the programme: by appointment, preferably Mondays between 1:00 p.m. and 6:00 p.m. in the summer semester 2026.

Mentor for Startups at O/HUB

I mentor and support start-ups in the fields of medical technology, smart health and AI. Together, we describe your initial idea and plan the roadmap to your first market entry. I am happy to assist with implementation using design thinking, lean start-up, SCRUM, rapid prototyping and many other methods for creative and strategic work.

Interested in seeing your idea take flight? Then let's arrange an appointment.

Selected publications

[1] J. Viehbeck, M. Wiehl, P. Jarvers, und R. Brück, „Investigation to Detect the Hydration State with Continuous Monitoring of Vital Signs“, International Journal of Pharma Medicine and Biological Sciences, Bd. 10, S. 148–152, Okt. 2021.

[2] „Vorrichtung und Verfahren zum Ermitteln des Hydrationszustandes eines Körpers eines Menschen oder eines Säugertieres“, European Patent, EP3375366B1

[3] R. Brendtke, M. Wiehl, H. Walles, und J. Hansmann, „Personalized medicine and health monitoring with focus on hydration to improve healthcare systems in context of demographic changes“, British Journal of Health Informatics and Monitoring, Bd. 2, S. 11–30, Sep. 2015.

[4] M. Wiehl, S. Schwarzer, G. Fischer, R. Weigel, und A. Koelpin, „Channel impulse response inside a magnetic resonance imaging device at 0.8 GHz to 27 GHz“, 2012 19th International Conference on Microwaves, Radar and Wireless Communications, MIKON 2012, Bd. 1, Mai 2012.

[5]  M. Wiehl, Optimisation d’une liaison faisceaux hertziens numériques: Optimierung einer Richtfunkstrecke für das digitale Fernsehen. Grin Verlag, 2010.

Back