Reliable, Software-Intensive Systems (ZUSIS)
Software is becoming increasingly embedded in technical and organizational systems, and often takes on critical security tasks in those systems.
The purpose of the Hochschule Kaiserslautern’s research focus area, “Reliable, Software-Intensive Systems” (German acronym: ZUSIS) is to develop technical an
Interior Design reports
If you are interested, please contact the Interior Design assistant Dipl.-Ing. Frank Forell. Further information and the respective Zoom meeting ID will be sent by Mr. Forell via email shortly before the online events.
INFORMATION FOR STUDENTS Your participation in the lecture will be recognized. We will record your
Interior Design reports
If you are interested, please contact the Interior Design assistant Dipl.-Ing. Frank Forell. Further information and the respective Zoom meeting ID will be sent by Mr. Forell via email shortly before the online events.
INFORMATION FOR STUDENTS Your participation in the lecture will be recognized. We will record your
Research area
Electrical machines, drives and drive systems
(Hydro-)Mechatronic Systems
Innovative variable speed drives for small and medium powers
Variable-speed three-phase drives with asynchronous and permanent magnet excited synchronous machines
Integrated energy- and resource-efficient electrical actuators in mechatronic systems
Design
Research
The research we carry out is interdisciplinary, application-oriented, and ensures the future viability of the university with its unique range of courses offered. It covers a broad spectrum of socially-relevant topics and issues, and generally takes place in cooperation with industry partners.
Research environment and infrastructure
The
Contact
Project MPFL (DAAD)
Further information: www.mpfl.eu
Project ESEMA (Elstatik-Foundation)
Electrostatic effects in magnetic field force microscopy
A measurement signal in magnetic field force microscopy includes signals from magnetic forces as well as signals from other short- and long-range forces. Measuring nanoparticles, the electr
Contact
Research
Intracellular signal transduction in tumour cells Cellular models for screening novel cancer therapeutics Molecular diagnosis of tumours New methods to isolate DNA from difficult samples and the complete fecal genome analysis
Contact
Research
Substance evaluation and development with electrophysiological methods on heterologously expressed ion channels Technical further development of modern methods of cellular electrophysiology (MEA and patch-clamp technique) up until pharmacological screening methods Physiology and pathophysiology of CNS and ENS diseases such
