-
Postdoc researcher to optimize the design and control of electromagnetic actuator Job description Mechatronic systems require continuous advancements to meet the growing demands for precision and energy
-
. The methods developed in this project, utilizing data and forecasting, will enable the deployment of optimization techniques to guide investment decisions in both road and public transport networks (network
-
candidate who works on several aspects of heat exchanger aerodynamics: Low-fidelity aerodynamic models are to be developed to allow for sizing studies, for aerodynamic optimization, and for system trade-offs
-
to revolutionize the industry by directly converting digital baseband data to RF power, potentially eliminating traditional analog linear TX chains. This breakthrough enables perfect waveform shaping and optimal RF
-
electrophysiology and voltage imaging techniques. You will be responsible for developing and optimizing instrumentation for neural stimulation and recording with state-of-the-art hardware, as well as designing and
-
-droplets in the context of chip assembly. Develop novel micro-chip handling processes optimized for high acceleration, velocity, and precision. Conduct advanced experimental research, supported by numerical
-
optomechanical devices that enhance temperature sensing performance. This involves developing innovative self-calibration techniques, optimizing mechanical resonators, and implementing advanced optical readout
-
, multi-variable non-linear control, and advanced optimization methods. This postdoc position, starting from June/July 2025, offers a great opportunity to work in a multidisciplinary team and with
-
. Scientific Challenges: Optimize the use of reinforcements/tapes in structural components. Evaluate the impact of manufacturing processes on previously achieved functionalization. Study (de)consolidation