Projects
Time Dynamics of Emotions: Psychological mechanisms and neural correlates KU Leuven
Emotions are dynamic processes that unfold over time. One way to study their dynamic properties is through the intensity profile tracking approach, which consists in asking people to draw profiles reflecting how their emotion continuously changed during an emotional episode. The resulting intensity profiles can take many shapes that are found to primarily differ in emotion explosiveness (i.e., steepness of the emotion response at onset) and ...
Power Dynamics in Emotional Multiplexity: Navigating Ambivalence Across Team Memberships Hasselt University
Virtual Sensing for Vehicle Dynamics: a Model-based Approach for Indirect Measurement of the Vehicle Motion States and Tyre Forces KU Leuven
This research aims at developing model-based estimators for the vehicle motion states and tyre forces that are robust to uncertain tyre/road conditions and use only measurements available in modern production vehicles. Such estimators would provide invaluable information to enhance vehicle dynamics control systems and would facilitate the development of future control systems such as autonomous driving. This work combines the use of ...
Innovation Mandate: Quantitative analysis of musculoskeletal motion by dynamic computed tomography Vrije Universiteit Brussel
This project aims to develop a software that serves as a service platform for processing dynamic
muculoskeletal (MSK) images and derive quantitative kinetic information from them to support treatment
of joint diseases.
Kinematic Assessment of Real‐time Motion Acquisition of the Human Musculoskeletal System by Dynamic 4D Transversal Imaging (KARMA‐4Dplus) Vrije Universiteit Brussel
kinematic assessment of human skeletal structures and soft tissues in real‐time movement. We want to achieve this by combining dynamic 4D CT scanning with a markerless motion tracking system. In addition, we develop an experimental support system that allows 4D scanning in real-time movement, and a software for processing the acquired image ...
DT4V – Digital Twins for validation of dynamic performance & reliability of motion systems Ghent University
Validation of the electromechanical performance (such as voltage & current profiles, torque and speed profiles, efficiency) and reliability (estimated lifetime) of motion systems is often time-consuming and costly. Assuming a motion product has been validated, additional validation tests need to be put in place in the three following scenarios: a) the same product is going to be used for another mission profile, i.e. within another ...