Dr. Olivier Lambercy
Area of Interest
Robotics, rehabilitation engineering, assistive technology, motor learning and motor control, human movement analysis, digital health.
Prerequisites a student should comply with
Interest in neurorehabilitation and in the development and/or use of technology (e.g, robotics, wearable sensors, motion capture analysis, advanced signal processing of human motion data, etc) to answer basic science, technical and/or clinical research questions.
Recommended master courses (Electives) of Learning Agreement of the Major
Human Movement Science and Sport:
376‐1651‐00 Clinical and Movement Biomechanics
376‐1306‐00 Clinical Neuroscience
376- 0202-00 Neural Control of Movement and Motor Learning
376- 0225-00 Physical Activities and Health
376- 1150-00 Clinical Challenges in Musculoskeletal Disorders
376‐1217‐00 Rehabilitation Engineering I: Motor Systems
376‐1219‐00 Rehabilitation Engineering II: Rehabilitation of Sensory and Vegetative Functions
376- 1719-00 Statistics for Experimental Research
376- 1720-00 Application of MATLAB in the Human Movement Sciences
376- 1660-00 Writing, Reporting and Communication
376- 1722-00 Paraplegie und Sport
Medical Technology:
376‐1217‐00 Rehabilitation Engineering I: Motor Systems
376‐1219‐00 Rehabilitation Engineering II: Rehabilitation of Sensory and Vegetative Functions
376-1504-00 Physical Human-Robot Interaction
401‐0629‐00 Applied Biostatistics
376‐1651‐00 Clinical and Movement Biomechanics
227‐0393‐00 Biosensors and Bioelectronics
363-0790-00 Technology Entrepreneurship
363-1065-00 Design Thinking: Human-Centred Solutions to Real World Challenges
376-1400-00 Transfer of Technologies into Neurorehabilitation
227-0385-10 Biomedical Imaging
363-1130-00L Digital Health
Research projects of the group
- Robot-assisted neurorehabilitation after neurological injuries
- Technology-based assessment of upper limb sensorimotor fucntion
- Long term monitoring using wearable sensors
- Motor control and motor learning in human and animal models
- Neurofeedback and brain computer interfaces for neurorehabilitation
- Design and usability evaluation of assistive technologies