In this MEDICA-tradefair.com interview, he talks about wearable motion analysis for professional and amateur athletes and explains its advantages over testing in the laboratory.
Prof. Odenwald, you are researching wearable sensors for motion analysis. What types of systems are these?
Prof. Stephan Odenwald: Motion analysis draws a distinction between kinematics and kinetics. Kinematics means we measure the motion of an athlete in space and study the speed, velocity, and position of extremities. Kinetics focuses on understanding the cause of motions and the forces behind movements.
In the field of kinetics, we are developing a system with a sensor sole to measure the ground reaction forces generated by the foot-ground contact. Our field testing corresponds to force plate measurements done in a lab.
What is the added benefit of this system?
Odenwald: Motion analysis laboratories have limitations. Runners only get to run a short distance in a lab or run on a treadmill. The same applies to a cyclist. Yet this does not reflect real-life settings. That is why we aim to collect kinetic and kinematic data outside the laboratory setting using wearable, miniaturized measuring technology.
The advantage is that we create new analysis options, since we go beyond the limited number of captured movements in the lab. We would collect many individual or partial movements during athletic activities instead, which would facilitate a very different type of analysis.
The drawback is that the conditions are not as stable and controlled as in the laboratory setting, which means we also have to manage the effects of environmental factors.