Reflexleg

Sensitive robotics in an energyefficient leg prosthetic
4TU Delft
4TU Eindhoven
4TU Twente
4TU Wageningen

The reflexleg ‘works’ without separate external propulsion. The upper leg, lower leg and foot of the reflexleg are linked with smart springs that tension and relax in such a way that 80% of the ‘walking energy’ is recycled. Ideal for ascending slopes or for walking at different speeds.

Partners

University of Twente

People

Bart Koopman
Involved researchers: Rafaella Carloni, Stefano Stramigioli

Contact

h.f.j.m.koopman [at] utwente . nl

The reflexleg ‘works’ without separate external propulsion. The upper leg, lower leg and foot of the reflexleg are linked with smart springs that tension and relax in such a way that 80% of the ‘walking energy’ is recycled. Ideal for ascending slopes or for walking at different speeds.

Partners

University of Twente

People

Bart Koopman
Involved researchers: Rafaella Carloni, Stefano Stramigioli

Contact

h.f.j.m.koopman [at] utwente . nl

Reflexleg

The reflexleg ‘works’ without separate external propulsion. The upper leg, lower leg and foot of the reflexleg are linked with smart springs that tension and relax in such a way that 80% of the ‘walking energy’ is recycled. Ideal for ascending slopes or for walking at different speeds.

Partners

University of Twente

People

Bart Koopman
Involved researchers: Rafaella Carloni, Stefano Stramigioli

Contact

h.f.j.m.koopman [at] utwente . nl

The reflexleg ‘works’ without separate external propulsion. The upper leg, lower leg and foot of the reflexleg are linked with smart springs that tension and relax in such a way that 80% of the ‘walking energy’ is recycled. Ideal for ascending slopes or for walking at different speeds.

Partners

University of Twente

People

Bart Koopman
Involved researchers: Rafaella Carloni, Stefano Stramigioli

Contact

h.f.j.m.koopman [at] utwente . nl