Design and simulate soft robots inspired by MIT CSAIL research. Explore pneumatic actuators, silicone elastomers, and bio-inspired locomotion. Create robots that can safely interact with humans and delicate environments.
Roboter, der hauptsächlich aus flexiblen, verformbaren Materialien besteht
Actuator
Komponente, die Bewegung erzeugt
Pneumatic
Angetrieben durch Druckluft
Elastomer
Gummiartiges Material, das sich dehnen und zurückziehen kann
PneuNet
Pneumatisches Netzwerk – Kanäle aus weichem Material
ShoreHardness
Maß für die Weichheit des Materials
Biomimicry
Muster aus der Natur kopieren
Proprioception
Wahrnehmung der eigenen Körperposition
💬 Nachricht an Lernende
{'encouragement': 'Soft robotics is one of the most exciting frontiers in engineering. These robots can go where rigid robots cannot and interact safely with humans.', 'action': 'Design your own soft gripper. Experiment with different actuator pressures. Watch how changing the material affects behavior.', 'dream': 'A student in Kenya might design a soft robot for agriculture. An engineer in Brazil might create wearable assistive devices. The future of robotics is soft!', 'wiaVision': 'WIA believes everyone should experience cutting-edge robotics research. Soft robots represent a paradigm shift in how we think about machines.'}