People have been dreaming about robotic solutionsÌýfor many decades, but the bodies of robots are without significantÌýchange. As complex mechanical structures using rigid materials such as metal andÌýtraditional rigid electric motors, robots continue to move in ways that lack ease and efficiency. In addition to limiting a robot's capabilities, these materials areÌýexpensive, makeÌýhuman interactions with robots less safe and makeÌýit hard for robots to adapt to unpredictable challenges.
"Substantial progress has been made in the brains of robots, but their bodies are still primitive," said Assistant Professor Christoph Keplinger in the .ÌýHowever, Keplinger and his research collaborators across the world seek to change this.
Drawing inspiration from soft and deformable materials found in nature, such as muscle and skin, he is working to create a new generation of robot bodies with elegance and efficiency. Keplinger's research group operates at the forefront of a field of study known as soft robotics. In his lab, he builds artificialÌýmuscles called actuators that are reaching a level beyond traditional rigid electric motors and biological muscles.Ìý
Keplinger's work will enable soft robotic devices that can improve the quality of human life with more lifelike prosthetics and robotics that could help people as they age.Ìý
Upcoming TEDx Adventure
You are invited to attend a TEDx Adventure with TEDxMileHigh andÌýÌý´Ç²ÔÌýThursday, February 28 from 7 pm toÌý9 pm for free. Location details will be sent to attendees upon registration. Interact with their work firsthand and see how soft artificial muscles called HASELs are developed. Get a sneak peak of several emerging types of HASELs that promise to openÌývast new applications in the field of robotics.ÌýÌý
Ìý
Ìý