One day, robots might navigate through your blood vessels to break up clots, deliver targeted chemotherapy or repair ruptured blood vessels more efficiently and effectively than existing tools, ...

In a groundbreaking leap for robotics, scientists have developed artificial muscles that can empower humanoid robots to lift weights previously ...

Once again, scientists have created something to give humanoid robots skills that no human possesses without asking themselves if it is truly a good idea.

They would act not as instruments of war, but as intermediaries for peace — enforcing accountability through presence, not ...

South Korean researchers develop fabric muscles for lightweight wearable robots that move naturally with the human body.

From cells that migrate to tissues that heal, nature abounds with systems capable of sensing and adapting to their ...

A programmable metamaterial finger can lock into four positions without electronics. A simpler, more functional future for ...

Researchers have developed a chemical structure for an artificial muscle that can lift up to 4,000 times its weight, and they ...

Creates a fern that grows on a cliff based on the textures available 00:00 Introduction 00:17 Create a Branch 02:47 Create a Fern 04:38 Create Cliff 07:04 Complete Thanks for watching Subscribe!

1 Department of Medical and Health Technologies, The Entrepreneurial School® (MCI), Innsbruck, Austria 2 School of Mechanical Engineering, Chung-Ang University, Seoul, Republic of Korea Falls are a ...

Abstract: Whole arm manipulation with soft robot arms is a challenging problem because, in contrast to traditional robot arms with grippers mounted at the tip, there can be no fixed division of the ...

Abstract: Tactile information is a critical tool for dexterous manipulation. As humans, we rely heavily on tactile information to understand objects in our environments and how to interact with them.