Led by Dr. Lin Cao from the university’s School of Electrical and Electronic Engineering, the group has developed a new way ...

Multifunctional fluidic units generate coordinated motion and sensing in soft robots by combining actuation, switching, and ...

Researchers have developed a soft robot capable of crawling like a worm, climbing cables, and rapidly changing shape to shift directions—all powered by a single air input. Soft robots are flexible but ...

A new machine-learning technique can train and control a reconfigurable soft robot that can dynamically change its shape to complete a task. The researchers also built a simulator that can evaluate ...

Engineers from the University of California Riverside have revealed a new creation that is designed to control the movements of soft robots. The engineers revealed an air-powered computer memory ...

Robots aren't always the most delicate of machines when handling fragile objects. They don't have the lightness of touch of ...

In a recent study published in Advanced Intelligent Systems, an international team of researchers led by Cornell University examined the potential for creating soft robots that demonstrate greater ...

Engineers at UC Riverside have unveiled an air-powered computer memory that can be used to control soft robots. The innovation overcomes one of the biggest obstacles to advancing soft robotics: the ...

Anthropic believes AI models will increasingly reach into the physical world. To understand where things are headed, it asked ...

Engineers made a pneumatic RAM chip using microfluidic valves instead of electronic transistors. The valves remain sealed against a pressure differential even when disconnected from an air supply line ...