Artificial muscle for soft robotics: Low voltage, high hopes

07/22/16, 05:04 AM | Industrial Robotics, Mobile Robots | actuators, Clamping and Gripping, soft robotics

Phys.org: Soft robots do a lot of things well but they're not exactly known for their speed. The artificial muscles that move soft robots, called actuators, tend to rely on hydraulics or pneumatics, which are slow to respond and difficult to store.

Dielectric elastomers, soft materials that have good insulating properties, could offer an alternative to pneumatic actuators but they currently require complex and inefficient circuitry to deliver high voltage as well as rigid components to maintain their form—both of which defeat the purpose of a soft robot.

Now, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed a dielectric elastomer with a broad range of motion that requires relatively low voltage and no rigid components. They published their work recently in Advanced Materials. Cont'd...

More Mobile Robots Stories | Articles | News

Featured Product

Darsi Pro - AI Compute Box based on NVIDIA® Jetson Orin™ NX

Darsi Pro is e-con Systems' rugged Edge AI compute Box powered by NVIDIA® Jetson Orin™ NX, designed for Mobility, Robotics, ITS, and physical AI applications. It delivers high-performance AI compute, supports e-con's broad camera ecosystem, and enables synchronized multi-sensor fusion for real-time perception. The Darsi Pro GMSL variant supports up to eight synchronized GMSL cameras and is compatible with NVIDIA® JetPack 6 and higher. Built with fanless design and industrial-grade enclosure, Darsi Pro is engineered for long-duty operation in harsh environments. It integrates with CloVis Central™- e-con's cloud-based device management platform for remote health monitoring, and secure OTA updates—simplifying large-scale deployment.