The realm of basic and clinical research on biomechanical properties of joints, ligaments, tendons, and related structures is ...

Abstract: Skeleton-based human action recognition (HAR) has become a prevalent topic in the field of computer vision due to its ability to widely use in different applications such as video ...

Fiber-type artificial muscles offer a breakthrough in robotic actuation, combining biomimetic design with multifunctional ...

Biohybrid robots that run on real muscle are shifting from science fiction toward workable machines. In labs around the world ...

Scientists have been working for years to create robots powered by living muscle tissue. These biohybrid robots combine ...

Rather than pushing a futuristic, machine-forward aesthetic, XPENG leans into recognisable visual cues such as body shape, ...

Discover the groundbreaking Soft Robotic Exosuit developed by Harvard—an innovation that is changing the future of wearable robotics and human augmentation. Unlike traditional rigid robotic ...

Soft robots are redefining the future of robotics with their ability to move gracefully through delicate or confined spaces. From cultivating baby corals in labs to inspecting industrial pipelines, ...

Soft robots are prized for their agility and gentle touch, which makes them ideal for traversing delicate or enclosed spaces to perform various tasks, from cultivating baby corals in laboratories to ...