COBOD, in partnership with TU Braunschweig, unveils multifunctional construction 3D printing robot leveraging Shotcrete 3D ...

In order to achieve a motion form similar to the human knee structure to better assist the wearer to achieve walking gait motion. In this paper, we propose an anthropomorphic knee-joint exoskeleton ...

This entry was posted in graphene, nanotechnology, robots and tagged autonomous origami machines, Baris Bircan, bimorph, cell-sized robots, Cornell University, David A. Muller, exoskeleton’ for ...

While an exoskeleton robot used for medical rehabilitation at a hospital costs millions of yuan, the target price for a household device is 4,000 yuan to 8,000 yuan, making it as "affordable as a ...

Wolong Electric Drive has recently gained attention in the humanoid robot sector, having developed some related products. During an investor exchange event in May, the company stated that its robotics ...

Organic cocrystals offer excellent opportunities for the fabrication of functional solids. Generally, cocrystals are formed with two coformers, and the resulting structures are dominated by strong ...

Thanks to artificial intelligence, robots can already perform many tasks that would otherwise require humans. In this interview, Edoardo Milana, a junior professor of soft machines in the Department ...

Wandercraft plans to use the new funding to help accelerate into the next phase of growth. It hopes to bring Eve, the world’s first self-balancing exoskeleton, to market as early as 2026.

The active assistive upper limb exoskeleton robot is a force-enhancing exoskeleton system worn and controlled by the human body, providing assistance to the upper limbs. In power plants, tasks such as ...