SHINE58 分钟
Chinese team develops robot for world's deepest sea trench
A Chinese team has developed a small robot that can operate in the world's deepest sea trench under extremely high pressure.
A tiny deep sea robot took a dive into Earth's deepest trench
Separately, the researchers also developed a soft gripper, which can be attached to a rigid robot. It was tested in the South ...
China Daily3 天
Tech startup eyes cheaper robots, new applications
Last week, AgiBot launched an AI large language model, the GO-1, to accelerate the training of robots. The model enables ...
Interesting Engineering on MSN2 天
Shape-shifting robot that swims now explores Mariana Trench, reaches depth of 34,776-ft
Researchers have created a tiny, shape-shifting robot that swims, crawls, and glides freely in the deep sea. Developed by a ...
Tech Xplore on MSN2 天
A marine robot that can swim, crawl and glide untethered in the deepest parts of the ocean
A team of mechanical engineers at Beihang University, working with a deep-sea diving specialist from the Chinese Academy of ...
The Brighterside of News on MSN3 天
First-ever multi-directional artificial muscles could revolutionize robotics
The human body moves through a coordinated effort of skeletal muscles, working in concert to generate force. While some ...
Tech Xplore on MSN4 天
Soft, air-filled 'muscles' power a new robotic exosuit
The phrase "robotic exosuit" likely calls to mind something metallic, rigid, and hinged—Iron Man's suit or the dozens of ...
MIT engineers create artificial muscle that mimics real tissue
Now, MIT engineers have taken a major step toward developing robots that replace rigid gears with something much softer – ...
JSTOR Daily2 个月
A hierarchical approach for rigid-body dynamics model simplification of a high-speed ...
The Artstor website will be retired on Aug 1st. Science Progress (1933-) Vol. 104, No. 4, 2021 A hierarchical approach for rigid-body d... Considering the real-time control of a high-speed parallel ...