Fluid robot motion is the result of design choices among five options including pneumatics and strain wave gears.

Humanoid robots look impressive and have enormous potential to change our daily lives, but they still have a reputation for ...

Locomotive magnetic soft robots are categorized based on their structural characteristics into one-dimensional (1D), two-dimensional (2D), three-dimensional (3D), and fluidic types. Recently, Dr.

A Chinese robotics firm has demonstrated what it calls a major step toward the ...

Miniature Underwater Robots (MURs) are revolutionizing how humans explore aquatic environments. However, achieving efficient propulsion in highly resistive underwater conditions remains a formidable ...

Deep Robotics, a Chinese robotics firm, recently unveiled its latest innovation in quadruped robotics, the Lynx. This impressive robot dog combines the agility of legs with the speed of wheels, ...

Brown University researchers have developed an artificial intelligence model that can generate movement in robots and animated figures in much the same way that AI models like ChatGPT generate text. A ...

Like something out of an early Transformers movie, researchers at Caltech have just demonstrated how a humanoid and a drone can team up to accomplish multiple forms of movement. The experiment opens ...

A research team from the Visual Perception and Cognition Laboratory and the Cognitive Neurotechnology Unit at Toyohashi University of Technology investigated how the movements of autonomous mobile ...

The Harvard Ambulatory Microrobot — nicknamed HAMR — is a versatile robot that can run at high speeds, jump, climb, turn sharply, carry payloads and fall from great distances without being injured.