This multi-objective setup encourages natural walking behavior rather than rigid or inefficient movement. A four-stage ...

A robot can walk better, stay balanced, and learn for longer without falling. Its smart design makes humanoid robots stronger ...

Recent advancements in robotics have increasingly drawn on biological principles to develop machines capable of dynamic, agile motion. One area of significant progress is the design of jumping robots ...

The robotics company Sharpa focuses its work on AI robots on grippers and sensors for human-like hands rather than locomotion mechanics.

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

Roboticist Dennis Hong, 54, is a professor at the UCLA School of Engineering and director of RoMeLa (Robotics & Mechanisms ...

China's humanoid robot Adam caused a sensation when it performed the graceful Charleston dance, demonstrating its ability to maintain balance and coordinate complex movements at high speed.

Locomotion, the ability to move from one place to another, is an essential survival strategy for virtually every organism. Adapting to the unpredictable terrain they run into, cells, fungi and ...

Boasting a sophisticated design tailored for versatile mobility, Cassie demonstrates remarkable agility as it effortlessly navigates quarter-mile runs and performs impressive long jumps without ...