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

Figure AI’s Helix 02 humanoid robot executed a four-minute dishwasher cycle without human intervention, powered by an autonomous whole-body control system.

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 ...

A new two-stage AI system combines physics-driven trajectory planning with adaptive reinforcement learning, enabling robots to walk smoothly, remain upright in the face of shocks, and navigate ...

Explore the world of advanced robotics in this video, featuring the Ascento Security Robot—a cutting-edge hybrid robot combining legged and wheeled locomotion. See how this innovative security robot ...

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 ...

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.

Researchers in the US developed bipedal robots with a new design, the HybridLeg platform, ...

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 ...