The evolution of humanoid robot engineering is accelerating as AI and advanced electronics converge to redefine how machines perceive, move, and collaborate with humans. Electronic Challenges and ...

EtherCAT’s deterministic, on-the-fly frame processing and flexible topologies make it a strong real-time Ethernet backbone for autonomous mobile robots.

Most robots rely on rigid, bulky parts that limit their adaptability, strength, and safety in real-world environments. Researchers developed soft, battery-powered artificial muscles inspired by human ...

In essence, without robust flexible cables, collaborative robots (cobots) and smart factory equipment would suffer frequent downtimes and failures, as standard cables cannot survive the dynamic ...

According to its developers, the soft robot automatically bends, snaps and resets itself without a single electronic component, completing 188 continuous leaps in the lab. Source: ...

In a groundbreaking new study, researchers have developed an electronic skin that allows humanoid robots to distinguish everyday touch from damaging force. That ability, once reserved for living ...

Howard Huang is laser focused on turning his Shenzhen-based Orbbec into the world’s top supplier of advanced 3D vision sensors for humanoids. About 500 humanoid robots from 16 countries competed in ...

Inspired by the movements of a tiny parasitic worm, engineers have created a 5-inch soft robot that can jump as high as a basketball hoop. Their device, a silicone rod with a carbon-fiber spine, can ...

Billions of dollars are flowing into humanoid robot startups, as investors bet that the industry will soon put humanlike machines in warehouses, factories and our living rooms. Many leaders of those ...