Asimov's 3 laws of robotics were theoretical. These new 24 laws of robots and AI are very real ... but it's unclear how ...

The integration of control engineering, mechatronics and robotics represents a dynamic convergence of disciplines that underpins modern technological innovation. At its core, control engineering ...

Bacteria-scale robots that can run for months without human control are no longer a lab fantasy. Researchers have now built ...

Looking to build robots without starting from scratch? These ready-made reference designsillustrate how to make robots work ...

Tech companies are collectively spending billions to turn the age old sci-fi trope of humanoid, general-purpose robots into ...

Recent advances in motion control include high-performance servo drives, AI integration, and enhanced communication protocols like EtherCAT. These advances are designed to improve precision, ...

Automation technology suppliers are integrating robot kinematics directly into PLCs, simplifying programming, reducing costs, ...

On the outskirts of Beijing, young Chinese entrepreneur Cheng Hao sits on an indoor soccer pitch – but this turf isn’t for ...

Robotics combines computer science, engineering, and technology to design, construct, and utilize machines that are programmed to replicate or substitute human actions and decision-making. These ...

Precision is everything in robotics, says Kia Rahbar, marketing manager for isolated converters at Texas Instruments. His technical article “How advanced current and voltage sensing enable ...

Robotic surgery is reshaping modern medicine. A combination of robotics and advanced imaging technologies allows surgeons to ...

Control engineering integrates classical feedback principles with modern intelligent methodologies to direct dynamic processes across diverse applications. In mechatronics, this discipline unites ...