Humanoid has introduced KinetIQ, an AI framework designed to orchestrate robot fleets across industrial and service ...

Proprietary systems have traditionally dominated the control of three and four-axis wafer handling robots for in-vacuum and in-air wafer applications. As a result, these systems can be limited in ...

Human–robot interaction (HRI) and gesture-based control systems represent a rapidly evolving research field that seeks to bridge the gap between human intuition and robotic precision. This area ...

A newly developed AI control system using neuron-inspired learning enables soft robotic arms to learn a broad set of motions ...

Humanoid and bipedal robot control systems represent a dynamic confluence of robotics, control theory and artificial intelligence. These systems are designed to enable robots to navigate complex ...

Our robots at home can operate simple tasks they are programmed to perform. Vacuum the floors, for example, and if the left-side sensor detects a wall, try to go around it. But traditional robotic ...

Industrial robots are now widely used and are indispensable in car manufacturing and in other fields. Conventional robot hands are suitable for grasping hard objects of fixed form, whereas it is not ...

Researchers have developed an AI control system that enables soft robotic arms to learn a wide repertoire of motions and ...

Homogeneous vector and plane, homogeneous transformation, position and orientation transformations, kinematics and inverse kinematic solutions of robot manipulators and mobile robots, Jacobian and ...