People with severe paralysis are now using implanted brain chips to move robotic arms using nothing but their thoughts, ...

Ancient mudras offer a blueprint for smoother robot hand movement and could inspire new approaches to motor training and ...

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

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 ...

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, ...

By operating with a small, close-knit team, Sydorko Automation maintains a family-driven culture that enables nimble decision ...

Stanford researchers have become the first to demonstrate that machine-learning control can safely guide a robot aboard the ...

Swiss scientists create grain-sized robot that surgeons control with magnets to deliver medicine precisely through blood ...

Imagine having a continuum soft robotic arm bend around a bunch of grapes or broccoli, adjusting its grip in real time as it ...

Most living organisms easily surpass machines when it comes to navigating real-world environments and adaptability to changing conditions. One way to bridge that gap is building biohybrid robots that ...

Weed control is essential in apple orchards because weeds compete with trees for nutrients, water and sunlight, which can ...

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