Read part 1 of 4 in our new articles series exploring TDK’s advanced robotics. This first part delves into how TDK ROS leverage multiprocessor technology to enhance precision, efficiency, and multitasking across service and industrial applications.
Researchers at EPFL’s Neuroengineering Laboratory, led by Pavan Ramdya, aim to replicate the workings of the brain of the common fruit fly, Drosophila melanogaster. We spoke with Ramdya about the exciting prospects for robotics.
An in-depth guide on PID explained – covering the theory behind Proportional-Integral-Derivative control, how each PID component works, methods to tune PID controllers, and practical Python examples for implementation.
This comprehensive article dives deep into the world of robotics, exploring the history, types, engineering components, applications, and future trends of robots, offering readers an in-depth understanding of how these remarkable machines work and shape our lives.
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Everyone, guess how fast is it?
The new design could assist the elderly as they age in place at home.
The hospitality industry can leverage the gender characteristics of service robots to influence customers' decisions, according to new research from a team in the Penn State School of Hospitality Management.
Service robots have evolved from simple automated machines to intelligent adaptive systems that can navigate unpredictable environments and interact with humans.
Engineers at Princeton and North Carolina State University have combined ancient paper folding and modern materials science to create a soft robot that bends and twists through mazes with ease.
A research team from ETH Zurich and the University of Zurich (UZH) has developed a novel approach to treating spinal cord injuries: controllable microrobots deliver stem cells directly to the site of an injury, where they promote nerve cell regeneration.
Cornell engineers have developed a robotic collective that behaves less like a machine and more like a material that flows, reshapes and adapts to its environment without centralized control.
From hospital wards to crop fields, from microscopic swarms to biohybrid machines powered by fungi, robotics research at Cornell spans an astonishing range of scale, application and ambition.
Read part 1 of 4 in our new articles series exploring TDK’s advanced robotics. This first part delves into how TDK ROS leverage multiprocessor technology to enhance precision, efficiency, and multitasking across service and industrial applications.
Researchers at EPFL’s Neuroengineering Laboratory, led by Pavan Ramdya, aim to replicate the workings of the brain of the common fruit fly, Drosophila melanogaster. We spoke with Ramdya about the exciting prospects for robotics.
An in-depth guide on PID explained – covering the theory behind Proportional-Integral-Derivative control, how each PID component works, methods to tune PID controllers, and practical Python examples for implementation.
Distance image sensors utilize the indirect time-of-flight (TOF) technique to precisely determine the range to a target object. By emitting pulse-modulated light, these sensors capture reflected signals and process the information in real time.
Explore how FUTEK's precision sensors are driving innovations in surgical robotics.
Arduino on Their Open-Source Ecosystems And Collaborations Fuelling Innovations Around The World
Robots and drones for the purpose of research and development.
4 minutes read
The ETH spin-off Flink Robotics wants to revolutionize the handling of packages. Its founders Moritz Geilinger and Simon Huber have developed software that allows robots to work together and quickly take on new tasks.
5 minutes read
The system uses reconfigurable electromechanical building blocks to create structural electronics.
Unveiling the Future of Embedded AI: Object Anomaly Detection and More at Embedded World 2025
Launched by MIT Sea Grant, SeaPerch and SeaPerch II have had a big impact on young learners interested in ocean science and engineering.
This fresh, newly captured video from Unitree's testing grounds showcases the breakneck speed of humanoid intelligence advancement. Every day brings something thrilling!
One year after Unitree H1 (1.8m) pioneered the first standing backflip by an electric humanoid robot (March 2024). Meet the Unitree G1 – now flawlessly conquering an even more challenging standing side flip. (Zero malfunctions/damage occurred during programming and filming.)
“Xstrings” method enables users to produce cable-driven objects, automatically assembling bionic robots, sculptures, and dynamic fashion designs.
Camera-equipped robotic systems serve as key expansion components within this industry because they improve efficiency and accuracy across multiple fields, including manufacturing, healthcare, logistics, and autonomous vehicle development.
