A stretchy electronic skin could equip robots and other devices with the same softness and touch sensitivity as human skin, opening up new possibilities to perform tasks that require a great deal of precision and control of force.
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
At Automate Kawasaki Robotics introduces a line of intelligent cobots and showcases Ai-enabled R and BX Series robots for welding, multi-SKU palletizing and depalletizing as examples of limitless opportunities and human ingenuity
Developing next-gen AI agents, exploring new modalities, and pioneering foundational learning
A first-ever stretchy electronic skin could equip robots and other devices with the same softness and touch sensitivity as human skin, opening up new possibilities to perform tasks that require a great deal of precision and control of force.
Researchers at the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) have successfully leveraged robotic assistance in the manufacture of wind turbine blades, allowing for the elimination of difficult working conditions for humans and the potential to improve the consistency of the product.
Researchers have successfully leveraged robotic assistance in the manufacture of wind turbine blades, allowing for the elimination of difficult working conditions for humans and the potential to improve the consistency of the product.
New algorithm encourages robots to move more randomly to collect more diverse data for learning. In tests, robots started with no knowledge and then learned and correctly performed tasks within a single attempt. New model could improve safety and practicality of self-driving cars, delivery drones and more.
With Tacton we wanted to give users the flexibility and configuration options they need to outfit their facility, while ensuring the system was reliable, secure, and easy to install.
Northwestern University engineers have developed a new artificial intelligence (AI) algorithm designed specifically for smart robotics. By helping robots rapidly and reliably learn complex skills, the new method could significantly improve the practicality—and safety—of robots for a range of applications, including self-driving cars, delivery drones, household assistants and automation.