Unmanned aerial vehicles (UAVs), commonly known as drones, have proved to be highly effective systems for monitoring and exploring environments. These autonomous flying robots could also be used to create detailed maps and three-dimensional (3D) visualizations of real-world environments.
Robotic grippers have become essential across many industries, including manufacturing, packaging, and logistics, mainly for pick-and-place tasks. Recently, the demand for robotic grippers has also expanded into agriculture, where they are used for harvesting and packaging tasks.
Conventional robotic grippers struggle to adapt to complex shapes and sizes, such as those found in crops. This has created a demand for more adaptable robotic grippers that can be utilized in agriculture. In a new study, researchers introduced an innovative soft robotic gripper named ROtation-based Squeezing grippEr (ROSE) and optimized its unique wrinkling-based grasping mechanism using simulations. ROSE's soft yet secure grasp can make it a vital tool for agriculture.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
Our AI method has accelerated and optimized chip design, and its superhuman chip layouts are used in hardware around the world.
The aim of the MHP study was to demonstrate the advantages of process-integrated charging points using inductive point charging systems such as Wiferion over conventional charging zones using a real-life optimization scenario in a medium-sized production company.
How to apply classifier-free guidance (CFG) on your diffusion models without conditioning dropout? What are the newest alternatives to generative sampling with diffusion models? Find out in this article!
Augmented reality (AR) takes digital images and superimposes them onto real-world views. But AR is more than a new way to play video games; it could transform surgery and self-driving cars. To make the technology easier to integrate into common personal devices, researchers report how to combine two optical technologies into a single, high-resolution AR display. In an eyeglasses prototype, the researchers enhanced image quality with a computer algorithm that removed distortions.
Ultra Accuracy feature increases accuracy by ten times in GoFa™ cobot family vs. other cobots on the market. Path accuracy of 0.03 mm supports accurate production in electronics, automotive, aerospace, and metal fabrication industries