A new type of robotic hand developed at The University of Texas at Austin demonstrates such sensitive touch that it can grasp objects as fragile as a potato chip or a raspberry without crushing them.

Researchers examined the idea of using robotic arms for 3D food printing and what it would really take to automate kitchens.

Explore how a better robotic hand can be designed using 3D printing, animatronics, and smart mechanical engineering. This project focuses on improving movement, flexibility, and functionality for ...

But one of the key hurdles when bringing origami or kirigami to engineering is that these techniques often make things rather complicated. The famous Miura fold, developed by Japanese astrophysicist ...

Abstract: This paper presents a theoretical model for the shape reconstruction of soft robots under a tip force, a tip moment, and a distributed load along the body, akin to blood flow forces acting ...

Indoor farms, also known as vertical farms, are popular among agricultural researchers and are expanding across the agricultural industry. Some benefits they have over outdoor farms include the ...

Inspired by the Japanese art of kirigami, an MIT team has designed a technique that could transform flat panels into medical devices, habitats, and other objects without the use of tools.

Nintendo eShop on Nintendo Switch and Nintendo Switch 2: Star Trek: Voyager – Across the Unknown–The fate of the iconic U.S.S. Voyager starship is in your hands in this story-driven survival strategy ...

Artificial intelligence model developer World Labs Inc. today announced that it has raised $1 billion in funding. The capital was provided by a consortium that included Nvidia Corp., Advanced Micro ...

HoloRadar uses radio waves to see around corners, allowing it to detect people at T-shaped intersections like the one pictured here. Penn Engineers have developed a system that lets robots see around ...

Soft robots made out of flexible, biocompatible materials are in high demand in industries from health care to manufacturing, but precisely designing and controlling such robots for specific purposes ...