As robots increasingly join forces to work with humans—from nursing care homes to warehouses to factories—they must be able to proactively offer support. But first, robots have to learn something we know instinctively: how to anticipate people's needs.
The chaotically moving objects dense clusters digital twin is being developed by students from NUST MISIS, ITMO and MIPT to navigate robots. It is going to be a web service using graph neural networks, which will allow studying the physics of crowds, the laws of swarm behavior in animals and the principles of "active matter" motion. This data is often required for educating courier robots, drones and other autonomous devices operating in crowded spaces. The first results were published in the Journal of Physics: Conference Series.
Japanese technology company SoftBank denies it's pulling the plug on its friendly, talking, bubble-headed Pepper robot.
Researchers at University of Michigan have recently developed a bi-directional model that can predict how much both humans and robotic agents can be trusted in situations that involve human-robot collaboration. This model, presented in a paper published in IEEE Robotics and Automation Letters, could help to allocate tasks to different agents more reliably and efficiently.
Japan's SoftBank has suspended production of its humanoid robot Pepper, a company spokeswoman said Tuesday, seven years after the conglomerate unveiled the signature chatty white android to much fanfare.
A team of researchers working at Johannes Kepler University has developed an autonomous drone with a new type of technology to improve search-and-rescue efforts. In their paper published in the journal Science Robotics, the group describes their drone modifications. Andreas Birk with Jacobs University Bremen has published a Focus piece in the same journal issue outlining the work by the team in Austria.
Without GPS, autonomous systems get lost easily. Now a new algorithm developed at Caltech allows autonomous systems to recognize where they are simply by looking at the terrain around them—and for the first time, the technology works regardless of seasonal changes to that terrain.
Farming robots that can move autonomously in an open field or greenhouse promise a cleaner, safer agricultural future. But there are also potential downsides, from the loss of much-needed jobs to the safety of those working alongside the robots.
The team at Amazon-owned Zoox has released an in-depth safety report detailing the safety features engineers have built into the company's autonomous vehicle, a robo-taxi, and have published it online.
Imagine flexible surgical instruments that can twist and turn in all directions like miniature octopus arms, or how about large and powerful robot tentacles that can work closely and safely with human workers on production lines. A new generation of robotic tools are beginning to be realized thanks to a combination of strong 'muscles' and sensitive 'nerves' created from smart polymeric materials. A research team led by the smart materials experts Professor Stefan Seelecke and Junior Professor Gianluca Rizzello at Saarland University is exploring fundamental aspects of this exciting field of soft robotics.
Toyota Research Institute (TRI) has announced on its press blog that engineers with the company have developed new capabilities for its line of domestic robots. The new capabilities include recognizing and manipulating transparent objects and wiping down counters and tables. In the video accompanying the announcement, a robot grabs a smartphone off a table and uses it to take a selfie video as it carries on with cleaning a kitchen.
Humans and robots may be sharing some of the same goals and manufacturing spaces soon as autonomy and robot technology continue to advance. Researchers at Texas A&M University are analyzing how they can work in unison to allow for one party to step up where the other may temporarily lack.
Humans and robots may be sharing some of the same goals and manufacturing spaces soon as autonomy and robot technology continue to advance. Researchers at Texas A&M University are analyzing how they can work in unison to allow for one party to step up where the other may temporarily lack.
How the brain lets us perceive and navigate the world is one of the most fascinating aspects of cognition. When orienting ourselves, we constantly combine information from all six senses in a seemingly effortless way—a feature that even the most advanced AI systems struggle to replicate.
Cardiac surgeons may be able to better plan operations and improve their surgical field view with the help of a robot. Controlled through a virtual reality parallel system as a digital twin, the robot can accurately image a patient through ultrasound without the hand cramping or radiation exposure that hinder human operators. The international research team published their method in IEEE/CAA Journal of Automatica Sinica.