Researchers developed a laser-based artificial neuron that fully emulates the functions, dynamics and information processing of a biological graded neuron, which could lead to new breakthroughs in advanced computing. With a processing speed a billion times faster than nature, chip-based laser neuron could help advance AI tasks such as pattern recognition and sequence prediction.
In a bold move to bring artificial intelligence closer to everyday users, OpenAI has launched a groundbreaking feature—a telephone-based chatbot service via 1-800-CHATGPT. This service not only expands accessibility but also represents a pivotal step in OpenAI’s strategy to dominate the rapidly growing generative AI market. Let’s explore the details, implications, and potential of this...
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Federal authorities have provided new details in the case of "the mysterious drones" spotted around the northeastern U.S.
The United States is the second largest manufacturing center in the world (after China). With the growing trend of reshoring manufacturing operations, companies are increasingly looking for automation solutions.
Imagine trying to move a heavy piece of furniture with a group of people. Everyone's effort matters, but how do you ensure that each person is pulling their weight? This challenge of fairly distributing the load is a critical issue not only in human teamwork but also for coordinating robotic swarms.
Moving in a dense cloud, like throngs of people walking across a crowded public square, 100 drones maneuver through the night sky in Hungary's capital, the result of over a decade of research and experimentation that scientists believe could change the future of unmanned flight.
Scientists at the Department of Energy's Oak Ridge National Laboratory have demonstrated an autonomous robotic field monitoring, sampling and data-gathering system that could accelerate understanding of interactions among plants, soil and the environment.
University of Queensland researchers have developed a 3D printing method to produce shape-shifting liquid metal robotics with musculoskeletal qualities inspired by animal physiology.
Wearable haptic devices, which provide touch-based feedback, can provide more realistic experiences in virtual reality, assist with rehabilitation, and create new opportunities for silent communication. Currently, most of these devices rely on vibration, as pressure-based haptics have typically required users to wear stiff exoskeletons or other bulky structures.
The buzz around Nintendo’s next-generation console, popularly referred to as the Nintendo Switch 2, has reached a fever pitch. With leaks emerging from accessory makers, YouTubers, and even case manufacturers, the gaming world is abuzz with speculation and excitement. As the official reveal looms—rumored to be in January 2025—let’s dive into the most credible leaks...
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Scientists have developed swarms of tiny magnetic robots that work together like ants to achieve Herculean feats, including traversing and picking up objects many times their size. The findings suggest that these microrobot swarms -- operating under a rotating magnetic field -- could be used to take on difficult tasks in challenging environments that individual robots would struggle to handle, such as offering a minimally invasive treatment for clogged arteries and precisely guiding organisms.
The recent spate of unidentified drone sightings in the U.S., including some near sensitive locations such as airports and military installations, has caused significant public concern.
Startups T-Robotics and Mbodi selected to collaborate on conversational AI and adaptive learning robotics solutions . Both winners selected from over 100 global pioneers of next-generation automation technology.
Reinforcement Learning, an artificial intelligence approach, has the potential to guide physicians in designing sequential treatment strategies for better patient outcomes but requires significant improvements before it can be applied in clinical settings, finds a new study.
Infertility affects an estimated 186 million people worldwide, with fallopian tube obstruction contributing to 11%-67% of female infertility cases. Researchers have developed an innovative solution using a magnetically driven robotic microscrew to treat fallopian tube blockages. The microrobot is made from nonmagnetic photosensitive resin, coated with a thin iron layer to give it magnetic properties. By applying an external magnetic field, the robot rotates, generating translational motion that enables it to navigate through a glass channel simulating a fallopian tube.