Robots could soon be able to autonomously complete search and rescue missions, inspections, complex maintenance operations and various other real-world tasks. To do this, however, they should be able to smoothly navigate unknown and complex environments without breaking down or getting stuck, which would require human intervention.Robots could soon be able to autonomously complete search and rescue missions, inspections, complex maintenance operations and various other real-world tasks. To do this, however, they should be able to smoothly navigate unknown and complex environments without breaking down or getting stuck, which would require human intervention.[#item_full_content]

When it comes to navigating their surroundings, machines have a natural disadvantage compared to humans. To help hone the visual perception abilities they need to understand the world, researchers have developed a novel training dataset for improving spatial awareness in robots.When it comes to navigating their surroundings, machines have a natural disadvantage compared to humans. To help hone the visual perception abilities they need to understand the world, researchers have developed a novel training dataset for improving spatial awareness in robots.[#item_full_content]

In the 1980s when micro-electro-mechanical systems (MEMS) were first created, computer engineers were excited by the idea that these new devices that combine electrical and mechanical components at the microscale could be used to build miniature robots.In the 1980s when micro-electro-mechanical systems (MEMS) were first created, computer engineers were excited by the idea that these new devices that combine electrical and mechanical components at the microscale could be used to build miniature robots.[#item_full_content]

Robots aren’t always the most delicate of machines when handling fragile objects. They don’t have the lightness of touch of humans. But that could be about to change thanks to a new development in smart materials.Robots aren’t always the most delicate of machines when handling fragile objects. They don’t have the lightness of touch of humans. But that could be about to change thanks to a new development in smart materials.[#item_full_content]

Robots powered by popular artificial intelligence models are currently unsafe for general purpose real-world use, according to new research from King’s College London and Carnegie Mellon University.Robots powered by popular artificial intelligence models are currently unsafe for general purpose real-world use, according to new research from King’s College London and Carnegie Mellon University.[#item_full_content]

A study by researchers at Queen Mary University of London and University College London has found that humans have a form of remote touch, or the ability to sense objects without direct contact, a sense that some animals have.A study by researchers at Queen Mary University of London and University College London has found that humans have a form of remote touch, or the ability to sense objects without direct contact, a sense that some animals have.[#item_full_content]

A research team led by Dr. Lin Cao from the University of Sheffield’s School of Electrical and Electronic Engineering has reimagined one of robotics’ long-standing flaws as a breakthrough feature—unveiling a new way for soft robots to move, morph, and even “grow” with unprecedented dexterity.A research team led by Dr. Lin Cao from the University of Sheffield’s School of Electrical and Electronic Engineering has reimagined one of robotics’ long-standing flaws as a breakthrough feature—unveiling a new way for soft robots to move, morph, and even “grow” with unprecedented dexterity.[#item_full_content]

A robot searching for workers trapped in a partially collapsed mine shaft must rapidly generate a map of the scene and identify its location within that scene as it navigates the treacherous terrain.A robot searching for workers trapped in a partially collapsed mine shaft must rapidly generate a map of the scene and identify its location within that scene as it navigates the treacherous terrain.[#item_full_content]

A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or computers—using only air pressure. The study, published in Advanced Materials, shows that these “fluidic robots” can generate complex, rhythmic movements and even automatically synchronize their actions.A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or computers—using only air pressure. The study, published in Advanced Materials, shows that these “fluidic robots” can generate complex, rhythmic movements and even automatically synchronize their actions.[#item_full_content]

You may not remember it, but odds are you took a few tumbles during your toddler era. You weren’t alone. Falling, after all, is a natural consequence of learning to crawl, walk, climb and jump. Our balance, coordination and motor skills are developing throughout early childhood.You may not remember it, but odds are you took a few tumbles during your toddler era. You weren’t alone. Falling, after all, is a natural consequence of learning to crawl, walk, climb and jump. Our balance, coordination and motor skills are developing throughout early childhood.[#item_full_content]