A research team led by Prof. Seung Hwan Ko of Seoul National University College of Engineering’s Department of Mechanical Engineering has developed an artificial skin technology that enables robots to sense temperature and pressure simultaneously, similar to human skin.A research team led by Prof. Seung Hwan Ko of Seoul National University College of Engineering’s Department of Mechanical Engineering has developed an artificial skin technology that enables robots to sense temperature and pressure simultaneously, similar to human skin.[#item_full_content]
More and more robots are assisting workers in factories. However, human-robot collaboration is still far from seamless. Researchers from Prof. Lorenzo Masia’s team at the Technical University of Munich (TUM) have now developed a solution that enables a factory worker wearing an exoskeleton to work closely and, above all, safely, with a robotic arm. This reduces the physical strain on workers and improves production processes.More and more robots are assisting workers in factories. However, human-robot collaboration is still far from seamless. Researchers from Prof. Lorenzo Masia’s team at the Technical University of Munich (TUM) have now developed a solution that enables a factory worker wearing an exoskeleton to work closely and, above all, safely, with a robotic arm. This reduces the physical strain on workers and improves production processes.[#item_full_content]
A new chip developed by MIT researchers could help tiny, low-power UAVs avoid obstacles as they zip around tight corners inside an industrial HVAC system to check for gas leaks. The chip allows small autonomous robots and other battery-limited devices to construct detailed 3D maps of their environments in real time using only about as much power as a single LED. A robot could use such a map to plan a collision-free path to reach its goal.A new chip developed by MIT researchers could help tiny, low-power UAVs avoid obstacles as they zip around tight corners inside an industrial HVAC system to check for gas leaks. The chip allows small autonomous robots and other battery-limited devices to construct detailed 3D maps of their environments in real time using only about as much power as a single LED. A robot could use such a map to plan a collision-free path to reach its goal.[#item_full_content]
Current flying objects face a trade-off: Drones with propellers, for instance, are very agile and able to hover; however, they use up a lot of energy. Airplanes, on the other hand, feature fixed wings that allow them to fly very efficiently. The downside: They can’t remain suspended in the air like a kestrel on the lookout for prey.Current flying objects face a trade-off: Drones with propellers, for instance, are very agile and able to hover; however, they use up a lot of energy. Airplanes, on the other hand, feature fixed wings that allow them to fly very efficiently. The downside: They can’t remain suspended in the air like a kestrel on the lookout for prey.[#item_full_content]
Unmanned aerial vehicles (UAVs), commonly known as drones, are now widely used for various purposes, ranging from filmmaking and aerial photography to industrial inspection, precision farming and reaching obstructed areas during emergency response missions. While many existing drones can move swiftly in their surroundings and circumvent large obstacles, most still struggle in cluttered environments. In addition, they are often unable to execute maneuvers that would allow them to safely pass through small gaps or reach secluded areas.Unmanned aerial vehicles (UAVs), commonly known as drones, are now widely used for various purposes, ranging from filmmaking and aerial photography to industrial inspection, precision farming and reaching obstructed areas during emergency response missions. While many existing drones can move swiftly in their surroundings and circumvent large obstacles, most still struggle in cluttered environments. In addition, they are often unable to execute maneuvers that would allow them to safely pass through small gaps or reach secluded areas.[#item_full_content]
If you ever need help in the kitchen cutting fish into appetizing bites, a new three-armed robot may be able to help. And that’s no easy feat for robots. While they are generally good at picking up rigid objects, something slippery that can change shape when touched, such as a fish, poses a range of challenges. Then, if you add slicing into the mix, it becomes even more difficult because the robot has to cope with the fish changing shape as it is handled and cut.If you ever need help in the kitchen cutting fish into appetizing bites, a new three-armed robot may be able to help. And that’s no easy feat for robots. While they are generally good at picking up rigid objects, something slippery that can change shape when touched, such as a fish, poses a range of challenges. Then, if you add slicing into the mix, it becomes even more difficult because the robot has to cope with the fish changing shape as it is handled and cut.[#item_full_content]
From facial recognition on smartphones to humanoid robots, computer vision technology, which serves as the eyes of artificial intelligence (AI), is widely used in daily life. A joint research team from KAIST and international institutions has developed a technology that allows AI to see the world more clearly with minimal memory, increasing GPU (Graphics Processing Unit) memory efficiency by up to 16 times. The achievement is seen as a core technology that could accelerate the era of humanoid robots and on-device AI.From facial recognition on smartphones to humanoid robots, computer vision technology, which serves as the eyes of artificial intelligence (AI), is widely used in daily life. A joint research team from KAIST and international institutions has developed a technology that allows AI to see the world more clearly with minimal memory, increasing GPU (Graphics Processing Unit) memory efficiency by up to 16 times. The achievement is seen as a core technology that could accelerate the era of humanoid robots and on-device AI.[#item_full_content]
An auto factory worker can remember the storage bin where she left a partly assembled component the night before and quickly return to that spot to pick it up. But robots that may work side by side with her would struggle to develop and access this same type of “spatiotemporal” memory.An auto factory worker can remember the storage bin where she left a partly assembled component the night before and quickly return to that spot to pick it up. But robots that may work side by side with her would struggle to develop and access this same type of “spatiotemporal” memory.[#item_full_content]
Controlling a robotic arm, a prosthetic hand or a rehabilitation device is harder than it looks. Picking up an egg, for example, requires just the right amount of force: too little and it falls, too much and it breaks.Controlling a robotic arm, a prosthetic hand or a rehabilitation device is harder than it looks. Picking up an egg, for example, requires just the right amount of force: too little and it falls, too much and it breaks.[#item_full_content]
For remotely operated underwater vehicles, cloudy and turbulent waters are often a no-go. When vehicles settle on the seafloor or dig through a sand bed, they can kick up clouds of sediment that make it tough for onboard cameras to see through. Often, the only thing to do is wait until the marine dust settles before a vehicle can safely proceed.For remotely operated underwater vehicles, cloudy and turbulent waters are often a no-go. When vehicles settle on the seafloor or dig through a sand bed, they can kick up clouds of sediment that make it tough for onboard cameras to see through. Often, the only thing to do is wait until the marine dust settles before a vehicle can safely proceed.[#item_full_content]
