Tag Archives: robots
#437141 Reviewing progress in the development of ...
Researchers at University of California, Yale University, Stanford University, University of Cambridge and Seoul National University have recently carried out a study reviewing recent efforts in the development of machine-learning-enhanced electronic skins. Their review paper, published in Science Robotics, outlines how these e-skins could aid the creation of soft robots with touch-like capabilities, while also delineating challenges that are currently preventing their large-scale deployment. Continue reading
Posted in Human Robots
#437136 Researchers develop real-time physics ...
Motion picture animation and video games are impressively lifelike nowadays, capturing a wisp of hair falling across a heroine's eyes or a canvas sail snapping crisply in the wind. Collaborators from the University of California, Los Angeles (UCLA) and Carnegie Mellon University have adapted this sophisticated computer graphics technology to simulate the movements of soft, limbed robots for the first time. Continue reading
Posted in Human Robots
#437133 The robots weeding organic farms and ...
Robots that use artificial intelligence to recognise the health of fruit and vegetable crops and when they're ready to harvest are being trialled to help small, organic and greenhouse farmers with weeding and patrolling for pests. Continue reading
Posted in Human Robots
#437130 SQuad: A miniature robot that can walk ...
Researchers at Bilkent University in Turkey have recently created a small quadruped robot called SQuad, which is made of soft structural materials. This unique robot, presented in a paper published in IEEE Robotics and Automation Letters, is more flexible than existing miniature robots and is thus better at climbing or circumventing obstacles in its surroundings. Continue reading
Posted in Human Robots
#437128 Smarter, lighter exoskeletons to provide ...
In health technology, wearable robots are programmable devices designed to mechanically interact with the body of the wearer. Sometimes referred to as exoskeletons, their purpose is to support motor function for people with severe mobility impairments. But market adoption of exoskeletons has been limited due to factors such as the weight of the equipment and the sometimes inaccurate predictions of wearer's movements when walking on uneven ground or approaching an obstacle. However, recent advances in robotics, materials science and artificial intelligence could make these mobility assistance and rehabilitation tools more compact, lightweight and effective for the wearer. Continue reading
Posted in Human Robots