Category: Robotics

NASA astronauts and international partners continue their scientific investigations on the International Space Station. The Expedition 70 crew members aboard the International Space Station (ISS) are making significant strides in the fields of robotics and space biology research. With a cargo craft set to launch soon, the crew is engaged in various experiments and studies…

NASA and international astronauts on the International Space Station (ISS) focus on robotics, physics, and space biology research while awaiting the arrival of a cargo craft. The Expedition 70 crew members aboard the International Space Station (ISS) are engaged in a range of scientific activities, including robotics and physics research, as well as space biology…

NASA Astronauts and International Partners Conduct Innovative Experiments Aboard the International Space Station The Expedition 70 crew members aboard the International Space Station (ISS) are embarking on a series of groundbreaking experiments, focusing on robotics and space biology research. Led by NASA Flight Engineer Jasmin Moghbeli, the team is pushing the boundaries of scientific exploration…

Researchers develop a self-healing universal gripper that adapts to hazardous objects and integrates an autonomous healing system. Researchers from the University of Cambridge and Vrije Universiteit Brussel have developed a groundbreaking self-healing robotic gripper for use in soft robotics. This innovative gripper boasts adaptability, recyclability, and resilience to damage, thanks to its heat-assisted autonomous healing…

The A-Lab and GNoME systems are transforming the search for new materials through the power of AI and robotics. An innovative autonomous system that merges robotics and artificial intelligence (AI) has made significant strides in the field of materials discovery. The system, known as the A-Lab, has successfully devised recipes for new materials and carried…

Researchers develop a self-healing robotic gripper that is adaptable, recyclable, and resilient to damage, thanks to heat-assisted autonomous healing. In the field of soft robotics, researchers at the University of Cambridge and Vrije Universiteit Brussel have developed a groundbreaking self-healing robotic gripper. This innovative gripper is not only flexible and adaptable but also capable of…

Researchers develop a self-healing universal gripper that can adaptively grasp and autonomously repair damage, revolutionizing the field of soft robotics. In a groundbreaking development, researchers from the University of Cambridge and Vrije Universiteit Brussel have created a self-healing robotic gripper that promises to revolutionize the field of soft robotics. This innovative gripper, made from a…

Unlocking the Future: AI and Robotics Collaborate to Transform Material Discovery In a groundbreaking collaboration, artificial intelligence (AI) and robotics have united to transform the field of material discovery. Gone are the days of painstaking trial and error in the lab as scientists harness the power of these cutting-edge technologies to accelerate the development of…

Revolutionizing Robotics: NVIDIA and Amazon Web Services Join Forces to Propel Innovation in the Cloud NVIDIA and Amazon Web Services (AWS) have joined forces to revolutionize the field of robotics development. This groundbreaking collaboration aims to leverage the power of the cloud to accelerate the advancement of robotic technologies. By combining NVIDIA’s expertise in artificial…

Revolutionizing Soft Robotics: The Game-Changing Self-Healing Robotic Gripper Soft robotics has emerged as a promising field, offering innovative solutions for applications ranging from healthcare to manufacturing. However, one challenge that soft robots face is their susceptibility to damage and wear over time. In a breakthrough development, researchers have now created a self-healing robotic gripper that…

Researchers develop an adaptable, recyclable, and resilient self-healing robotic gripper for use in soft robotics, offering a sustainable solution for universal grippers and revolutionizing the field. Soft robotics has made significant advancements in recent years, offering a new frontier in robotics that can handle delicate objects and interact with humans more safely. However, one challenge…

Researchers develop a self-healing robotic gripper that can adapt to various objects and is recyclable, thanks to autonomous heat-assisted healing. Soft robotics has made significant advancements in recent years, with researchers constantly exploring new materials and designs to create robots that can interact with delicate objects and navigate complex environments. Now, a team of scientists…