A Chinese team has developed an octopus-inspired flexible robotic arm that can sense and manipulate objects in confined spaces and underwater. The study, published in Science Robotics, highlights the arm's capabilities. Additionally, a mouse-inspired robot with a compliant spine, developed by TU_Muenchen, has shown enhanced spinal flexibility compared to existing four-legged robots. Furthermore, a motorized eel capable of swimming has been built by roboticists. These innovations in robotics demonstrate advancements in creating flexible and agile robotic systems for various applications.
Most robots can't bend their back, but this 3D-printed mouse has a flexible spine that increases its speed and agility 👇 https://t.co/TJECWGqJn5
WATCH: Roboticists build motorised eel that can swim https://t.co/27U9OY9LF8
Most robots can't bend their back, but this 3D-printed mouse has a flexible spine that increases its speed and agility https://t.co/n1Ddl8Hyf5
A new mouse-inspired robot shows a heightened degree of spinal flexibility, due to lateral flexion of a compliant spine, when compared to other existing four-legged #robots. @TU_Muenchen Learn more in Science #Robotics: https://t.co/7ez6txB4E4 https://t.co/WlLSKQq3WV
A new octopus-inspired robotic arm is flexible and deformable when sensing and manipulating objects in small spaces and underwater. Read more in @SciRobotics: https://t.co/lLu4zo07Y5 https://t.co/CKfL1q8u2Y
A Chinese team created an octopus-inspired flexible robotic arm capable of sensing and manipulating objects in confined spaces and underwater, according to the study published in the latest edition of Science Robotics. https://t.co/j1yZc4dbw6