RT @SciRobotics: This mini snake-shaped #robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstrating t…
This mini snake-shaped #robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstrating the promise of soft continuum robots as future #medical tools for exploring the inner body: https://t.co/nFTPqK4yCW https://t.co/Zuqyj9
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
Healthcare Sim Info: Ferromagnetic soft continuum robots - Science https://t.co/NxPW3vj6en
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
Ferromagnetic soft continuum robots https://t.co/41iupDoIR3
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read our new paper on @SciRobotics https://t.co/ZLK3sNfpQi Read @MIT News https://t.co/3qel5uUY91 https://t.co/1udq53GOdC