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12 Μαΐ 2019 · this blood-like fluid continually oozes away, triggering the robot’s sensors and prompting the machine to shovel it back into place. the artists have ‘taught’ the robot to perform 32 ...
read more on designboom here: https://www.designboom.com/art/sun-yuan-peng-yu-cant-help-myself-robot-venice-art-biennale-05-12-2019/
https://www.guggenheim.org/artwork/34812. Can't Help Myself was a kinetic sculpture created by Sun Yuan and Peng Yu in 2016. [1] The sculpture consisted of a robotic arm that could move to sweep up red, cellulose ether fluid leaking from its inner core, and make dance-like movements. [2]
18 Σεπ 2020 · These experiments demonstrate the feasibility of the MR fluid to operate within a soft robot with branching fluid paths as both a valve to control the pressure of the flow and thus the bending of a soft fluidic actuator, as well as a switch to prevent the flow of fluid through any given path.
That makes the soft-bodied robot a perfect match for the fluid used in flow batteries. The Cornell team draws an analogy between the fluid and blood, as it can run through all the robot's...
10 Νοε 2021 · This Review discusses tethered, untethered and biohybrid soft actuation strategies, highlights promising real-world applications of soft robots and identifies key future challenges, such as ...
24 Ιουν 2020 · A controllable magnetic field is a powerful tool for remote actuation, which fulfills the locomotion of magnetic miniature robots in intricate and confined environments. Accordingly, the performance of the magnetic actuation system directly affects ultimate applications.
