TL;DR: Jellyfish and Worm Bots Powered by Hydraulic Fluid Battery
– Cornell University’s engineering team has developed survivable, adaptable and agile robotic creatures resembling jellyfish and worms.
– These robotic creatures are powered by a unique hydraulic fluid battery, a first of its kind.
– This advanced technology allows these bots to be extremely flexible, able to withstand significant impacts and recover quickly.
– The hydraulic fluid battery simultaneously powers the robot and actuates its movements.
– Potential applications range from reconnaissance missions to marine research.
Article
In the brave new world of robotics, Cornell University’s engineering team is breaking ground with its creation of robotic creatures inspired by jellyfish and worms. These bots are not only survivable and adaptable but also powered by a distinctive hydraulic fluid battery that sets them apart from their contemporaries.
This type of battery technology allows the robots to flex and react much like their biological counterparts. They can soak up considerable impacts,
rebound quickly, and carry on their operations with little to no downtime. The fluid battery not only powers these robotic creatures but also directs their movements – truly embodying the notion of killing two birds with one stone.
With an array of potential use-cases, these jellyfish and worm bots could be invaluable players in a variety of fields. Imagine a world where these robots are deployed for search and rescue missions, or underwater exploration, or perhaps even marine research. The possibilities are as endless as they are fascinating.
Personal Opinions
In a world that is becoming increasingly reliant on technology and robotics, Cornell University’s worm and jellyfish creations are a testament to the endless possibilities the field has to offer. The innovative use of hydraulic fluid batteries is breaking new ground, conferring them with a flexibility and durability that is often lacking in conventional robotics. It’s impressive to think what this could mean for various industries, from search and rescue operations to oceanographic research. I can’t help but wonder, what do you think about these super flexible, hydraulic-powered bots? Are we on the cusp of a new era in robotics?
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Source: TechCrunch
