Apr 7, 2020
Who would rather be in quarantine here at this cool building?
seen from Spain
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seen from Türkiye
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Who would rather be in quarantine here at this cool building?
When Machines Learn to Rewrite Themselves — Inside MIT’s Recursive AI Breakthrough That Could Reshape Intelligence, Autonomy, and Control Fo
Programming robots to put jackets on people is harder than it looks
Programming robots to put jackets on people is harder than it looks
If there’s one thing we’ve learned from some of our favorite YouTube shitty robots, it’s that human-robot interaction can be a tricky business. Developing methods to get rigid robotic arms to perform delicate tasks around soft human bodies is easier said than done. This week, a team at MIT’s CSAIL department is showcasing its work using robotic arms to help people get dressed. The promise of such…
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IEEE Robotics & Automation Letters, researchers of CSAIL has built skin from a kind of material used in electromagnetic interference shielding
MIT'den Kendi Ağırlığının 100 Katını Taşıyabilen Robot Kol
MIT'den Kendi Ağırlığının 100 Katını Taşıyabilen Robot Kol
MIT’nin yeni robot kolu, her türlü nesneyi zorlanmadan taşıyabiliyor!
Crean una “inteligencia artificial tejedora"
Crean una “inteligencia artificial tejedora”
La automatización de una habilidad ancestral
Tal como señalan en el sitio web del MIT CSAIL, el artículo tejido más antiguo se remonta a la Edad Media: se trata de un par de medias hechas a mano, hallado en Egipto. “Aunque la ropa creada en forma artesanal ocupó nuestros armarios durante siglos, una nueva máquina con alta tecnología cambia la forma en la que se crearán nuestras prendas favoritas”…
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MIT CSAIL
Origami Artificial Muscles
New Post has been published on https://www.aneddoticamagazine.com/origami-artificial-muscles/
Origami Artificial Muscles
Artificial muscles could make soft robots safer and stronger. Researchers at the Wyss Institute, Harvard SEAS, and MIT CSAIL have developed a novel design approach for origami-inspired artificial muscles, capable of lifting 1000x its own weight.
The muscles are made of a compressible skeleton and air or fluid medium encased in a flexible skin, and are powered by pressure difference. The muscle motions are programmed based on the structural geometry of the skeleton. Multi-directional motions can also be programmed into the material. Artificial muscles can also grip, lift, and twist objects.
A variety of materials and fabrication methods can be used to create low-cost artificial muscles. These artificial muscles are fast, light-weight, and powerful, and could be used for miniature medical devices, deployable structures, or wearable robotics.
For more information, please visit: wyss.harvard.edu/artificial-muscles-give-soft-robots-superpowers/