linkedin post 2020-04-13 04:50:55

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TELEPARIO. "What the researchers propose to make are moving, physical, three-dimensional replicas of people or objects, so lifelike that human senses would accept them as real. This would eliminate the need for cumbersome virtual reality gear and overcome the viewing angle limitations of modern 3D approaches. The replicas would mimic the shape and appearance of a person or object being imaged in real time, and as the originals moved, so would their replicas." https://lnkd.in/dS_frYe View in LinkedIn
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linkedin post 2020-04-14 04:48:03

linkedin post 2020-04-14 04:48:03

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NEURODIGITAL. “Every digital experience can and should be controlled by the neurons.The kernel of our work is held in the machine-learning models which translate biophysical signals—yes, even at the level of individual neurons—to give you control over digital experiences.” https://www-theatlantic-com.cdn.ampproject.org/c/s/www.theatlantic.com/amp/article/543882/ View in LinkedIn
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linkedin post 2020-04-15 05:56:29

linkedin post 2020-04-15 05:56:29

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RECOMBINANT INNOVATION. "Thomas Edison, Henry Ford, and now their modern counterparts were able to create one breakthrough after another because they built innovation strategies around recombining existing technologies rather than inventing new ones." http://blogs.wsj.com/cio/2014/08/22/the-recombinant-nature-of-digital-innovations/ View in LinkedIn
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linkedin post 2020-04-15 05:54:55

linkedin post 2020-04-15 05:54:55

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ROBOTS THAT REPLICATE AND EVOLVE. "By supplying and removing ‘fuel strands’ that drive strand pairing and unpairing, it is possible to make molecular-scale machines that move, such as DNA ‘walkers’ that stride along guide strands. Eventually such DNA systems might be given the ability to replicate and evolve." http://philipball.blogspot.com.es/2014/06/programmable-matter-kicks-off.html View in LinkedIn
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linkedin post 2020-04-15 05:52:29

linkedin post 2020-04-15 05:52:29

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SELF-REPLICATING ROBOTS. "Self reconfiguring robotic systems are potentially more robust and more adaptive than conventional systems. The reconfiguration ability allows a robot or a group of robots to disassemble and reassemble machines to form new morphologies that are better suitable for new tasks, such as changing from a legged robot to a snake robot and then to a rolling robot." http://en.m.wikipedia.org/wiki/Self-Reconfiguring_Modular_Robotics View in LinkedIn
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linkedin post 2020-04-15 05:50:31

linkedin post 2020-04-15 05:50:31

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SELF-REPAIRING ROBOTS. "Beyond conventional actuation, sensing and control typically found in fixed-morphology robots, self-reconfiguring robots are also able to deliberately change their own shape by rearranging the connectivity of their parts, in order to adapt to new circumstances, perform new tasks, or recover from damage." http://en.m.wikipedia.org/wiki/Self-Reconfiguring_Modular_Robotics View in LinkedIn
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linkedin post 2020-04-15 05:49:02

linkedin post 2020-04-15 05:49:02

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ROBOTS THAT REPLICATE AND EVOLVE. "By supplying and removing ‘fuel strands’ that drive strand pairing and unpairing, it is possible to make molecular-scale machines that move, such as DNA ‘walkers’ that stride along guide strands. Eventually such DNA systems might be given the ability to replicate and evolve." http://philipball.blogspot.com.es/2014/06/programmable-matter-kicks-off.html View in LinkedIn
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