81 Results for 'Bioinspired Robotics'
milliDelta: Millimeter-Scale Delta Robot
Delta robots are deployed in many industrial processes, including pick-and-place assemblies, machining, welding, and food packaging. Three individually controlled lightweight arms enable fast and accurate motion of an output platform in three directions. Roboticists have reduced the size of Delta robots for tasks in limited workspaces, but so far, using conventional manufacturing techniques and components,...
HAMR: Versatile Crawling Microrobot
Small or difficult-to-access spaces such as areas covered with rubble, or narrow pipes and engines can pose obstacles to search-and-rescue missions, repair works, or environmental and industrial monitoring. One solution for these problems could be small-sized robots that are able to navigate such spaces, transport payload, sense, and communicate. Wyss Institute researchers have developed a...
Root: Educational Robot for Coding
Computing is currently the fastest growing segment in the STEM fields, yet education in this area has lagged behind technological progress and demand. One of the main challenges in teaching K-16 coding is the difficulty in finding frameworks that span a wide age range and appeal to broad audiences. Databases aren’t something that excite most...
Programmable Robot Swarms
Collective behaviors enable animals like ants to achieve remarkable, colony-level feats through the distributed actions of millions of independent agents. These collective behaviors are inspiring engineers at the Wyss Institute to build simple mobile robots that harness the demonstrated power of the swarm, performing collective tasks like transporting large objects or autonomously building human-scale structures....
RoboBees: Autonomous Flying Microrobots
Inspired by the biology of a bee, researchers at the Wyss Institute are developing RoboBees, manmade systems that could perform myriad roles in agriculture or disaster relief. A RoboBee measures about half the size of a paper clip, weighs less that one-tenth of a gram, and flies using “artificial muscles” compromised of materials that contract when...
Pop-Up MEMS: Origami-Inspired Micromanufacturing
Recent decades have seen rapid development in the manufacture of microelectromechanical systems (MEMS) at the micrometer scale, mostly based on silicon wafer processing techniques, with characteristic length scales of millimeters to nanometers. However, standard MEMS techniques are often inappropriate for producing machines with complex 3D topologies and varied constituent materials at the mesoscale, at sizes...
May 16, 2018, 6:30pm - 7:30pm
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Rob Wood Wyss Founding Core Faculty and Co-Lead Bioinspired Robotics, will present a talk at Le Laboratoire Cambridge titled, The Mechanical Side of Artificial Intelligence. The talk will take place on Wednesday, May 16, 2018. Doors open at 6pm / talk begins at 6:30pm. Space is limited, please RSVP to secure your attendance. We hope... Free and open to public
Video/AnimationHip-only Soft Exosuit for both Walking and RunningThis video demonstrates the use of the hip-assisting exosuit in different natural environments, and shows how the robotic device senses changes in the gait-specific vertical movements of the center of mass during walking and running to rapidly adjust its actuation. Credit: Wyss Institute at Harvard University
Video/AnimationTension PistonsThe Tension Piston, developed at the Wyss Institute and MIT CSAIL, amplifies piston force and increases energy efficiency by using flexible materials to transmit fluid-induced tension. The Tension Piston is able to produce substantially greater force compared to a conventional piston at the same driving pressure. Tension Pistons can be used in pumps, engines, compressors,...
Video/AnimationRomu: A Robot for Environmental ProtectionResearchers at the Wyss Institute have developed a robot designed to drive interlocking sheet piles into the ground to help stabilize soil. Teams of such robots could help combat erosion, restore damaged landscapes, and facilitate sustainable land management in a variety of settings. Credit: Wyss Institute at Harvard
Video/AnimationHAMR-E: Inverted and Vertical Climbing MicrorobotHAMR-E, created in collaboration with Rolls-Royce, is a micro-robot that uses electroadhesion to scale vertical, inverted, and curved surfaces, allowing it to explore spaces that are too small for humans. HAMR-E could one day be used to inspect jet engines and other complicated machines without requiring them to be taken apart. Credit: Wyss Institute at...
Video/AnimationHAMR: Robotic Cockroach for Underwater ExplorationsThis video shows how the HAMR can transition from land to water, paddle on the surface of water, or sink to the ground to start walking again just as it would on dry land. Credit: Yufeng Chen, Neel Doshi, and Benjamin Goldberg/Harvard University
Video/AnimationMeet HAMR, the Cockroach-Inspired RobotThe Harvard Ambulatory Microrobot - nicknamed HAMR - is a versatile robot that can run at high speeds, jump, climb, turn sharply, carry payloads and fall from great distances without being injured.