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Audio/PodcastOf Mice and Massage with Dr. Bo Ri SeoYou know those people who say you can’t change tissue? Well Wyss Postdoctoral Fellow Bo Ri Seo explains otherwise on this episode of BodyTalk. She is the lead writer on an exciting paper. Dr. Bo Ri Seo is a biomedical engineer who has been studying mechanobiology and mechanotherapy to develop therapeutic strategies for cancer and... -
Video/AnimationThe Human Mind and Gait ControlResearchers study how our brains adjust to changes in our walking strides, gaining insights that could be used to develop better physical rehabilitation programs. Credit: Wyss Institute -
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/AnimationOrigami-Inspired Artificial MusclesArtificial 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... -
Video/AnimationSoft Exosuit for RunningBuilding upon previous soft exosuit technology, researchers at the Wyss Institute and Harvard SEAS have developed a soft exosuit for running. This exosuit applies forces to the hip joint using thin, flexible wires, assisting the muscles during each stride. Using an off-board actuation system, compared to not wearing the exosuit, this exosuit can reduce the... -
Video/AnimationRoboBee: From Aerial to AquaticThe RoboBee is a miniature robot that has long been able to fly. But what if the RoboBee lands in water? Using a modified flapping technique, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences and the Wyss Institute for Biologically Inspired Engineering at Harvard University have demonstrated that the RoboBee... -
Video/AnimationRoboBee: Controlled flight of a robotic insectInspired by the biology of a fly, with submillimeter-scale anatomy and two wafer-thin wings that flap at 120 times per second, robotic insects, or RoboBees, achieve vertical takeoff, hovering, and steering. The tiny robots flap their wings using piezoelectric actuators — strips of ceramic that expand and contract when an electric field is applied. Thin...