Tag: Robert Wood

  • Science & Tech

    Wielding a laser beam deep inside the body

    Robotic engineers from Harvard’s Wyss Institute and John A. Paulson School for Engineering and Applied Science have developed a laser-steering microrobot in a miniaturized 6 by 16 millimeter package that can be integrated with existing endoscopic tools.

    Endoscope
  • Campus & Community

    Need a book for a young person?

    Looking for a good book for a young person? Suggestions from Harvard community.

    Illustration of child with books
  • Campus & Community

    Recipe for a new Gen Ed course

    Harvard’s new Gen Ed courses tackle subjects from racial justice and philosophy to music and engineering.

    Robert Wood playing guitar
  • Science & Tech

    The RoboBee flies solo

    Several decades in the making, the Harvard Microbiotics Lab’s RoboBee made its first solo flight.

    To achieve untethered flight, the latest iteration of the Robobee underwent several important changes, including the addition of a second pair of wings.
  • Campus & Community

    Whew, that’s done!

    One of Harvard’s rites of passage is to write a thesis. Students and administrators talk about the process, the requirements, and the ordeal of undertaking an independent project that is unlike any other in students’ College years.

    David Shayne, from left, Juliana Rodriguez, and Trevor Levin, senior concentrators in Social Studies handed in their thesis on "Thesis Day."
  • Science & Tech

    Onward and upward, robots

    The first article in a series on cutting-edge research at Harvard explores advances in robotics.

  • Science & Tech

    Origami-inspired robot combines precision with speed

    A Harvard team has created the milliDelta robot, which can operate with high speed, force, and micrometer precision, making it ideal for retinal microsurgeries performed on the human eye.

    milliDelta robot next to penny
  • Science & Tech

    The first autonomous, entirely soft robot

    Developed by a team of Harvard researchers, the first autonomous, entirely soft robot is powered by a chemical reaction controlled by microfluidics. The 3-D-printed “octobot” has no electronics.

  • Science & Tech

    RoboBees can perch to save energy

    A RoboBee equipped with an electrode patch is supplied with a charge, allowing it to stick to almost any surface, from glass to wood to a leaf. The patch requires about 1,000 times less power to perch than it does to hover, extending the operational life of the robot.

  • Science & Tech

    Robotic insect mimics nature’s extreme moves

    A team of researchers from Harvard and Seoul National University has unveiled a novel robotic insect that can jump off the surface of water. In doing so, they have revealed new insights into the natural mechanics that allow water striders to jump from rigid ground or fluid water with the same amount of power and…

  • Science & Tech

    Cutting the cord on soft robots

    Researchers at Harvard’s School of Engineering and Applied Sciences and the Wyss Institute for Biologically Inspired Engineering have developed the world’s first untethered soft robot — a quadruped that can stand up and walk away from its designers.

  • Science & Tech

    ‘It was sort of a eureka moment’

    Harvard engineers demonstrated a novel engineering process by creating a self-assembling robot that folds up from a flat sheet of composite material and then walks away. The Gazette spoke with engineering Professor Robert Wood about the project.

  • Science & Tech

    Airmail, to your door

    Harvard engineering Professor Robert Wood lends his perspective to Amazon’s proposal to start a flying drone delivery service within a few years. His verdict is that FAA regulations and liability concerns will likely be bigger hurdles than the technology.

  • Science & Tech

    ‘Pop!’ goes the robot

    A production method inspired by children’s pop-up books enables rapid fabrication of tiny, complex devices. Devised by engineers at Harvard, the ingenious layering and folding process will enable the creation of a broad range of electromechanical devices.

  • Science & Tech

    Chips, efficient and fast

    Professor Gu-Yeon Wei explores energy-efficient computing devices that are fast but draw minimal power.

  • Science & Tech

    A marriage of origami and robotics

    A Harvard and MIT research team demonstrates how a single thin sheet composed of interconnected triangular sections can transform itself into another shape, without the help of skilled fingers, in a kind of origami robotics.