Tests of a modular snake robot in an Austrian nuclear power plant proved the multi-jointed robot with a camera on its head can crawl through a variety of steam pipes and connecting vessels, suggesting it could be a valuable inspection tool, report researchers at Carnegie Mellon University's Robotics Institute.
Stanford mechanical engineering professor David Lentink and his students capture slow-motion video from the fastest wings in the bird world, with an eye toward building flying robots that take design cues from Mother Nature.
A team of researchers from the National University of Singapore’s (NUS) Department of Electrical & Computer Engineering has developed a robot fish that mimics the movements of a carp.
North Carolina State University researchers are using video game technology to remotely control cockroaches on autopilot, with a computer steering the cockroach through a controlled environment. The researchers are using the technology to track how roaches respond to the remote control, with the goal of developing ways that roaches on autopilot can be used to map dynamic environments – such as collapsed buildings.
Thanks to its legs, whose design faithfully reproduces feline morphology, EPFL’s four-legged “cheetah-cub robot” has the same advantages as its model: it is small, light and fast. Still in its experimental stage, the robot will serve as a platform for research in locomotion and biomechanics.
Rats and mice have long been a model for researchers aiming to understand the complex impact of alcohol and other substances of abuse on behavior and the brain’s reward systems. But now, a team at the Polytechnic Institute of New York University (NYU-Poly) has demonstrated a new method for such experiments that promises to yield large amounts of data quickly and consistently, thereby potentially reducing the number of live animals needed in research. The secret? Robotic fish.
John Innes Centre scientists will participate in new €2 million EU-funded research to programme more “intelligent” and adaptable robot swarms.
The Wyss Institute for Biologically Inspired Engineering at Harvard University announced today that Hansjörg Wyss (Harvard MBA, '65), the entrepreneur and philanthropist who enabled the Institute's creation in 2009 with a $125 million gift, has donated a second $125 million gift to the University to further advance the Institute's pioneering work.
Dr. Aaron Ames, assistant professor in the Department of Mechanical Engineering at Texas A&M University, is part of multi-university team that has received a $4 million grant from the National Science Foundation (NSF) to support research into cyber-physical systems (CPS).
The tail of a seahorse can be compressed to about half its size before permanent damage occurs, engineers at the University of California, San Diego, have found. The tail's exceptional flexibility is due to its structure, made up of bony, armored plates, which slide past each other.
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