The Harvard Monolithic Bee is a millimeter-scale flapping wing robotic insect produced using Printed Circuit MEMS (PC-MEMS) techniques. This video describes the manufacturing process, including pop-up book inspired assembly. This work was funded by the NSF, the Wyss Institute, and the ASEE.
RHex is a six-legged robot with inherently high mobility. Powerful, independently controlled legs produce specialized gaits that devour rough terrain with minimal operator input. RHex climbs in rock fields, mud, sand, vegetation, railroad tracks, telephone poles and up slopes and stairways.
AFTER buttoning up a lab coat, snapping on surgical gloves and spraying them with alcohol, I am deemed sanitary enough to view a robot’s control system up close. Without such precautions, any fungal spores on my skin could infect it. “We’ve had that happen. They just stop working and die off,” says Mark Hammond, the system’s creator.
This humanoid is the most human like design I have ever seen. It doesn’t walk, but it is focused on face design. Also it can move it’s arm and body.
Sand Flea is an 11-lb robot with one trick up its sleeve: Normally it drives like an RC car, but when it needs to it can jump 30 feet into the air. An onboard stabilization system keeps it oriented during flight to improve the view from the video uplink and to control landings. Current development of Sand Flea is funded by the The US Army’s Rapid Equipping Force. For more information visit www.BostonDynamics.com.
AIST has succeeded in making HRP-4C Miim walk like a human being. Her knees are stretched by up/down motion of the waist, the single-toe supporting realizes longer strides, and she mimics the swing motion of human legs.
This video shows three quadrocopters cooperatively tossing and catching a ball with the aid of an elastic net.