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This page contains all of the posts and discussion on MemeStreams referencing the following web page: Robotic fly gets its buzz. You can find discussions on MemeStreams as you surf the web, even if you aren't a MemeStreams member, using the Threads Bookmarklet.

Robotic fly gets its buzz
by Jeremy at 11:26 pm EDT, Jun 6, 2002

Summary from ICT Today: The University of California in Berkeley has made a breakthrough in its programme to develop a robot fly weighing less than a paper clip which can leave the ground and hover in mid-air. Scientists have constructed a wing mechanism that can flap and rotate at 150 times a second.

Recent discoveries about the way flies use their wings have helped the project considerably. A real fly has a 'delayed stall' which enables the beating wings to have a high angle of attack and high lift at the same time. 'Wing rotation' at the bottom and top of the stroke gives the insect more lift, and 'wake capture' provides even more lift by swishing back through air it set in motion on the previous stroke. The scientists' version of the wing is made from polyester and a stainless steel strut that flaps and rotates. Still to come is a lightweight power source, a gyroscope to tell up from down, and a light sensor. A microprocessor with a small operating system has already been developed. Eventually it would carry sensors chosen for a specific use.


Robotic fly gets its buzz
by Decius at 7:36 pm EDT, Jun 7, 2002

Summary from ICT Today: The University of California in Berkeley has made a breakthrough in its programme to develop a robot fly weighing less than a paper clip which can leave the ground and hover in mid-air. Scientists have constructed a wing mechanism that can flap and rotate at 150 times a second.

Recent discoveries about the way flies use their wings have helped the project considerably. A real fly has a 'delayed stall' which enables the beating wings to have a high angle of attack and high lift at the same time. 'Wing rotation' at the bottom and top of the stroke gives the insect more lift, and 'wake capture' provides even more lift by swishing back through air it set in motion on the previous stroke. The scientists' version of the wing is made from polyester and a stainless steel strut that flaps and rotates. Still to come is a lightweight power source, a gyroscope to tell up from down, and a light sensor. A microprocessor with a small operating system has already been developed. Eventually it would carry sensors chosen for a specific use.

Big brother will be watching you...


 
 
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