The robots weigh less than a tenth as much as a paper clip
Scientists in the US have created a robot the size of a fly that is able to perform the agile manoeuvres of the ubiquitous insects.
This "robo-fly", built from carbon fibre, weighs a fraction of a gram and has super-fast electronic "muscles" to power its wings.
Its Harvard University developers say tiny robots like theirs may eventually be used in rescue operations.
It could, for example, navigate through tiny spaces in collapsed buildings.
The development is reported in the journal Science.
Lead researcher Kevin Ma from Harvard University says his team has made the world's smallest flying robot.
It also has the fly-like agility that allows the insects to evade even the swiftest of human efforts to swat them.
This comes largely from very precise wing movements.
By constantly adjusting the effect of lift and thrust acting on its body at an incredibly high speed, the insect and the robot's flapping wings enable it to hover almost motionless in the air or perform sudden evasive manoeuvres.
And just like a real fly, the robot's thin, flexible wings beat approximately 120 times every second.
The researchers achieved this wing speed with special piezoelectric material, which contracts every time a voltage is applied to it.
By very rapidly switching the voltage on and off, the scientists were able to make this material behave like just like the tiny muscles that makes a fly's wings beat so fast.
Continue reading the main storyFlapping and flying
As an insect's wings move through the air, they are held at a slight angle, deflecting the air downward.
This deflection means the air flows faster over the wing than underneath, causing air pressure to build up beneath the wings, while the pressure above the wings is reduced. It is this di?erence in pressure that produces lift.
Flapping creates an additional forward and upward force known as thrust, which counteracts the insect's weight and the "drag" of air resistance.
The downstroke or the flap is also called the "power stroke", as it provides the majority of the thrust. During this, the wing is angled downwards even more steeply.
You can imagine this stroke as a very brief downward dive through the air - it momentarily uses the weight of the animal's own weight in order to move forwards. But because the wings continue to generate lift, the creature remains airborne.
In each upstroke, the wing is slightly folded inwards to reduce resistance.
"We get it to contract and relax, like biological muscle," said Dr Ma.
The main goal of this research was to understand how insect flight works, rather than to build a useful robot.
"[But] a robotic insect stands as a tangible end goal to drive this research forward," Dr Ma told BBC News.
He added though that there could be many uses for such a diminutive flying vehicle.
"We could envision these robots being used for search-and-rescue operations to search for human survivors under collapsed buildings or [in] other hazardous environments," he said.
"They [could] be used for environmental monitoring, to be dispersed into a habitat to sense trace chemicals or other factors.
Dr Ma even suggested that the robots could behave like many real insects and assist with the pollination of crops, "to function as the now-struggling honeybee populations do in supporting agriculture around the world".
The current model of robo-fly is tethered to a small, off-board power source but Dr Ma says the next step will be to miniaturise the other bits of technology that will be needed to create a "fully wireless flying robot".
"It will be a few more years before full integration is possible," he said.
"Until then, this research project continues to be very captivating work because of its similarity to natural insects. It is a demonstration of how far human engineering ingenuity has reached, to be mimicking natural systems."
Source: http://www.bbc.co.uk/news/science-environment-22380287#sa-ns_mchannel=rss&ns_source=PublicRSS20-sa
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