Showing posts with label robotics. Show all posts
Showing posts with label robotics. Show all posts
Tuesday, June 26, 2012
US military surveillance future: Drones now come in swarms?
A small insect or a mosquito over your ear may now be much more than simply annoying. Those could easily be micro drones which now come in a swarm of bug-sized flying spies.
In an effort to create a hard-to-detect surveillance drone that will operate with little or no direct human supervision in out of the way and adverse environments, researchers are mimicking nature.
The University of Pennsylvania GRASP Lab showed off a network of 20 nano-quad rotors capable of agile flight, which could swarm and navigate in an environment with obstacles.
This is another step away from bulky heavily armed aerial vehicles or humanoid robots to a much smaller level of tiny remote-control devices. While current drones lack manoeuvrability, can’t hover and move fast enough, these new devices will be able to land precisely and fly off again at speed. One day the military hope they may prove a crucial tactical advantage in wars and could even save lives in disasters. They can also be helpful inside caves and barricaded rooms to send back real-time intelligence about the people and weapons inside.
A report in NetworkWorld online news suggests the research is based on the mechanics of insects, which potentially can be reverse-engineered to design midget machines to scout battlefields and search for victims trapped in rubble.
In an attempt to create such a device, scientists have turned to flying creatures long ago, examining their perfect conditions for flight, which have evolved over millions of years.
Zoologist Richard Bomphrey has told the British Daily Mail newspaper he has conducted research to generate new insight into how insect wings have evolved over the last 350 million years.
“By learning those lessons, our findings will make it possible to aerodynamically engineer a new breed of surveillance vehicles that, because they are as small as insects and also fly like them, completely blend into their surroundings," the newspaper quotes him as saying.
The US Department of Defense has turned its attention to miniature drones, or micro air vehicles long ago.
As early as in 2007 the US government was accused of secretly developing robotic insect spies when anti-war protesters in the US saw some flying objects similar to dragonflies or little helicopters hovering above them. No government agency has admitted to developing insect-size spy drones though some official and private organizations have admitted that they were trying.
In 2008, the US Air Force showed off bug-sized spies as "tiny as bumblebees" that would not be detected when flying into buildings to "photograph, record, and even attack insurgents and terrorists."
The same year US government's military research agency (DARPA) conducted a symposium discussing 'bugs, bots, borgs and bio-weapons.'
Around the same time the so-called Ornithopter flying machine based on Leonardo Da Vinci’s designs was unveiled and claimed they would be ready for roll out by 2015
Lockheed Martin's Intelligent Robotics Laboratories unveiled "maple-seed-like" drones called Samarai that also mimic nature. US troops could throw them like a boomerang to see real-time images of what's around the next corner.
The US is not alone in miniaturizing drones that imitate nature: France, the Netherlands and Israel are also developing similar devices.
Wednesday, June 20, 2012
Robot 'Skin' Built With Touch Superior to Humans
By Stephanie Mlot
Robots may not have a sense of emotional feeling, but thanks to researchers at the University of Southern California's Viterbi School of Engineering, they may soon have the gift of physical feeling.
With the right sensors, actuators, and software, robots can be given the ability to feel, or at least identify materials by touch, the school said.
Researchers today published a study in Frontiers in Neurorobotics said said a specially designed robot built to mimic the human fingertip can actually outperform a living person in identifying a wide range of materials, based on textures.
Biomedical Engineering Professor Gerald Loeb and recently graduated doctoral student Jeremy Fishel created the BioTac, a biologically inspired tactile sensor. With their new technology, the researchers explored the robot hand's ability to distinguish 117 common materials gathered from fabric, stationary, and hardware stores. The robot's 99.6 percent performance rate in correctly discriminating pairs of similar textures was better than most humans would test, according to researchers.
While the machine is good at identifying which textures are similar to each other, Loeb and Fishel said it still can't tell what textures people will prefer. Instead, success in the realm of touch-sensitive robotics could pave the way for advancements in prostheses, personal assistive robots, and consumer product testing, the university's press release said.
More than a one-trick robot, the machine is capable of other human sensations, like discerning where and in which direction forces are applied to the fingertip, and even the thermal properties of an object. Fingerprints on the surface of the BioTac sensor's soft, flexible "skin" enhance its sensitivity to vibration.
What's next —robot tear ducts? Or bionic ear drums?
In 2010, a team of researchers from Cornell University, the University of Chicago, and iRobot discovered a "universal gripper," built out of a balloon and coffee grinds. The basic-science concept enhanced the area of robotics, a University of Chicago physicist said at the time.
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