A tiny clam-like robot made out of DNA releases its drug payload only when it meets and identifies a cancer cell
From Engadget: Lehmann Aviation’s LFPV UAV packs GPS, autopilot, 11MP cam, 1080p video, yours for $2,352
Sure, an AR.Drone 2.0 will afford you 720p HD video recording in the skies for just 300 dollars, but how does 1080p with 11 megapixels of sensor sound in comparison? That’s exactly what Lehmann Aviation is offering on its new LFPV civil UAV. This $2,352 (1790€) kit is far less expensive than the company’s $17K LP960 from a few years back, but it certainly isn’t lacking in the drool inducing features department — and yes, it’ll capture straight up photographs, too. Apart from letting you conduct reconnaissance of your local strip mall, the LFPV packs a “live data connection” to keep you informed about its GPS coordinates and altitude, among others things, like how soon you’ll need to recharge. Better yet, it uses the same Ground Control System as Lehmann’s other flyers (perfect for when it’s time to upgrade), offering an 800 x 480 live video stream of your journey and total control of where you’re piloting the aircraft. Best of all, the LFPV even packs autopilot if you need to take a break from the controls . We’d be remiss not to point out Eye3’s $999 bring-your-own-camera hexicopter for those already equipped with a beefy ILC shooter, but if the LFPV is right up (or over) your alley, you’ll find a full press release and video just past the break.
from Engadget
From Coolest Gadgets: Continuance Batteries – Give AND Take via USB
We’ve all been there, completely immersed in a long involved phone call and you hear the dreaded battery-beep. “Are you getting another call?†asks the person on the other end. “No, my battery is going dead.†and then you look around frantically, hoping that by some stretch of luck an electrical outlet will magically appear… and more often than not, it never does. You inform the other party that you are going to lose them, defeated, and ashamed.
Well here is a concept that I really hope comes to pass, The Continuance Battery — designed by Haimo Bao, Hailong Piao, Yuancheng Liu and Xiameng Hu, this rather ordinary looking AA battery isn’t so ordinary after all. Not only is it an earth friendly rechargeable battery that can traditionally power any AA hungry device, but it is charged via USB AND has the ability to add some emergency power to any device that can be charged via USB as well!
“Can you hear me now?†Anyway, it’s only a concept at the moment, but it seems like one of those ideas that could change lots of things, and it would certainly be easy to rotate out a spare Continuance battery in my glove compartment or purse and always have an extra bit of juice when I need it. I don’t know how many times I’ve been searching for a free outlet in a restaurant or movie theater. I don’t often venture into the wilderness, but I guess it would be handy there too!
There has been some discussion about higher discharge rates and lower capacity due to the extra circutry, Blah blah blah, I’m not sure I understand most of it, my electronics knowledge barely extends past a rousing game of “Operation†but I sure hope these guys can figure it out, because I need a few dozen.
from Coolest Gadgets
From Engadget: GE turns butterfly-inspired tech into cheap, accurate thermal sensors
When last we heard from GE and its Morpho-butterfly inspired sensors, all the talk was about detecting chemicals. And, with $6.3 million in funding coming from DARPA, we’re not surprised. In the latest issue of Nature Photonics, however, the company’s researchers show that the wing-like structures are just as good at detecting heat as they are ricin attacks. By coating them with carbon nanotubes the team was able to create a sensor sensitive to temperature changes as small as 0.02 degrees Celsius with a response rate of 1/40 of a second. The sensors could eventually find their way into imaging devices and medical equipment, and are expected to cost just a fraction of similar technologies currently on the market. Of course, since DARPA is still involved with the project, there are some potential security uses as well — such as screening devices and fire detection. Head after the break for a video and some PR.
Continue reading GE turns butterfly-inspired tech into cheap, accurate thermal sensors (video)
from Engadget
From Tech Review: Cancer Breath Test Enters Clinical Trials
Even if it’s only for lung cancer, this is huge if proven successful!!!
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A startup says its test can distinguish between subtypes of lung cancer.
Someday soon a breath test could do more than just tell if you’ve been drinking. Metabolomx, a startup in Mountain View, California, recently completed a clinical trial that shows that its breath test can spot lung cancer with 83 percent accuracy and can also distinguish between several different types of the disease, something that usually requires a biopsy. The accuracy of the test matches what’s possible with low-dose computerized tomography imaging of the lungs.
from Tech Review
From Popular Science: Machine Can Tell If Plants’ Genes Are Modified By Watching Them Grow
Germinating Seedlings Phytomorph
Watching a plant grow and develop roots can be as tedious as … watching a plant grow. But seeing plant development as it unfolds can expose just what happens to a genetically modified organism, and how certain gene expressions can make plants do certain things. Robotic cameras and machine-vision algorithms are making the process easier.
Plant physiologist Edgar Spalding at the University of Wisconsin-Madison creates time-lapse movies of plant root growth in action. A 2,300-pound, 6-foot-high robotic camera rig snaps pictures every 30 seconds, capturing the curling, twisting motion of germinating seeds putting out new roots. The National Science Foundation, which funds Spalding’s lab, paid a visit and got a tour.
Genetically modifying a seed is a complex process on its own, but plant biologists also need to study the physical changes, comparing how genetically modified plants grow in relation to their wild-type brethren. This can take quite some time, so Spalding’s lab focuses on building high-throughput data analysis tools, including the camera and specialized algorithms.
Like other plant research labs, the Phytomorph lab is an impressively high-tech operation, with the research subject lending a greenhouse-like casual air. Tiny plants germinate and rotate their root systems in petri dishes inside a Plexiglas wall that resembles a giant Connect Four game. Each plant grows under white LEDs, and infrared LEDs are used to illuminate the CCD imager on the robotic camera.
Computer vision algorithms study the camera’s time-lapse videos and measure the sizes of seeds, plants’ cellular growth rates, the angle and curvature of the roots, and more.
The main goal is to study how genes function, according to the NSF. The Phytomorph program has led to some new insights about how plant roots grow, including how they grow facing down, growing with gravity. All of this could be useful in pinpointing genes that botanists and plant biotechnologists would want to exploit, creating plants with tougher roots, or roots that could more easily seek out water and nutrients.
“It lays the foundation for discoveries that will help improve plants for human purposes,” Spalding told the NSF.
from Popular Science
From Popular Science: The Boy Who Played With Fusion
Love this story! Hope he brings good science to US!
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Standout Taylor Wilson moved to suburban Reno with his parents, Kenneth and Tiffany, and his brother Joey to attend Davidson Academy, a school for gifted students. Bryce Duffy
Taylor Wilson always dreamed of creating a star. Now he’s become one
“Propulsion,” the nine-year-old says as he leads his dad through the gates of the U.S. Space and Rocket Center in Huntsville, Alabama. “I just want to see the propulsion stuff.”
A young woman guides their group toward a full-scale replica of the massive Saturn V rocket that brought America to the moon. As they duck under the exhaust nozzles, Kenneth Wilson glances at his awestruck boy and feels his burden beginning to lighten. For a few minutes, at least, someone else will feed his son’s boundless appetite for knowledge.
Then Taylor raises his hand, not with a question but an answer. He knows what makes this thing, the biggest rocket ever launched, go up. And he wants-no, he obviously needs-to tell everyone about it, about how speed relates to exhaust velocity and dynamic mass, about payload ratios, about the pros and cons of liquid versus solid fuel. The tour guide takes a step back, yielding the floor to this slender kid with a deep-Arkansas drawl, pouring out a torrent of Ph.D.-level concepts as if there might not be enough seconds in the day to blurt it all out. The other adults take a step back too, perhaps jolted off balance by the incongruities of age and audacity, intelligence and exuberance.
As the guide runs off to fetch the center’s director-You gotta see this kid!-Kenneth feels the weight coming down on him again. What he doesn’t understand just yet is that he will come to look back on these days as the uncomplicated ones, when his scary-smart son was into simple things, like rocket science.
This is before Taylor would transform the family’s garage into a mysterious, glow-in-the-dark cache of rocks and metals and liquids with unimaginable powers. Before he would conceive, in a series of unlikely epiphanies, new ways to use neutrons to confront some of the biggest challenges of our time: cancer and nuclear terrorism. Before he would build a reactor that could hurl atoms together in a 500-million-degree plasma core-becoming, at 14, the youngest individual on Earth to achieve nuclear fusion.
From the backseat, I can see Taylor’s gull-like profile, his forehead plunging from under his sandy blond bangs and continuing, in an almost unwavering line, along his prominent nose. His thinness gives him a wraithlike appearance, but when he’s lit up about something (as he is most waking moments), he does not seem frail. He has spent the past hour-the past few days, really-talking, analyzing, and breathlessly evangelizing about nuclear energy. We’ve gone back to the big bang and forward to mutually assured destruction and nuclear winter. In between are fission and fusion, Einstein and Oppenheimer, Chernobyl and Fukushima, matter and antimatter.
“Where does it come from?” Kenneth and his wife, Tiffany, have asked themselves many times. Kenneth is a Coca-Cola bottler, a skier, an ex-football player. Tiffany is a yoga instructor. “Neither of us knows a dang thing about science,” Kenneth says.
” Looking up, the neighbors watched as a small mushroom cloud rose, unsettlingly, over the Wilsons’ yard.”Almost from the beginning, it was clear that the older of the Wilsons’ two sons would be a difficult child to keep on the ground. It started with his first, and most pedestrian, interest: construction. As a toddler in Texarkana, the family’s hometown, Taylor wanted nothing to do with toys. He played with real traffic cones, real barricades. At age four, he donned a fluorescent orange vest and hard hat and stood in front of the house, directing traffic. For his fifth birthday, he said, he wanted a crane. But when his parents brought him to a toy store, the boy saw it as an act of provocation. “No,” he yelled, stomping his foot. “I want a real one.”
This is about the time any other father might have put his own foot down. But Kenneth called a friend who owns a construction company, and on Taylor’s birthday a six-ton crane pulled up to the party. The kids sat on the operator’s lap and took turns at the controls, guiding the boom as it swung above the rooftops on Northern Hills Drive.
To the assembled parents, dressed in hard hats, the Wilsons’ parenting style must have appeared curiously indulgent. In a few years, as Taylor began to get into some supremely dangerous stuff, it would seem perilously laissez-faire. But their approach to child rearing is, in fact, uncommonly intentional. “We want to help our children figure out who they are,” Kenneth says, “and then do everything we can to help them nurture that.”
At 10, Taylor hung a periodic table of the elements in his room. Within a week he memorized all the atomic numbers, masses and melting points. At the family’s Thanksgiving gathering, the boy appeared wearing a monogrammed lab coat and armed with a handful of medical lancets. He announced that he’d be drawing blood from everyone, for “comparative genetic experiments” in the laboratory he had set up in his maternal grandmother’s garage. Each member of the extended family duly offered a finger to be pricked.
The next summer, Taylor invited everyone out to the backyard, where he dramatically held up a pill bottle packed with a mixture of sugar and stump remover (potassium nitrate) that he’d discovered in the garage. He set the bottle down and, with a showman’s flourish, ignited the fuse that poked out of the top. What happened next was not the firecracker’s bang
everyone expected, but a thunderous blast that brought panicked neighbors running from their houses. Looking up, they watched as a small mushroom cloud rose, unsettlingly, over the Wilsons’ yard.
For his 11th birthday, Taylor’s grandmother took him to Books-A-Million, where he picked out The Radioactive Boy Scout, by Ken Silverstein. The book told the disquieting tale of David Hahn, a Michigan teenager who, in the mid-1990s, attempted to build a breeder reactor in a backyard shed. Taylor was so excited by the book that he read much of it aloud: the boy raiding smoke detectors for radioactive americium . . . the cobbled-together reactor . . . the Superfund team in hazmat suits hauling away the family’s contaminated belongings. Kenneth and Tiffany heard Hahn’s story as a cautionary tale. But Taylor, who had recently taken a particular interest in the bottom two rows of the periodic table-the highly radioactive elements-read it as a challenge. “Know what?” he said. “The things that kid was trying to do, I’m pretty sure I can actually do them.”
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from Popular Science