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Researchers use ambient WiFi radio waves to see through walls
Seeing through walls hasn't been a super hero-exclusive activity for a while now. According to Popular Science, however, University College London researchers Karl Woodbridge and Kevin Chetty have created the first device that can detect movement through walls using existing WiFi signals. While similar tech has required a bevy of wireless nodes, the duo has pulled off the feat with a contraption roughly the size of a suit case. Much like radar, the device relies on the Doppler effect -- radio waves changing frequencies as they reflect off of moving objects -- to identify motion. Using a radio receiver with two antennas and a signal-processing unit, the system monitors the baseline WiFi frequency in an area for changes that would indicate movement. In tests, the gadget was able to determine a person's location, speed and direction through a foot-thick brick wall. The technology's potential applications range from domestic uses to scanning buildings during combat. Best of all, since the university's hardware doesn't emit any radio waves, it can't be detected. How's that for stealthy?
NASA's NuSTAR probe snaps first X-ray image of feeding black hole
It was Bret Easton Ellis who coined the phrase, "The better you look, the more you see," and it appears the folks down at NASA's Jet Propulsion Lab agree. In what's considered a "first," the agency's latest space-scouring probe, the Nuclear Spectroscopic Telescope Array, has turned on its X-ray vision to capture focused images of a black hole, dubbed Cygnus X-1, feeding on a nearby giant star. By tuning into these high-energy frequencies, scientists are getting a peek into a previously unseen side of the heavens at 100 times the sensitivity and 10 times the resolution of any preceding tech. The space agency plans to use the observatory's powerful sight to suss out other known areas of mass X-ray activity like 3C273, an active quasar located two billion light years away and even explore G21.5-0.9, the fallout from a supernova within the Milky Way galaxy. NuSTAR's first tour of galactic duty will span two year's time, during which it'll attempt to record imagery from "the most energetic objects in the universe, " as well as track the existence of black holes throughout the cosmos. Impressed? Yeah, us too.
Magic Mirror Kinect hack puts an x-ray spin on augmented reality
That's right -- not even CES can stop the endless wave of Kinect hacks. The latest, and one of the more impressive to date, is the so-called "Magic Mirror" developed by Tobias Blum from the Technical University of Munich, which bridges augmented reality with x-ray vision (of sorts). Of course, the "of sorts" is that it doesn't actually peer through your body to reveal your skeleton (yet), but instead maps a random skeleton from a CT scan onto your frame to create a real-time freakout. As with most Kinect hacks, this one is best seen on video -- check it out after the break.
Researchers create Amazing X-Ray Wireless Network!
Don't freak out or anything, but those wireless signals you bask in everyday could be watching you. Or at least they might, someday, if the work from a group of researchers at the University of Utah makes it beyond the lab. As Technology Review's Physics arXiv blog reports, they've devised a means to modify a standard 802.15.4 wireless network (commonly used by home automation services like ZigBee) to actually "see" movement through walls, and with some degree of accuracy, no less. As you might expect, however, that's not quite as simple as a firmware upgrade, and currently requires a 34-node network to keep watch on a standard living room, which is apparently enough to pin down moving objects within a meter or so. To do that, the system essentially bombards the space with an array of wireless signals and keeps watch on any changes in signal strength, building up a "picture" of the room in the process. No promises on a commercial version just yet, but the researchers see plenty of potential for it, and are even talking about a portable, GPS-equipped version that police or emergency responders could use before entering a dangerous area.
