Thursday, December 04, 2014

The Navy's Smart New Stealth Anti-Ship Missile Can Plan Its Own Attack

Source: http://foxtrotalpha.jalopnik.com/the-navys-smart-new-stealth-anti-ship-missile-can-plan-1666079462/+kcampbelldollaghan

The Navy's Smart New Stealth Anti-Ship Missile Can Plan Its Own Attack

America's primary anti-ship missile, the Harpoon, has been in service now for close to 40 years and the Navy has been very reluctant to evolve when it comes to its anti-ship capabilities. Times are changing, with China's Navy on the rise and Russia flexing its muscle, the Cold War staple just won't do. Enter Lockheed's ninja-like Long Range Anti-Ship Missile to save the day.

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The FXX K hybrid supercar is LaFerrari's more powerful sibling

Source: http://www.engadget.com/2014/12/04/ferrari-fxx-k-laferrari-hybrid/

LaFerrari was already a beast, but the folks in Maranello wanted to make an even more aggressive hybrid -- thus, the FXX K was born. This supercar boasts an 848HP V12 engine (its predecessor has a 789HP one) and an electric motor that can generate 187HP (up from the LaFerrari's 160HP). The newer supercar inherited its older sibling's kinetic energy recovery system (KERS) that stores energy harnessed from braking. But it was redesigned from the original FXX to be more aerodynamic, with a higher tail section and new components to lessen drag. Bad news is, even if you're willing to empty your bank account, you can't exactly get one.

See, the hypercar was named as such, because it's part of Ferrari's XX Program, which allows the uber rich to drive the brand's experimental vehicles in exchange for major bucks. They can only do so on company-approved tracks, though, and they can't take the sweet, sweet hypercars home. Ferrari can get direct input from some of its top customers that way and use those suggestions to improve its other models. As for the K in its name, well, that came from its KERS capability, as you might have guessed. If you're in Abu Dhabi this coming weekend, you can at least see this "FXX on steroids" in person at the company's Finali Mondiali event, where it will be officially launched.

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Via: Autoblog

Source: Ferrari

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Hacked hearing aids produce stellar ambient tunes from WiFi signals

Source: http://www.engadget.com/2014/12/03/ambient-noise-hearing-aid-wifi-signals/

What if we could hear the numerous invisible data frequencies that swirl around us every day? That's exactly what a project from hearing-impaired writer Frank Swain and artist Daniel Jones aims to do. Phantom Terrains is the proper name of the effort, and by hacking Swain's Bluetooth-enabled hearing aids, the duo has transformed WiFi signals into ambient sounds. So instead of seeing the device as a prosthetic, it's used as a sort of super power. The modification allows him to stroll around and listen to the range of tones electromagnetic signals provide -- like the pattern of a network's security parameters. And of course, no one else nearby can pick them up.

"The project challenges the notion of assistive hearing technology as a prosthetic, re-imagining it as an enhancement that can surpass the ability of normal human hearing," the pair's website explains. "By using an audio interface to communicate data feeds rather than a visual one, Phantom Terrains explores hearing as a platform for augmented reality that can immerse us in continuous, dynamic streams of data." With plenty of invisible signals floating around, there's no end to the amount of data that's ripe for this sort of transformation. And thanks to designer Stefanie Posavec, detailed maps of signal data along the way make for quite the interesting visual compliment.

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Via: Wired

Source: Phantom Terrains

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Scientist's new rewriteable 'paper' is actually made of glass or plastic

Source: http://www.engadget.com/2014/12/04/rewritable-paper-yes-really/

If you ask us, the idea of rewritable paper seems pretty redundant no matter how high-tech it is. Apparently that didn't cross the mind of scientists at the University of California, Riverside. See, that's where Yadong Yin and his colleagues are using special color-switching dyes (called "redox") and an ultra-violet light to put text on a physical medium. In this case, that's a glass or plastic film like the tile above. The school says that these can be rewritten some 20 times without a significant loss in contrast or resolution, and could presumably replace the dead trees we're used to printing documents on. At this point, you're probably wondering how you erase the old text off, and that's fair -- even your favorite rubber pencil-cap won't do a thing here.

Apparently, all wiping the surface clean takes is throwing some heat at it. Yin and crew are working to bring the efficiency up to 100 rewrites, extend the text's lifespan beyond its current three-day mortality as well as developing a paper version. And no, this wasn't funded by Sony: the United States Department of Energy picked up the tab.

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Via: UPI

Source: University of California, Nature Communications

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Light-bending silicon strips are the key to super-fast computers

Source: http://www.engadget.com/2014/12/04/stanford-light-bending-silicon/

Stanford University's light-bending silicon strips

No, that's not a barcode you're looking at -- instead, it's the likely future of computing. Stanford University researchers have developed an optical link that uses silicon strips to bend light at right angles, which future processors will likely need to transmit data at super-fast speeds. The key, as you might have gathered, is the series of gaps. When light hits the device, the combination of those gaps and silicon sends different wavelengths left and right. You're not limited to specific light bands or directions, either; you can use an algorithm to design the link you need within a matter of minutes.

The technology is still young, but it's designed to be compatible with existing fiber optic networks and could theoretically improve transfers on high-capacity data lines (such as internet backbones) in ways that aren't possible with conventional optics. However, that's just the start. Stanford's dream is to develop photonic computer chips that replace "slow" electrical connections with much quicker, light-based pathways. You need more than just optical links to make that happen, but they're an important piece in the puzzle. You'll know who to thank if you eventually buy a photonic PC or phone that leaves your current hardware in the dust.

[Image credit: Vuckovic Lab]

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Source: Stanford, Nature

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