coondoggie writes "Scientists at DARPA say there are some 1,300 satellites worth over $300B sitting out in Earth's geostationary orbit (GEO) that could be retrofitted or harvested for new communications roles and it designed a program called Phoenix which it says would use a squadron 'satlets' and a larger tender craft to grab out-of-commission satellites and retrofit or retrieve them for parts or reuse." This program incorporates a design challenge aspect, in which various teams compete to design systems to effect the actual capture. From the article: "In the Zero Robotics challenge, three finalist teams emerged from a series of four, one-week qualifying rounds: "y0b0tics!" (Montclair, NJ); "The Catcher in the Skye" (Sparta, NJ); and "Nitro" (Eagleville, PA). Then in June the teams gathered at the Massachusetts Institute of Technology to watch via video link as their algorithms were tested on board the ISS, DARPA said. The algorithms were applied across three situations in which the SPHERES satellite simulated an active spacecraft approaching an object tumbling through space. In each scenario, at least one of the teams was able to approach the tumbling target and remain synchronized within the predefined capture region, DARPA said."
Sign up for the Slashdot Daily Newsletter! DEAL: For $25 - Add A Second Phone Number To Your Smartphone for life! Use promo code SLASHDOT25. ×
An anonymous reader writes "AgigaTech appears to be the first company to produce a non-volatile SDRAM DIMM — an SDRAM memory module that retains its contents even without power supply. The modules combine DDR2/3 SDRAM with NAND Flash as well as a data transfer controller and an ultracapacitor-based power source to support a data transfer from the SDRAM to Flash and vice versa. If this memory makes it into production, this is something that I instantly will want and will stand in line for."
First the spec, and now the hardware: MrSeb writes "After five years of trying to convince us that 3D TVs are the future, it seems TV makers are finally ready to move on — to 4K UHDTV. At the IFA consumer electronics show in Berlin, Sony, Toshiba, and LG are all showing off 84-inch 4K (3840×2160) TVs. These aren't just vaporware, either: LG's TV is on sale now in Korea (and later this month in the US), Sony's is due later this year, and Toshiba will follow in the new year. Be warned, though: all three will cost more than $20,000 when they go on sale in the US — oh, and there's still no 4K Blu-ray spec, and no such thing as 4K broadcast TV. In other display-related news, Panasonic is showing off a humongous 145-inch 8K (7680x4320) plasma TV, and some cute 20-inch 4K displays — but unfortunately neither are likely to find their way to your living room or office in the near future."
An anonymous reader writes "I live in the Middle East. Summer temperatures occasionally reach 60C/140F, well over the operating specs for most consumer tech. Quite a number of work and residential compounds are secured, prohibiting everything from computers to cameras to phones to USB sticks to car remote controls. When I know that I'm visiting one of those compounds, I end up leaving all the tech I can at home or in the office, and only bringing a cell phone, and leaving it in my car. However, "only a cell phone" has quickly morphed into "only two cell phones, a car MP3 player and remote, and .... ooh, shiny... a new tablet... and an electric razor just in case I have to touch up before a party in a compound." I'm wondering what kind of technologies we have for keeping all this tech cool for four hours in the car. Overnight events might last longer, but won't be as hot."
MrSeb writes with news on work toward flexible batteries good enough for Real World use (you have to power those flexible electrionics somehow). From the article: "LG Chem ... has devised a cable-type lithium-ion battery that's just a few millimeters in diameter, and is flexible enough to be tied in knots, worn as a bracelet, or woven into textiles. The underlying chemistry of the cable-type battery is the same as the lithium-ion battery in your smartphone or laptop — there's an anode, a lithium cobalt oxide (LCO) cathode, an electrolyte — but instead of being laminated together in layers, they're twisted into a hollow, flexible, spring-like helix. flexible batteries have been created before — but they've all just standard, flat, laminated batteries made from sub-optimum materials, such as polymers. As such, as they have very low energy density, and they're only bendy in the same way that a thin sheet of plastic is bendy. LG Chem's cable-type batteries have the same voltage and energy density as your smartphone battery — but they're thin and highly flexible to boot. LG Chem has already powered an iPod Shuffle for 10 hours using a knotted 25cm length of cable-type battery." Original paper (Extreme Tech claims it is paywalled, but it looks like it's not). The hollow core seems to be the key: "Moreover, a nonhollow anode proved to have serious problems with penetration of the electrolyte into the essential cell components such as the separator and active materials ... However, we were able to overcome these drawbacks by devising a unique architecture comprising a skeleton frame surrounding an empty space, that is, a hollow-spiral anode with a multi-helix structure This design enables easy wetting of the battery components with the electrolyte and the hollow space allows the device to compensate for any external mechanical distortion while maintaining its structural integrity. In addition, this helical architecture possibly enables the battery to be more flexible, owing to its similarity to a spring-like structure."
andy5555 writes "I am hardcore Unix (and recently storage) fan responsible for our server department. Most of the servers run (you guessed it) different types of Unix. For quite a long time, Windows servers played very little role, but sometimes we get applications from our business departments which run only under Windows. So it seems that we have to take it seriously and hire a few Windows fans who would be able to take care of the (still small but growing) number of Windows servers. Since I am Unix fan, I have very little knowledge of Windows (some of my teammates may have more, but we are not experts). If I have to hire such a person I would like to find someone who is passionate about Windows. It is easy for me to recognize a Windows fan, but I don't know how to test his/her knowledge. There are some sites with typical Windows interview questions, but everybody can read them and prepare. How would you recommend the hiring process to proceed? What should I ask?"
MojoKid writes "Intel has selected Integrated Device Technology (IDT) to develop an integrated transmitter and receiver chipset for the company's Wireless Charging Technology (WCT) based on magnetic resonance technology, it was announced [Wednesday]. The technology won't require you to plop your smartphone or other gear on a special charging mat (based on inductive charging), but you will be able to wirelessly charge your devices from an equipped device like a notebook. In addition, magnetic resonance charging is significantly more efficient than previous generation inductive technologies and it produces less heat build up in the process. Intel didn't say when WCT will appear in shipping products, but promised to update plans and timelines at a later date."
toygeek writes "Babies, as you may have noticed if you own one, like to get into all sorts of mischief, and studies show that exploring and interacting with the world is important for cognitive development. Babies who can't move around as well may not develop at the same rate as babies who can, which is why researchers from Ithaca College in New York are working on a way to fuse babies with robots to give mobility to all babies, even those with conditions that may delay independent mobility, like Down syndrome, spina bifida, or cerebral palsy."
Nerval's Lobster writes "EMC president and incoming VMware chief executive Pat Gelsinger most likely shot down any hope that the company's storage arrays would be built around the ARM architecture. Gelsinger, who also helped orchestrate the VMworld show in San Francisco this week, presented an Aug. 29 keynote at the Hot Chips conference in Cupertino, Calif. Afterward, an audience member told Gelsinger that as many as 25 percent of all servers could be shipped around the low-power ARM architecture, then asked if Gelsinger agreed with that estimate. EMC previously shifted its product lines to Intel processors. Gelsinger told the audience member that the situation is unlikely to change, even if ARM could deliver workloads at a fraction of the power of an X86 chip."
An anonymous reader writes with this excerpt from geek.com: "Amazon has released a rather bizarre bit of news today. The Kindle Fire has completely sold out. You can no longer buy one, and the wording of the press release suggests there won't be any more manufactured. In nine months on sale Amazon claims to have secured 22 percent of tablet sales in the U.S.. With that in mind, Amazon will definitely be selling more Kindle Fires, however, the next one you'll be able to buy will probably have a '2' at the end of the name. Jeff Bezos said that the Kindle Fire is Amazon's most successful product launch so far and that there's 'an exciting roadmap ahead.' He also confirmed Amazon will continue to offer hardware, but there's no detail beyond that." Also covered on Slashcloud.
cylonlover writes "While still impressive, the capabilities of early 'tricorders,' such as the Scanadu and Dr Jansen's tricorder, fall well short of the Star Trek device that inspired them. But a new miniaturized version of a flow cytometer called the Microflow to be tested on the International Space Station (ISS) brings the age of instant diagnosis of medical conditions using a portable device a step closer. The Microflow could also make its way into doctor's offices here on Earth where it might help cut down on the number of follow up visits required after waiting to get results back from the lab."
MrSeb writes "Bioengineers at Harvard University have created the first examples of cyborg tissue: Neurons, heart cells, muscle, and blood vessels that are interwoven by nanowires and transistors. These cyborg tissues are half living cells, half electronics. As far as the cells are concerned, they're just normal cells that behave normally — but the electronic side actually acts as a sensor network, allowing a computer to interface directly with the cells. In the case of cyborg heart tissue, the researchers have already used the embedded nanowires to measure the contractions (heart rate) of the cells. So far, the researchers have only used the nanoelectric scaffolds to read data from the cells — but according to lead researcher Charles Lieber, the next step is to find a way of talking to the individual cells, to 'wire up tissue and communicate with it in the same way a biological system does.' Suffice it to say, if you can use a digital computer to read and write data to your body's cells, there are some awesome applications."
An anonymous reader writes "A roundtable at the Bulletin of the Atomic Sciences explores the notion of nuclear fuel banks which would offer nations a guaranteed supply of low-enriched uranium if they renounce the right to enrich on their own. From the article: 'The basic idea behind an international fuel bank is that it would, in a reliable and nondiscriminatory way, make emergency supplies of market-priced low-enriched uranium available to states that sign up to participate. States that opt for membership in a fuel bank would gain increased confidence that their access to reactor-grade fuel would not be interrupted. In return, they would renounce the right to enrich uranium and reprocess spent fuel on their own. Such an arrangement could be appropriate for a number of states. But for others, it might be less than ideal.'"
MrSeb writes "Today Samsung joined Nikon in announcing an Android-powered camera. The Samsung Galaxy Camera weighs 305g, features a 16-megapixel CMOS sensor, 21x super zoom lens, a quad-core 1.4GHz SoC (probably Exynos 4), 8GB of internal storage, and runs Android 4.1 Jelly Bean. This compares with the Nikon S800c which also has a 16MP CMOS sensor, along with a 7x zoom f/2 lens and runs Android 2.3 Gingerbread. Since neither unit has shipped, we don't know anything yet about how good they are as cameras, but we do know that the companies are trying to regain some of the ground they've lost to smartphones by integrating sharing right into their cameras. For photographers, there are a couple of critical questions about these new models: First is whether these cameras will have enough additional functionality to justify the added cost and weight when most people already have a serviceable camera in their phone. Second, and more importantly, there is still a big question mark hanging over Nikon and Samsung's long-term intentions for Android. If Android cameras are just standard point-and-shoots with a smartphone OS bolted on for sharing, that'll be a wasted opportunity. It would have been easier to create a camera that instantly tethered to a smartphone instead, and let the phone do all the work. There is an exciting possibility, if Nikon and Samsung do this correctly and allow low-level access to the camera functions via Android, to really unleash the power of Android to enable new photographic solutions." Samsung has also taken the wraps off the ATIV S, the first smartphone running Windows Phone 8. It has a 4.8" screen, NFC support, and a microSD card slot. Samsung plans to start shipping them in Q4.
scibri writes about robots helping neuroscientists dig into the brains of (animal) test subjects. From the article: "Robots designed to perform whole-cell patch-clamping, a difficult but powerful method that allows neuroscientists to access neurons' internal electrical workings, could make the tricky technique commonplace. Scientists from MIT have designed a robot that can record electrical currents in up to 4 neurons in the brains of anesthetized mice (abstract) at once, and they hope to extend it to up to 100 at a time. The robot finds its target on the basis of characteristic changes in the electrical environment near neurons. Then, the device nicks the cell's membrane and seals itself around the tiny hole to access the neuron's contents."