No More Google Labs

Google's blog announced a surprising decision: Google Labs will be closed. It's not April Fools' Day, so it can't be a hoax.

"While we've learned a huge amount by launching very early prototypes in Labs, we believe that greater focus is crucial if we're to make the most of the extraordinary opportunities ahead. In many cases, this will mean ending Labs experiments — in others we'll incorporate Labs products and technologies into different product areas. And many of the Labs products that are Android apps today will continue to be available on Android Market," explains Google.

It's all about focus and prioritization, the same reasons why Google Health and Powermeter were discontinued last month. Google's CEO, Larry Page, says that Google will focus on the core products (search and ads), on the products that "enjoy high consumer success" (YouTube, Chrome, Android) and on some new products (Google+, Commerce, Local).

New MacBook Airs Get Hit With a Thunderbolt

Apple's brought both sizes of the MacBook Air line straight up to what you'd expect from a laptop in 2011, adding a Thunderbolt port, but more importantly some sweet Sandy Bridge i5 and i7 chips—and backlit keyboards.
The addition of the super-fast Thunderbolt port will future-proof any Thunderbolt-enabled gadgets you purchase in the future, and the backlit keyboard? Well, that's so bloggers can see in the night (in Apple keynotes).

11-inch Air

Three 11-inch models are now on offer, with the starting point being a model with 64GB storage, 2GB of RAM and 1.6GHz processor. The next model up has the same CPU speed, but doubles the RAM to 4GB, along with the storage to 128GB. Lastly, the custom model can be squeezed to an 1.8GHz processor, 4GB RAM and 256GB storage.

13-inch Air

Obviously, the real power belongs to the 13-inch models, with the base model coming with a 1.7GHz processor, 4GB RAM and 128GB storage, and the next level up providing much the same, only with 256GB of storage. The built-to-order model can be outfitted with a 1.8GHz chip.
The MacBook Air 11-inch model starts at $999 (for the 2GB RAM model) and $1199 (for the 4GB RAM model), with the 13-inch models coming in at $1299 (for the 4GB RAM and 128GB storage model) and $1599 for the 4GB RAM and 256GB storage model, with all models going on sale July 21st. If you're strongle considering buying one, Laptop mag has a review of the 11-incher and 13-incher here. [Apple]

CUPERTINO, California-July 20, 2011-Apple® today updated the MacBook Air® with next generation processors, high-speed Thunderbolt I/O technology, a backlit keyboard and Mac OS® X Lion, the world's most advanced operating system. With up to twice the performance of the previous generation, flash storage for instant-on responsiveness and a compact design so portable you can take it everywhere,* the MacBook Air starts at $999 (US) and is available for order today and in stores tomorrow.
"Portable, affordable and powerful, MacBook Air is the ultimate everyday notebook," said Philip Schiller, Apple's senior vice president of Worldwide Product Marketing. "MacBook Air features our most advanced technology and is an ideal match for Lion, especially with its new Multi-Touch gestures, full-screen apps, Mission Control and Mac App Store."
MacBook Air is available in 11-inch and 13-inch models that easily slip into a briefcase, purse or bag. The MacBook Air's durable aluminum unibody enclosure measures an incredibly thin 0.11-inches at its thinnest point and 0.68-inches at its thickest. Flash storage allows MacBook Air to turn on instantly and deliver fast data access, improved reliability and incredible energy efficiency. The 11-inch model weighs 2.38 pounds and provides up to 5 hours of battery life, while the 13-inch weighs 2.96 pounds and provides up to 7 hours of battery life.**
With the latest Intel Core i5 and Core i7 dual-core processors, the new MacBook Air is up to twice as fast as the previous generation and has all the power you need for editing photos and movies, making FaceTime® calls, playing games, and working with documents and presentations. MacBook Air also features Intel HD Graphics 3000 and offers up to 4GB of faster 1333 MHz memory.
Thunderbolt I/O technology provides expansion possibilities never before available to MacBook Air users. Through a single cable, users can connect to high performance peripherals and the new Apple Thunderbolt Display, the ultimate docking station for your Mac® notebook. Thunderbolt can easily be adapted to support legacy connections such as FireWire® and Gigabit Ethernet.
MacBook Air comes with a full size backlit keyboard and an innovative glass Multi-Touch™ trackpad. Designed for comfort and ease of typing, the backlit keyboard uses a sensor to automatically detect a change in ambient lighting and adjusts the keyboard brightness for any environment. The Multi-Touch trackpad supports Lion's new Multi-Touch gestures such as momentum scrolling, tapping or pinching your fingers to zoom in on a web page or image, and swiping left or right to turn a page or switch between full screen apps.
MacBook Air also features a brilliant, high resolution LED backlit display that is amazingly thin yet has the resolution of a much larger, bulkier screen. With ultra-fast Wi-Fi, you can wirelessly download apps from the Mac App Store™, get music and movies from iTunes®, back up data to Time Capsule® and quickly and easily share files using AirDrop. MacBook Air includes Bluetooth for wireless peripherals and two USB ports for easy connectivity for the wired and wireless devices you use every day.
Apple makes the industry's greenest notebook lineup and the new MacBook Air meets Energy Star 5.2 requirements and achieves EPEAT Gold status.*** Each unibody enclosure is made of highly recyclable aluminum and comes standard with energy efficient LED-backlit displays that are mercury-free and made with arsenic-free glass. Mac notebooks contain no brominated flame retardants, are PVC-free and are constructed of recyclable materials.
Every new MacBook Air comes with Mac OS X Lion, the eighth major release of the world's most advanced operating system, and iLife apps for creating and sharing great photos, movies and music. Lion introduces more than 250 new features to the Mac, including Multi-Touch gestures; system-wide support for full screen apps; Mission Control, an innovative view of everything running on your Mac; the Mac App Store, the best place to find and explore great software, built right into the OS; Launchpad, a new home for all your apps; and a completely redesigned Mail app.
Pricing & Availability
The 11-inch and 13-inch MacBook Air are available for order on the Apple Store® (www.apple.com) today and in Apple's retail stores and Apple Authorized Resellers starting July 21. The 1.6 GHz 11-inch MacBook Air is available in two models, one with 2GB of memory and 64GB of flash storage for a suggested retail price of $999 (US), and one with 4GB of memory and 128GB of flash storage for $1,199 (US). The 1.7 GHz 13-inch MacBook Air comes in two configurations, one with 4GB of memory and 128GB of flash storage for a suggested retail price of $1,299 (US), and one with 4GB of memory and 256GB of flash storage for $1,599 (US). Configure-to-order options and accessories include a 1.8 GHz Core i7 processor, additional flash storage, MacBook Air SuperDrive® and a USB Ethernet Adapter.
Additional technical specifications and configure-to-order options and accessories are available online at www.apple.com/macbookair.
*Testing conducted by Apple in July 2011 using preproduction MacBook Air configurations. For more information visit www.apple.com/macbookair/features.html.
**The new Wireless Web protocol testing was conducted by Apple in July 2011 using preproduction MacBook Air configurations. Battery life and charge cycles vary by use and settings. For more information visit www.apple.com/macbookair/features.html.
***EPEAT is an independent organization that helps customers compare the environmental performance of notebooks and desktops. For more information visit www.epeat.net.
Apple designs Macs, the best personal computers in the world, along with OS X, iLife, iWork and professional software. Apple leads the digital music revolution with its iPods and iTunes online store. Apple has reinvented the mobile phone with its revolutionary iPhone and App Store, and has recently introduced iPad 2 which is defining the future of mobile media and computing devices.

How to increase your laptop battery life

It is irritating to look for a power outlet to charge your laptop battery when you are on the move. Mobile computing has transformed in recent years with better materials, amazingly smaller chips and faster processors, although there isn’t much development in the pursuit of increasing laptop battery life. You must have had those unpleasant experiences of working on a project on your laptop, and your battery dies. Here are 15 some simple yet effective tips that will help you extract the maximum out of your laptop battery.

• 1. Always keep your computer in “stand by mode” when it is left idle for quite long time. To set the standby mode go to “control panel” , choose “power option” and select the “power scheme”, from there select the time you wish to wait until going for stand by.
• 2. Keep your network card disabled as computer uses lots of power to search networks.
• 3. Always close all the unnecessary programs as these also consume power.
• 4. Learn to control the programs that run from start up. You may not have any clue about these programs running in the background. Follow the start menu, click on “run” and type “msconfig” press “enter”. Now click the “start up tab” here select the program you wish to close and keep running.
• 5. Condition the batteries by completely draining it’s charge and then recharging it completely. Partially charging the battery reduces battery life.
• 6. Regularly deferment to arrange data, this results lesser time in fetching data from hard disk. You must know the quicker hard disk moves it consumes lesser power
• 7. If you aren’t going to use your battery for a while then charge them to 40% and keep them in a cool place. Lithium battery‘s average age is 2-3 years and with some care its life can be increased. A
• 8. Try to use updated softwares and new drivers as they tend to eat lesser battery.
• 9. Always use original adaptor with exact specification. Any mismatch could lead to over load and damaging battery.
• 10. Heat and temperature could cause battery damage slowly but surely, so never leave the laptop under direct sun , or in a closed car.
• 11. Pause the scheduled tasks when you aren’t sure about power supply. It may be a defrag or a virus scan, but always schedule them for a time when you are near a power outlet.
• 12. USB devices eat out a major chunk of battery power. Remove all the unused external devices like external mouse, Wi-Fi, external speakers, PC cards, Bluetooth and iPod.
• 13. Never leave CD/DVD in the drives, spinning drives drains power very fast.
• 14. Practice to desist DVD or any other external devices when battery is on; try to shift content to virtual drives like pismo file mount or virtual CDROM control panel or hard drive.
• 15. Well LCD screen is another big power drainer so set the brightness level to the lowest level possible for you to work on. This may not be necessary but I recommend you do this.

I hope you follow if not all, most of the tricks above and enjoy the battery life which you deserve.

New hunting technique to aid in search for Earth-like planets

The last time we did a story on extrasolar planets (or exoplanets) in October, 2009, there had been 374 planets outside our solar system discovered. As of June 28, 2010 that number had risen to 464. The numbers look set to get a further boost thanks to a new technique that allows planets – even down to the mass of the Earth – to be detected with relatively small diameter telescopes. For the first time, using the technique known as Transit Timing Variation (TTV), a team of astronomers from Germany, Bulgaria and Poland have discovered an exotic extrasolar planet with 15 times the mass of Earth in the system WASP-3, 700 light years from the Sun in the constellation of Lyra.

The vast majority of extrasolar planets have been discovered using the radial-velocity and transit methods. After originally being discovered with the radial-velocity method, in 1999 HD 209458 b became the first exoplanet to be seen with the transit method. The transit method involves observing the drop in the brightness of a star as a planet crosses (or transits) in front of it. The amount the star dims will depend on the size of the star and the size of the planet. This method is being deployed by the Kepler and Corot space missions in its search for planets similar to the Earth.

TTV was suggested as a technique for discovering planets years ago. Like the transit method, the new TTV approach is an indirect method. If a (typically large) planet is found, then the gravity of additional smaller planets will tug on the larger object, causing deviations in the regular cycle of transits. The TTV technique compares the deviations with predictions made by extensive computer-based calculations, allowing astronomers to deduce the makeup of the planetary system.

Discovering WASP-3c

In their search of the WASP-3 system the team used the 90cm telescopes of the University Observatory Jena and the 60cm telescope of the Rozhen National Astronomical Observatory in Bulgaria to study transits of WASP-3b, a large planet with 630 times the mass of the Earth.

“We detected periodic variations in the transit timing of WASP-3b. These variations can be explained by an additional planet in the system, with a mass of 15 Earth-mass (i.e. one Uranus mass) and a period of 3.75 days”, said Dr Maciejewski.

“In line with international rules, we called this new planet WASP-3c”. This newly discovered planet is among the least massive planets known to date and also the least massive planet known orbiting a star which is more massive than our Sun.

This is the first time that a new extra-solar planet has been discovered using this method.

The new planet appears to be trapped in an external orbit, twice as long as the orbit of the more massive planet. Such a configuration is probably a result of the early evolution of the system.

The TTV method is very attractive, because it is particularly sensitive to small planets, even down to the mass of the Earth. For example, an Earth-mass planet will pull on a typical gas giant planet orbiting close to its star and cause deviations in the timing of the larger objects’ transits of up to one minute.

This is a big enough effect to be detected with relatively small 1-m diameter telescopes and discoveries can be followed up with larger instruments. The team are now using the 10 meter Hobby-Eberly Telescope in Texas to study WASP-3c in more detail.

Eye telescope gets FDA approval

After five years, the U.S. Food and Drug Administration has finally given approval to an eye telescope that treats macular degeneration, the leading cause of blindness in the U.S. The Implantable Miniature Telescope (IMT) has been developed by VisionCare Ophthalmic Technologies, Inc. as part of Centrasight, a new patient care system which treats end-stage age-related macular degeneration (AMD).

More than 10 million people in the USA alone suffer from macular degeneration, which is the leading cause of blindness in people over 55. Of those people, 1.7 million suffer from advanced AMD, for which there has been little or no medical answers up till now. AMD is a disorder of the central retina or macula, the part of the eye that enables the clearest and most distinct vision, fundamental to abilities such as recognizing faces. For many, central vision becomes blurred or completely dark, which impedes all daily activities. The visual impairment suffered in end-stage AMD, in which both eyes are in the advanced phase of the disorder, often leads to loss of independence and patient isolation.

The telescopic implant is designed to improve visual acuity by reducing the impact of the blind spot. The IMT, a device smaller than a pea, is surgically implanted into one cornea and acts to expand an incoming image onto the peripheral parts of the retina that are undamaged. Central vision is improved in one eye, while the other continues to receive information on peripheral vision for mobility and orientation.

The clinical trials were conducted at 28 leading ophthalmic centers and showed that patients achieved clinically meaningful gains in visual acuity and quality of life with the telescope implant. In fact, more than two-thirds of those treated reported notable improvement in vision. The commercial version of the IMT is called Centrasight and is in development by VisionCare Opthalmic Technologies, Inc.

It isn't a complete fix, however. The patient will need months of rehabilitation and occupational therapy to learn how to use the donut-shaped image the telescope provides. Some patients may not adapt well to the new vision, or might find rehabilitation too stressful. Additionally, some may suffer side-effects or damage to the cornea by the IMT. That said, the IMT is available in the USA now and can be implanted during a short thirty-five minute out-patient procedure through Centrasight. Patients should be greater than or equal to 75 years of age, with stable severe-to-profound vision impairment constituting statutory (legal) blindness.

VisionCare will conduct a post-approval study to monitor patient outcomes under commercial conditions. A second smaller study will follow clinical trial patients for an additional two years.

“This is truly a breakthrough technology for AMD patients as their treatment options have been limited until now,” said Kathryn A. Colby, an ophthalmic surgeon at Massachusetts Eye and Ear Infirmary in Boston and Assistant Professor of Ophthalmology at Harvard Medical School. “The clinical results from the pivotal FDA trial have proven we can place this tiny telescope prosthesis inside the eye to help patients see better and, for some, even to levels at which they can recognize people and facial expressions that they could not before.”

Results from the two U.S. clinical trials have been published in peer-reviewed scientific journals including Ophthalmology, American Journal of Ophthalmology, and Archives of Ophthalmology.

Via Singularity Hub

UK’s Taranis stealthy UAV unveiled

A prototype of England’s Taranis Unmanned Combat Aircraft System (UCAS) that we first covered back in 2006 has been unveiled for the first time by the UK Ministry of Defence (MoD). Three and a half years in the making and the product of more than a million man-hours the concept demonstrator is designed to test the possibility of developing the first ever autonomous stealthy UCAV that would ultimately be capable of precisely striking targets at long range, even on another continent.

Named after the Celtic god of thunder, Taranis will be one of the world’s largest UAVs at about the size of a BAE Systems Hawk Jet. The aircraft will provide the UK MoD with experimental evidence on the potential capabilities of this class of UAV and help inform decisions on the future mix of manned and unmanned fast jet aircraft.

The demonstrator will have two internal weapons bays and, with the inclusion of “full autonomy,” the intention is for the craft to “think for itself” for a large part of any mission. However, BAE Systems says that should such systems enter into service, they will at all times be under the control of highly trained military crews on the ground who will also be able to remotely pilot the aircraft.

The Taranis project is an informal partnership of the UK MoD and industry partners including Rolls Royce, QinetiQ, GE Aviation and BAE Systems which is responsible for the project’s overall design leadership as well as providing stealth technology, flight testing and control equipment.

Speaking at the unveiling ceremony this week at BAE Systems in Warton, Lancashire, Minister for International Security Strategy Gerald Howarth said: “Taranis is a truly trailblazing project. The first of its kind in the UK, it reflects the best of our nation’s advanced design and technology skills and is a leading programme on the global stage.”

Initial ground-based testing commenced this year with the craft’s first flight expected to take place in 2011 on successful conclusion of the ground-based testing. However, on January 9, 2009 the MoD was forced to deny the Taranis had been flying near the site of a smashed wind turbine in Lincolnshire after locals claimed to have seen a UFO. Conspiracy theorists feel free to draw your own conclusions.

No mobile phone coverage? No worries, researchers put a tower in a phone

Unsurprisingly, the Australian outback doesn’t exactly boast the greatest mobile phone coverage in the world. But researchers down under have managed to make mobile phone calls in this remote landscape without the use of towers or satellites. Instead of relying on expensive infrastructure, the researchers created a mesh-based phone network between Wi-Fi enabled mobile phones that allowed them to communicate with each other.

The successful test was part of the Serval Project, led by Flinders University’s Dr Paul Gardner-Stephen, that aims to provide fast, cheap, robust and effective telecommunications in remote areas where conventional phone infrastructure isn’t cost effective or where the existing infrastructure has been damaged by natural disaster, war or terrorism.

The Serval Project – named after the problem-solving African wildcat – consists of two systems. The first is a temporary, self-organizing, self-powered mobile network for disaster areas, formed with small phone towers dropped in by air.

The second, and the one being tested in the outback, is a permanent system that requires no infrastructure and creates a mesh-based phone network between Wi-Fi enabled mobile phones, and eventually specifically designed mobile phones the researchers have called Batphones, that can operate on unlicensed frequencies.

Mesh networking

Mesh networking is a type of networking where each node (in this case each mobile phone) in the network can act as an independent router, regardless of whether it is connected to another network or not. It allows for continuous connections and reconfiguration around broken or blocked paths by “hopping” from node to node until the destination is reached.

The researchers have integrated existing mesh network technology developed by Village Telco using unlicensed spectrum with software they developed called Distributed Numbering Architecture (DNA). This software allows people to use their existing phone numbers to enable people to be contacted on numbers they know – something the team says is especially important in disasters.

Off the beaten track

Accompanied by an ABC news team the researchers headed to the remote desert of South Australia to ensure they were far from any mobile phone towers. Since the system relies on the phones’ Wi-Fi capabilities, range is an obvious problem and the tests were only able to transmit calls over a distance of a few hundred meters. But they say the range could be expanded to cover a larger area by adding small transmitters or more devices that relay the calls on.

Usefulness

The need for a decent concentration of devices within an area to provide an extended range suggests the technology probably isn’t overly useful as it stands for sparsely populated areas. But its potential in the area of disaster relief could be significant.

After the Haiti earthquake Ericsson deployed a “container based mini-GSM system,” which is essentially a portable mobile phone network, to enable mobile phone communications in the area. However, this took days and was expensive. The software being developed by the Flinders Universuty researchers could do the same thing but much more quickly and much more cheaply.

"With Haiti what was actually observed was that their mobile phone network and their landline phone network was essentially knocked out for the first 48 hours after the earthquake," Dr Gardner-Stephen told ABC News.

"What research has actually shown is that the vast majority of the response to a disaster is actually from the local people there, so if we can provide them with ease of communications as soon as possible after the earthquake, not 48 hours, not 72 hours but potentially minutes after a disaster, then we can help them to start rescuing people from rubble and generally rebuilding, maintaining law and order."

The researchers will now concentrate on increasing the range and improving the range of their system.

Via ABC News and crave