Saturday, December 31, 2011

Facebook Messenger for Windows now official


Yesterday the Windows Facebook for Messenger app was leaked, and it looks like Facebook has decided to capitalize on its premature release. Instead of going after the people who leaked the link or taking the files offline, Facebook has now officially released the app to the public. In case you weren’t aware, the Facebook Messenger app allows Facebook users to chat with their friends without having to launch Facebook in a web browser.

In addition supporting Facebook chat, the app allows users to check their notifications, friend requests and keep abreast with all the latest news thanks to the Facebook ticker that is present on top of the contact list. While there is no official website or blog announcing it yet, the file can be downloaded from the same URL as before.
The Facebook Messenger app only works on Windows (7 and Vista) computers at the moment, so Mac/Linux users will have to turn to third party apps in the meantime. New features such as group chat, video calling, limiting chat availability and more will be featured in upcoming versions. In the meantime give the app a spin and let us know what you think of it.

Friday, December 30, 2011

Snapkeys aims to replace QWERTY keyboards on mobile devices


At next month's Consumer Electronics Show (CES 2012) in Las Vegas, tech start-up Snapkeys will be attempting to break the Guinness World Record for fastest typing speed. The company will be making its record attempt using volunteers (who it is currently in the process of recruiting), and its new 2i typing system for mobile devices. Unlike traditional systems that utilize a full QWERTY virtual keyboard that takes up much of the screen, 2i incorporates just four onscreen keys ... and they're all invisible.
The system divides up the letters of the alphabet between the four keys - or Snapkeys, specifically - based on their shape. These groupings consist of letters that stand on one point (such as F and I), letters that stand on two points (N, A, etc.), letters that stand on a wide base (L, E, etc.) and letters that include a complete circle in their shape (R, O, etc.). Basic punctuation marks and shapes are also included.
To use the 2i system, users simply thumb the spots on their device's touchscreen that correspond to the regions where the different letters are located within each Snapkey. Although the keys themselves aren't displayed onscreen, a translucent outline of each one does flash up when it's touched, to help guide users.
According to its designers, 2i not only frees up the screen from the clutter of a visual QWERTY keyboard, but it also allows for faster, more intuitive typing. To that end, they have put out an invitation for interested parties to download a trial version of the app from the company website - those people who demonstrate the fastest Snapkeys typing speeds will be invited on an all-expenses paid trip to CES, to make an attempt at the world record.
A commercial version of Snapkeys 2i should be available "soon," via the App Store and Android Market. It will work in a number of different languages, with US English as its default setting.
The first video below shows how the system groups letters, while the second shows it being put into practice.

Friday, December 23, 2011

"Shadow state" discovery could dramatically boost solar power efficiency



Researchers at the University of Texas say it is possible to hike the energy yield of solar cells by exploiting what they call a photon's "shadow state", doubling the number of electrons that may be harvested in the process. They claim the discovery could up the theoretical maximum efficiency of silicon solar cells from 31 to 44 percent.
Prior research led by chemist Xiaoyang Zhu demonstrated that a theoretical increase in efficiency to as high as 66 percent would be possible if solar cells could be made to additionally harvest so-called "hot electrons", residual heat energy that is lost within about a picosecond after a cell absorbs a photon. Zhu then found that this was possible, but only when harvesting photons from "highly focused" sunlight, impractical in real-world applications.
But the team's latest findings point to an alternative means of boosting efficiency. The organic plastic semiconductor pentacene, when absorbing a photon, creates an exciton (an electron paired with an electron hole) which is quantum mechanically coupled to a dark "shadow state" multiexciton from which an additional electron can be harvested. This way, a photon provides double the electrons. Zhu says that the process could see solar cell efficiency increase to 44 percent without the need for a focused solar beam.
"Plastic semiconductor solar cell production has great advantages, one of which is low cost," said Zhu. "Combined with the vast capabilities for molecular design and synthesis, our discovery opens the door to an exciting new approach for solar energy conversion, leading to much higher efficiencies."
The latest University of Texas findings were published on December 16 inScience.

New diode promises to uncork optical computing bottleneck


When it comes to speed, photons leave electrons for dead, which means optical computers will be much faster than their current electron-based cousins. While diodes for use in optical information processing systems already exist, these require external assistance to transmit signals so cannot be readily integrated into computer chips. Now researchers at Purdue University have developed a "passive optical diode" that not only doesn't require any outside help to transmit signals, but is also so small that millions would fit on a computer chip, potentially leading to faster, more powerful information processing and supercomputers.
While massive amounts of data are transmitted around the globe through fiber optic cables, the optical signals must be converted into electronic signals when they arrive at their destination for use in computers - and vice versa. This translation not only requires expensive equipment, but also slows down the speed of information processing and reduces the security of the data. Equipment that allows the transmitted optical information to be processed without translation would overcome these problems.
Diodes are capable of information processing because they are able to transmit signals - most commonly an electric current - in only one direction, while blocking signals from the opposite direction. This, Purdue professor Andrew Weiner points out, is the most fundamental part of a logic circuit. The passive optical diode developed at Purdue makes this possible with light instead of electrons.
The new diode is made from two silicon rings that measure just 10 microns in diameter, which is about one-tenth the width of a human hair. After being transmitted through an optical fiber, infrared light from a laser at telecommunications wavelength is guided by a microstructure called a waveguide. It then passes sequentially through two silicon rings and undergoes "nonlinear interaction" while inside the tiny rings.
Depending on which ring the light enters first, it will either pass in the forward direction or be dissipated in the backward direction, making for one-way transmission. The rings can be tuned by heating them using a "microheater," which changes the wavelengths at which they transmit, making it possible to handle a broad frequency range.
Being composed of silicon, Purdue graduate student Jian Wang says the optical diodes are compatible with current industry manufacturing processes for complementary metal-oxide-semiconductors (CMOS) used to produce computer chips.
"These diodes are very compact, and they have other attributes that make them attractive as a potential component for future photonic information processing chips," she said.
By eliminating the need for translation from electronic to optical signals, the new optical diodes could make for faster and more secure information processing and, by using them to connect numerous processors together, could also lead to faster, more powerful supercomputers.
The Purdue team's optical diodes, which are nearly ready for commercialization, are described in a paper published online in the journalScience.

Wednesday, December 21, 2011

IBM announces its annual "Next 5 in 5" list


It's late December, and that means that it's time once again for IBM's Next 5 in 5 list. Every year since 2006, the corporation has put together an annual roundup of the top five emerging technologies that its researchers feel "will change the way we work, live and play" within the next five years. Here's a look at what caught their attention this year.

Personal energy harvesting

While big ideas like solar, tidal and wind power certainly show promise, the IBM researchers believe that much of the energy used to run our homes will come from smaller, more personal sources. These could include things such as piezoelectric generators in our clothing, batteries that are charged by the spinning of our bicycles' wheels, or turbines that are spun by the water flowing through our homes' pipes. Essentially, anything that moves could be harnessed as a source of power.

Biological passwords

The days of having to memorize and keep track of alphanumeric passwords will come to an end, as biometrics take over. In order to authenticate our identities online and in person, we will use technologies such as retina scans, voice prints, fingerprint scans or face recognition.

Mind reading

Yep, mind reading. It won't so much be about spying on other people's private thoughts, however. Instead, it will involve things like controlling computers or other devices with our brain waves - if you want to call someone on your smartphone, for instance, you will just have to think about doing so in order to make it happen.
"Mind reading" will also be used to analyze the thought patterns of people with brain disorders, in order to help assist them in daily living, and to treat their condition.

No more information gap

While the world wide web has done much to disseminate information across the planet, its "world" hasn't included people who can't afford computers or smartphones, or who live in places lacking the infrastructure to connect such machines to the internet. With the rise of low-cost mobile devices, however, people in developing nations will gain full access to that world.
Farmers will be able to check weather reports to determine when to fertilize crops, patients will know when the visiting doctor is scheduled to be in town next, and financial transactions can be conducted without the need of a physical brick-and-mortar bank. The possibilities are endless.

Computers that know us

Presently, in the emails and other information updates we receive, we have to sift through a lot of stuff that doesn't apply to us. Within five years, however, analytics and sensemaking technologies will allow our computers to "know" us, and filter out information that we don't need.
It is even suggested that by combining our personal preferences and calendars, computers could proactively reserve tickets to a concert by our favorite rock band, if we were free on the date of the performance.
As you can see by the links, all the technologies on IBM's latest list are already in development, so it's not a huge stretch to state that they will gain prominence in years to come. Perhaps, however, there's something that should have been on the "top five" list, but wasn't. Do you think IBM missed anything?

Sony works on paper-powered battery

Who would have figured out that batteries will be powered by paper one day? Engineers at Sony did, where they recently paraded a bio battery that is capable of generating electricity through the clever use of paper as fuel. This is definitely an improvement over previous battery models that relied on glucose, as this particular paper-powered bio battery relies on an enzyme to decompose paper into glucose – whereby this glucose that is harvested will then be used for power generation. In order to ensure that the decomposition kicks in, Sony relied on an enzyme known as cellulase, where it will make short work of cellulose. As cellulase functions as a catalyst, it can then be reused later on if collected. Sony has also improved the overall power generation capability of this bio battery, where it works well even with the presence of impurities generated by decomposing paper apart from glucose. For comparison’s sake, it seems that decomposing a sheet of A4-sized paper will result in up to 18Wh of electricity – which is similar to the amount of juice generated by half a dozen AA batteries.

Awesome Technology Concepts of 2011


This is not quite yet the end of the year, but we would like to look back on four of the coolest technology design concepts that came out in 2011. Some, like the imaging devices, are part of a long quest to ultra-realism, while others try to explore completely new usage models and lifestyles. Either way, they are amazing to look at and to dream about.

Samsung Flexible Tablet

The flexible display is almost a reality for end-users, but the Samsung Flexible Tablet concept takes things much further and shows a tablet that would essentially be a flexible display, with “real” augmented reality capabilities (working image recognition…) and dream features like a perfect two-way translation (I would even take the half-perfect one at this point). Of course, it is capable of perfectly executing today’s must-haves features like video-calls and gaming, but with a twist : the gaming would be in real (holographic) 3D. Of course, we’re nowhere near this. This concept was done as an advertisement for Samsung mobile displays. Yet, this is an awesome goal for 2022 tablets.

Nokia HumanForm

The Humanform is yet another bendable communications device that has been imagined to go beyond communications as we know it, making it more… human. The entire front surface of the Human touch is a display, and it is a bendable structure which allows commands to be sent by applying torque or pressure to the device. It is also smart enough to recognize one’s mood over a video call. It’s a really unique design, but we wonder: what if you’re trying to be productive with it. How do we read email or books?

Philips Beehive

Nutrition is as important (or more!) as communications, so Philips thought of a special way to procure natural sugar: by having a superbly designed beehive at home. Called the Urban Beehive, it has a bee entrance in the back (just above the flower) and  an integrated smoke actuator which comes in handy when it’s time to collect the honey. The smoke is typically used to calm the bees, and works mainly by masking the pheromones with which the bees communicate – it’s a bee jamming technique if you will. We know, it is scary to have a bunch of angry bees at home, but what wouldn’t you do to live the “organic” life… right?

NgSOC concept bicycle

The NgSOC bycicle is one of a kind: designed by Edward Kim and Benny Cemoli (or may be by Aliens, we’re not sure), it’s an electric bycicle that has a battery pack just near the seat which powers the vehicle when in electric mode (and keeps your behind warm in the winter). If you feel like pedaling, it is possible to switch into mixed or full “human-powered” mode , which charges the battery at the same time. Designed for a modern lifestyle, the frame has a smartphone dock receiver which charges the handset too.
NgSOC doesn’t look like anything that you may have seen on the road, and I really like how the designers made the frame stand out while the wheels are as discrete as possible. This highlights the “alien” look of their creation nicely.  This polymer/carbon fantasy bike is only a computer-rendered concept at the moment, but we can only hope that it will become a product soon.

Wednesday, December 14, 2011

Game Strap concept keeps commuters entertained on the way home


Taking the train home from work is usually a rather boring affair, but designer Jiang Qian has come up with an idea that could make the commute a bit more entertaining while maintaining safety. Dubbed the Game Strap, it essentially transforms the handles that people hold on to while riding the train into a gaming platform.
Sure there is the option of playing a handheld console like the Nintendo 3DS or the PlayStation Portable, but unfortunately that usually leaves you with both hands occupied which could prove dangerous as you might lose you balance when the train starts/stops. By implementing a gaming platform into these handles, Jiang Qian ensures that commuters will be entertained during the ride home while staying safe.
It will feature a small display which will be activated when the handle or strap has been grasped. Buttons are integrated into the sides of the handle allowing users access to it via their thumbs while still maintaining a grip on the handle. So far games like shooting, pinball, tetris and freekick have been suggested as quick and simple games that passengers could play during the commute. It’s a pretty decent idea but unfortunately it appears to remain a concept for now.

Tuesday, December 13, 2011

Best Gadgets of 2011


Samsung Galaxy Note
They used to be big, later they became redundant. As soon as smartphones were ready to offer the same features, PDAs were on the way to becoming extinct. With a device like the Samsung Galaxy Note though, one can't help but wonder if they're making a comeback.
It's got a big touchscreen for reading and entering text, with a stylus for jotting down notes and sketches, with powerful hardware that beats most phones in processing power and features.



iPhone 4S
iPhone 4S is Apple’s 5th generation handset. While the outside looks the same as last year, the 2011 iPhone 4S has the new Apple A5 processor for double the speed and 7x the graphics performance. It’s also got a new 8MP, F2.4 camera for great pictures and 1080p video. But the big story this year is Siri, Apple’s artificial intelligence voice control system that — we kid you not — can call you a cab, find you a restaurant, and even have a conversation with you!


Apple iPad 2 
The iPad 2 refines an already excellent product. Its easy-to-use interface, vast app catalog, and marathon battery life bolster Apple's claim to being the king of tablets.




MacBook Air
This year's 11-inch MacBook Air improves on last year's model in several significant ways and is by far the fastest ultraportable you're likely to find, though some users will consider the limited flash storage space to be a hindrance.

Motorola Atrix 4G 
Putting aside the visionary but tragically-overpriced laptop dock, Motorola's Atrix 4G is still a smartphone heavyweight, with a 1 GHz dual-core processor and 4-inch, 960-by-540-pixel resolution o its qHD display (Retina who?). Bonus points for the built-in fingerprint reader, which unlocks the phone with just a swipe.





Lenovo ThinkPad X1 
Business users needn't be shut out of the thin-and-light laptop party. Although Lenovo's ThinkPad X1 isn't as svelte as a Samsung Series 9 or Macbook Air, it's ready to travel at 3.8 pounds and 0.65 inches thick. Its rugged design--minor spills won't fry it--and respectable performance are undermined only by weak battery life of under four hours. There is an optional external slice available for those who need the juice.


HTC Sensation 4G
Its excellent design and user experience, coupled with its solid performance, make the HTC Sensation 4G one of the best Android phones yet and a top pick for T-Mobile customers.



Motorola Droid Razr
With its razor-thin design, jam-packed features, and blazing speed, the Motorola Droid Razr is easily one of the year's top Android smartphones.


New 3D transistors could mean faster, lighter, cooler computers



Starting next year, computers will be available with three-dimensional transistors - these will incorporate vertical components, unlike the flat chips that we're used to seeing. This structure will allow them to have shorter gates, which are the components that allow the transistors to switch the electrical current on and off, and to direct its flow. The shorter the gate, the faster the computer can operate. While the new 3D transistors will have a gate length of 22 nanometers, as opposed to the present length of about 45, the use of silicon as a construction material limits how much shorter they could ultimately get. That's why scientists from Purdue and Harvard universities have created prototype 3D transistors made out of indium-gallium-arsenide - the same compound recently used in a record-breaking solar cell.
Computers implementing 3D silicon transistors will not only be able to run faster, but should also weigh less, and generate less heat than their present-day flat-transistor-using counterparts. Their new-and-improved shorter gates are made from dielectric-coated silicon nanowires, and it is estimated that such gates could be further shortened to about 14 nanometers within a few years. In order to go any shorter, however, a material is needed that can move electrons faster than silicon is able to.
Studies of the indium-gallium-arsenide gates suggest that they should be able to move electrons five times faster than silicon gates, allowing for gate lengths in the neighborhood of just 10 nanometers.
At any length below 14 nanometers, the silicon dioxide insulating layer currently used on transistor gates no longer works properly, allowing the electrical charge to leak out. To that end, the Purdue/Harvard transistors instead utilize a thinner layer of aluminum oxide. It appears to serve as a better insulator at such a small scale, which in turn should allow the transistors to run faster, using less power - they are still being tested.
The production process for the 3D indium-gallium-arsenide transistors could be easily implemented into existing manufacturing processes, the scientists report, so adoption of the technology on a wide scale ought to be feasible.

Strap-on macro lens works with any smartphone camera

The cameras on most smart phones tend to be rather simple affairs so it's not surprising that savvy inventors have dreamed up numerous add-on attachments such as mini-microscopes and wide/telephoto adapters. They do tend to be rather elaborate and brand-specific, however, not to mention somewhat pricey. Not this one though - the Macro Cell Lens Band is a simple close-up photography solution that has two definite pluses - it works on any camera equipped phone and it's very inexpensive.

The Lens Band is decidedly low-tech, just a thick rubber band with a thin plastic lens smack in the middle of it, but judging by the sample shots, it produces surprisingly good quality images.
Installation is quick and simple, take the band out of your wallet or off your wrist, wrap it around the phone with the lens positioned correctly and you're away.
PhotoJojo sells the Macro Cell Lens Band for US$15.

Friday, December 9, 2011

Future touchscreens could be a portable lab


They say that our fingers and hands are one of the dirtiest parts of our bodies, after all, who knows how many doorknobs, handles and buttons that you have come into contact with today, and multiply it with the thousands and millions of people who have done the same as you? Having said that, with touchscreen devices being so common, such bacteria and other nasties too, don’t mind residing on your glossy screen – and this is where researchers from the Korea Advanced Institute of Science and Technology (KAIST) worked on an interesting low-cost concept that is capable of performing microscopic analyses thanks to a smartphone’s touchscreen display.
Taking into account the advantage of the capacitive touchscreen, through applying a bio-sample like blood, saliva, and even urine from a LOC cartridge to the screen, this group of researchers fully intend to see the smartphone’s screen register specific changes in its capacitance, which will be an indication of what the sample contains. This would mean the phone will be able to perform the analysis and send a report of the results almost instantaneously. Still in the proof-of-concept stage, it might just make touchscreen phones a compulsory purchase for all budding pathologists should it materialize in the real world, don’t you think so?

Earth-like planet discovered by Kepler mission



The ongoing search for Earth-like worlds has taken another promising step. On December 5, NASA announced the discovery of the planet most likely so far to sustain life outside of the Solar System. The exoplanet, given the undramatic name of Kepler 22b, was found by NASA's Kepler spacecraft as part of its mission to seek out Earth-type planets in our galaxy. Though Kepler 22b is not the first such planet to be detected in recent years, it is the first one orbiting a star similar to our Sun and at a distance where it is capable of possessing liquid water, which most scientists regard as essential for life to exist. Though this is a significant milestone, the question remains, how good a candidate for a second Earth is Kepler 22b? Could there be life there or is it a planetary blind alley?





In the zone

Kepler 22b is not exactly around the corner. It's located about 600 light years from Earth, orbiting the star Kepler 22, which is located between the constellations of Cygnus and Lyra. (For astronomy enthusiasts, the exact coordinates are Right Ascension 19h 16m 52.2sec and Declination +47deg 53min 4.2sec.)
With a magnitude of only a little less than 12, its star isn't even visible to the naked eye. However, this distant, dim little star is important because it's orbited by Kepler 22b - the first discovered exoplanet that matches the three major factors for sustaining life as we know it. First, it is roughly Earth-sized, as opposed to the super-Jupiter planets that dwarf even the largest planet in our Solar System and make up most of the discovered exoplanets, as those found outside our system are called. Second, it circles a star that is in the same major category as our Sun, which means that the star isn't too hot or too cold, hasn't too short an existence for life to evolve, and remains relatively stable without the sort of huge changes in energy output found in many variable stars. And third, the planet's orbit is similar to Earth's - there's only one star, so the orbit is stable, and it lies in what is called the habitable zone, a range of distances where the temperatures aren't too hot or too cold.

A giant camera

The discovery of Kepler 22b was part of NASA's US$600 million Kepler mission. Named after the German Astronomer Johannes Kepler (1571-1630), who discovered the laws of planetary motion, the Kepler spacecraft was built by primary contractor Ball Aerospace & Technologies and launched from Cape Canaveral on March 7, 2009 aboard a Delta II rocket. Weighing 2,290 lbs (1,039 kg), Kepler was placed in a heliocentric orbit that trails behind the Earth with an orbital period of 372 days. The reason for this was to keep the spacecraft away from the Earth's light and gravity. That way Kepler's sensors could be made much more sensitive and the position of the craft much more stable, so it can keep pointing at one fixed spot in the sky.
Kepler is basically a giant camera. It has a 37.4 inch (0.97 m) aperture servicing a 55 inch (1.4 m) mirror and it has the largest resolution of any space camera with 95 mega-pixels and routinely downloads 100 gigabytes of data a month. But its purpose is not to take photographs. It doesn't send back beautiful images of the sort we associate with the Hubble space telescope. What it does is act as a photometer. In other words, it measures the brightness of stars and that is how it finds planets.
The idea is very simple. The stars that Kepler studies don't change in brightness very much, if at all. Think of them as being like a bare light bulb sitting on a stand in a darkened room. Now imagine that someone passes a small ball in front of the bulb. The ball isn't large enough to eclipse the bulb as the Moon does the Sun, but it does block part of the light. Even if you can't see the ball, you can detect the bulb looking slightly dimmer. If you have a photometer, a device for measuring brightness, you can measure exactly how much the bulb has dimmed and from that, you can calculate how large the ball is.
That's what Kepler does. Its photometer looks at stars, measures their brightness, and if a planet happens to pass in front of the star, it can measure how much the star's brightness dims and how fast it dims and returns to normal. With this information, scientists can then calculate how large the planet is and how far it orbits from its star.

How to find a living planet

Kepler's search for planets isn't random. In fact, it's very precise and well thought out. It continually points at one spot in the sky, scanning the constellations of Cygnus, Lyra and Draco. These were chosen for two reasons. First, they lie along the line of the Solar System's orbit around the center of the galaxy and second, this points Kepler at the "Goldilocks Zone" of our galaxy.
The Goldilocks Zone is a galactic version of the criteria used to determine if a planet can sustain life - only in this case, it applies to stars and is a little more complicated. It's based on the Rare Earth hypothesis, which states that the conditions for producing life on Earth fall inside of such a narrow range that any chance of finding other life-bearing planets can only hope to succeed if astronomers look for planets that fall inside of that range. Whether the Rare Earth hypothesis is true or not is, of course, open to debate, but NASA felt that using the hypothesis as a starting point would improve its chances.
In this case, the hypothesis says that there is only a narrow band of space inside the galaxy where planets like Earth can exist and sustain life. That 21 to 27 thousand light-year wide band is the one in which the Solar System orbits. Too close to the galactic center, and there is too much radiation, stars are too close together and there are too many heavy elements. Too far away, and there aren't enough heavy elements to form a planet like Earth. For a star to have an Earth-type planet, it must travel in a circular orbit within that band.
Using this hypothesis, the Kepler spacecraft therefore points at a nearby part of the galaxy where such stars are most likely to be found and the results so far have been good. Kepler has detected over 2,300 possible planets and 200 possible Earth-type planets with over 20 planets confirmed. However, only Kepler 22b has come the closest to being a candidate for having life.
Unfortunately, a candidate is all Kepler 22b is at the moment and there are still questions on how likely it is to be a second Earth. Some critics are outspoken in this regard with Don Pollacco, from Queen's University, Northern Ireland telling the BBC that he believes the announcement is merely a publicity stunt made as part of an effort to drum up additional funding as Kepler reaches the end of its three and a half year mission.

Is there life on Kepler 22b?

But is there life on Kepler 22b? The best answer is, perhaps, but save your money if you you're thinking about booking passage on the first colony ship. The reason is that sometimes one little number can change things completely. In this case, that number is 2.4.
True, Kepler 22b does orbit a star similar to our Sun and yes, it is at a comparable distance and it is indeed within the category of what astronomers class as "Earth type". However, this Earth-type planet has a radius 2.4 times that of the original. The Earth has a diameter of about 8,000 miles (13,000 km), that makes Kepler 22b a whopping 19,000 miles (31,000 km) in diameter. This makes it closer in size to the planet Neptune than Earth. That means that Kepler 22b is either a rocky planet with a gravity two and a half times greater than Earth (not impossible, but that raises all sorts of problems if true) or, as is more likely, the planet is probably a gas giant like Neptune with a methane atmosphere and an ocean of water, ammonia and methane ice covering a small, rocky core.
Still, that hasn't completely quashed mission optimism about the planet as Kepler team member Natalie Batalha speculates that, "it's not beyond the realm of possibility that life could exist in such an ocean." However, life on a gas giant remains as much in the realm of speculation as life hiding in a crater of the Moon.
Another problem with life on Kepler 22b is that, even if it was exactly the same size as Earth, the criteria used to evaluate it still doesn't allow astronomers to regard the planet as a candidate for life except in the broadest of terms. For example, its star, Kepler 22 is only broadly similar to the Sun, which is a G2 star where Kepler 22 is a G5. It's a quarter smaller than the Sun and a quarter colder. Kepler 22b is a quarter closer to its star than the Earth is to the Sun, so this compensates somewhat, but the difference in the makeup of the two stars may be significant.
Then there is the question of the orbit of the planet. How eccentric is it? Is it circular like the Earth's or is it more elliptical, which may cause radical climactic variations with winters where it snows carbon dioxide and summers where water boils. Does the planet have a moon? How many? How big? How strong are its tides, if any? What about water? How much? How saline is it? Does the planet rotate? How fast? Does it have a magnetic field to guard against radiation? What about an atmosphere? How active is the planet? Is it a dead lump like the Moon or is it a volcanic nightmare like Jupiter's satellite Io?
Even being in the habitable zone only goes so far. True, the Earth sits comfortably inside the Solar System's zone, but so do Venus and Mars. The former is a hell of temperatures hot enough to melt lead, sulfuric acid rains and an atmosphere like the bottom of the ocean. Meanwhile, Mars is a dead, frozen world with hardly any atmosphere, almost completely dry, seared with ultraviolet radiation on a daily basis and host to sand storms of unbelievable savagery.
This isn't even to mention what else might be in the Kepler 22 system that might be wreaking havoc. The planet could be bombarded by comets or it may be in its orbit only temporarily thanks to the gravitational pull of another giant planet that threw it there a few hundred thousand years ago and may toss it out again a few millennia in the future.
None of this takes away from the importance of what the Kepler mission has uncovered. The data from the Kepler spacecraft has vastly increased our understanding of planet formation and the nature of planetary systems - not to mention finally giving astronomers hard numbers that they can use in estimating the chances of life elsewhere after centuries of having nothing but guesses. Even if Kepler 22b proves to be another Neptune, it has brought us a step closer to finding another Earth.

Thursday, December 8, 2011

Tooth Guardian concept would let you see your teeth while you brush



Going to the dentist is hardly anyone's favorite activity, but it can be hard for you to see everything that's going on with your teeth in a mirror at home while you brush.



The Tooth Guardian is a concept designed by Yu-Hsin Lin, Chu-Che Chang and Shang-Hsuan Lu, to help cut down on unwanted dentist visits by integrating a camera system into your toothbrush. The camera takes a look at your chompers while you brush, and displays an image of what it sees on your bathroom mirror - the idea is that you would see where you're missing in your daily brushing routine, or be able to catch things like cavities early.



An LED light on the brush illuminates your mouth, a micro CCD captures what's going on inside, and a UV light sterilizes your toothbrush when you're done.



The Tooth Guardian is currently just a concept, but certainly an interesting one. What do you think? Would you want to see your teeth while you brush?


Source: Yanko Design

Total lunar eclipse on Dec 10


India is likely to witness a total lunar eclipse on Saturday (Dec 10).

The event will be the second time in the year when earth will be casting a huge shadow over moon and thus create one of the most beautiful phenomenons on the sky.

Observers will have to pray for a clear night on Saturday so that they can observe the celestial phenomenon without any hindrance. The event could be again seen in India after seven years in 2018.

The eclipse will be visible from Asia and Australia.

However, the countries of Europe and Africa will miss the early eclipse phases as it will occur before moonrise.

People will miss the event in South America or Antarctica where the eclipse will not be visible.

The lunar-eclipse process is likely to start around 6.15 pm in India. The total eclipse will commence at 7:36 p.m. and will last till 8:28 p.m. on Saturday.



Friday, December 2, 2011

Crypteks physically lockable USB flash drive takes data protection seriously

Crypteks is bringing out our inner Robert Langdon with the new physically lockable USB flash drive. Featuring a sleek all-metal solid-aluminum alloy construction, the Crypteks USB storage is physically locked inside its housing encrypted with a user-created password that is input by twisting five rings displaying all 26 letters of the alphabet. And if that's still not secure enough, it also offers 256-bit AES Hardware Encryption.




There is a clear resemblance between the cryptex device featured in The Da Vinci Code and the Crypteks flash drive's locking mechanism - hence the name. Its aluminum housing features five twisting rings with letters of the alphabet which need to be set in the right combination in order to remove the stick from inside.
The outer pass-code is user customizable and is easy to change. After removing the USB stick, you can also remove all the outer rings and then place them back with a new code set accordingly between the couple of red dots. The device offers some 14,348,907 possible combinations and if you happen to forget your password, the Crypteks can be sent back to its maker to have the code reset.

If the mechanical security is not enough, there's also a built-in hardware controller that provides 256-bit AES Hardware Encryption. Of course, there will be another password to remember and this one cannot be reset, the manufacturer notes.
Security aside, the durable solid-aluminum design also features anodized layer that helps to deal with fingerprints and dust, as well as a retractable USB tip. Offered in 4, 8 and 16 GB capacities, the Crypteks supports USB 2.0 and offers 24 MB/s read and 10 MB/s write speeds. Its dimensions are 3.1 x 1.1 in (7.8 x 2.7 cm).
Available via Kickstarter, the Crypteks has already obtained enough backing for production to begin. Initially, two versions can be purchased, the 8 GB for the price of US$130, or 16 GB for US$160. The company says that Kickstarter orders will be shipped "hopefully just in time for Christmas."