Transform your tablet with Lynktec 360 degree grip stand
T
he first thing majority of consumers do when they purchase a new device is rush out and also buy a case to protect their device. Device manufacturers invest a lot of time and money attempting to make the best device that they can(for the target price point) whether it’s making it physically appealing, light weight, or make sure it fits comfortably in the hand.
So if consumers want a beautiful light weight device why do they cover and bulk it up with cases? I will answer that for you, because until now that has pretty much been the only option other than purchasing a screen protector but the screen protector will not prevent drops or scratching of the rest of the device, nor provide alternate viewing angles.
Now there’s an additional alternative provided by Lynktec. Lynktec created a tablet kickstand that rotates 360 degrees allowing multiple viewing angles while attached to your device.
Design and Build Quality
The Lynktec 360 degree Grip Stand is made of rugged aluminum and equipped with a rubber base to keep the stand from slipping. The gripstand is light and adds little to no additional weight to your device, the aluminum stand gives your device a stylish premium appeal. The stand also provides you with more control of your device simply by gripping the stand’s cut outs. The cut outs also allow you to stabilize your device for photos and videos and can be used as a selfie stick.
Lynktec 360 degree Grip Stand Features.
- Removable, reusable micro-suction pad grips firmly onto tablet without leaving sticky residue
- Fully adjustable hinge easily adjusts your tablet to multiple viewing angles
- 8-directional swivel head rotates 360 degrees for both landscape and portrait mode
- Rugged aluminum build
What We Like
- Beautiful premium design
- Pinpoint adjustable directional swivel head
- Ability to quickly add or remove the gripstand to devices
What We didn’t like
- The kickstand is approximately half an inch too long. The current length makes you have to have additional space available.
- The lack of device protection, the kickstand only allows you to adjust tablet viewing angles
- The price point is a little steep when you can purchase a tablet case that protects the case completely and provides similar viewing angles and still save $25.
Final Thoughts
After using the Lynktec 360 degree Grip Stand for over a week I was very surprised on a few different levels. 1st I was surprised that it was able to stick to my rubber tablet case and it also didn’t leave any marks or stickiness on my case. 2nd I also liked that I was able to use the same gripstand on my Samsung Note 4 when I wanted to watch some Youtube videos. 3rd I enjoyed that the gripstand allowed me to control my device while taking photos and provided comfort and stability while recording live video on my Periscope stream.
The Lynktec Grip Stand is a great accessory to have around the house/office providing great viewing options in either landscape or portrait mode. Gripstand is lightweight and can be easily interchanged from device to device with excellent build quality and the premium look gives your device pizazz. The only drawback is that gripstand doesn’t completely alleviate the need for device protection, you will still need a screen protector or case if you want device protection.
Lynktec 360 degree Grip Stand is available for purchase by clicking this link for $39.99.
The post Transform your tablet with Lynktec 360 degree grip stand appeared first on AndroidGuys.
Gmail now uses machine learning to better filter out spam
Spam – we’ve all received it, we’re all tired of it. Fortunately, Google has just announced a few improvements to the Gmail spam filter. The service now implements advanced machine learning techniques to get a better handle on some of the trickier spam items and to prevent putting important emails in the trash.
Google is bring its machine learning techniques from Search and Google Now to Gmail. A type of machine learning has been implemented in Gmail for while already, through the use of the “report spam” and “not spam” buttons, which attempted to build up a profile and to help learn from mistakes. Now the spam filter will make use of an artificial neural network to detect spam that tries to pass itself off as an authentic email.
The filter will also be able to automatically detect your preferences for different types of email. If you don’t like newsletters, the filter will try to block more of those message types. Gmail is also now apparently better at figuring out if emails come from their supposed sources, which should help to clamp down on scams.
If you want to learn a little bit more about what machine learning is, check out our overview of the subject.
In addition to a smarter automatic filter, Google has launched its ‘Postmaster Tools’. The tool allows high-volume senders to analyze their emails with detailed reports on any errors, spam reports from recipients, and their overall reputation based on feedback.
Thanks for keeping that spam out of my inbox Google.
Gmail now uses machine learning to better filter out spam
Spam – we’ve all received it, we’re all tired of it. Fortunately, Google has just announced a few improvements to the Gmail spam filter. The service now implements advanced machine learning techniques to get a better handle on some of the trickier spam items and to prevent putting important emails in the trash.
Google is bring its machine learning techniques from Search and Google Now to Gmail. A type of machine learning has been implemented in Gmail for while already, through the use of the “report spam” and “not spam” buttons, which attempted to build up a profile and to help learn from mistakes. Now the spam filter will make use of an artificial neural network to detect spam that tries to pass itself off as an authentic email.
The filter will also be able to automatically detect your preferences for different types of email. If you don’t like newsletters, the filter will try to block more of those message types. Gmail is also now apparently better at figuring out if emails come from their supposed sources, which should help to clamp down on scams.
If you want to learn a little bit more about what machine learning is, check out our overview of the subject.
In addition to a smarter automatic filter, Google has launched its ‘Postmaster Tools’. The tool allows high-volume senders to analyze their emails with detailed reports on any errors, spam reports from recipients, and their overall reputation based on feedback.
Thanks for keeping that spam out of my inbox Google.
Just XDA things: here’s Windows 7 running on the Asus Zenfone 2
Coaxing software to run on devices that are not supposed to support it is a favorite pastime around some corners of the Internet.
Most recently, we’ve seen stuff like Windows 95 and Macintosh II running on a Samsung Gear Live or Android running on a freaking graphic calculator.
But how about a current desktop operating system running on an off-the-shelf smartphone (and an affordable one to boot)? Oh, yeah, someone got Windows 7 to run on a Zenfone 2.
There’s a fair bit of technical wizardry involved, and XDA-Developer user Yua Ca Van helpfully listed all the required steps here. Put very simply, this is Windows running on a virtual machine on Android. The speed is sluggish, but what really matters is that the installation is fully functional, complete with sound, network access, shared storage access, and more. For all intents and purposes, this is Windows 7 actually working on a consumer smartphone, without modifications.
So, why did Yua Ca Van choose the Zenfone 2 to experiment with Windows 7? Two reasons: the Zenfone 2 runs on an Intel x86 processor, making it easy to virtualize Windows on it; and it has 4GB of RAM, which appears to be enough to load up and run the OS without cracking under pressure. More about the benefits of those gigs of RAM here.
Let this be – another – reminder that we leave in the future.
Just XDA things: here’s Windows 7 running on the Asus Zenfone 2
Coaxing software to run on devices that are not supposed to support it is a favorite pastime around some corners of the Internet.
Most recently, we’ve seen stuff like Windows 95 and Macintosh II running on a Samsung Gear Live or Android running on a freaking graphic calculator.
But how about a current desktop operating system running on an off-the-shelf smartphone (and an affordable one to boot)? Oh, yeah, someone got Windows 7 to run on a Zenfone 2.
There’s a fair bit of technical wizardry involved, and XDA-Developer user Yua Ca Van helpfully listed all the required steps here. Put very simply, this is Windows running on a virtual machine on Android. The speed is sluggish, but what really matters is that the installation is fully functional, complete with sound, network access, shared storage access, and more. For all intents and purposes, this is Windows 7 actually working on a consumer smartphone, without modifications.
So, why did Yua Ca Van choose the Zenfone 2 to experiment with Windows 7? Two reasons: the Zenfone 2 runs on an Intel x86 processor, making it easy to virtualize Windows on it; and it has 4GB of RAM, which appears to be enough to load up and run the OS without cracking under pressure. More about the benefits of those gigs of RAM here.
Let this be – another – reminder that we leave in the future.
Spain’s first smartphone maker calls it quits
Geeksphone, the world’s first Spanish smartphone maker, has decided to leave the phone business after nearly six years. The company has decided that, after developing six devices, that it has come to the “end of a cycle” and will stop making hardware. Instead, it’ll open-source everything that it’s able to for the benefit of the community and remain a viable concern to keep the lights on in its technical support division.
There’s no prizes for guessing what prompted the company to effectively wind down, which can be summed up as commoditization. After all, if a smartphone ecosystem backed by Microsoft can’t succeed in the face of cheap Android handsets, what chance does a tiny European startup have? In the announcement, co-founder Rodrigo Silva-Ramos threw some shade at the industry’s big boys, saying that they achieved their position “without much concern for innovation and without being concerned by the needs of [their] users.”
Don’t feel too sorry for Geeksphone’s engineers, since they’ve all found new jobs working for Silent Circle. That’s the privacy-focused firm that the business teamed up with to build the ultra-secure Blackphone — a partnership that was dissolved just a few months ago. In addition, most of the rest of the company’s employees will transition over to geeks!me, a wearable technology company that’s developing a new fitness tracking smartwatch.
Filed under: Cellphones, Wearables, Software, Mobile
Via: Tech.eu
Source: Geeksphone
ICYMI: Medical HoloLens, programmable kids robot and more
Today on In Case You Missed It: Case Western Reserve University students put HoloLens to work to learn parts of the human body. The classic ’60s TV show Thunderbirds is coming back for more episodes of puppet goodness thanks to a Kickstarter campaign. And a new robot aimed at teaching kids to program is out to terrorize your family pets.
Today’s bonus is a music video for the song ‘Leave’ by Wavves, shot in GTA V.
If you come across any interesting videos, we’d love to see them! Just tweet us with the #ICYMI hashtag @engadget or @mskerryd.
Filed under: Misc, Gaming, Peripherals, Robots, Science, Internet, Software, Microsoft
Monsters Ate My Birthday Cake is this week’s Free Play Store App
Monsters Ate My Birthday Cake is this week’s free app of the week that is available from the recently launched Family section of the Google Play Store. The game was published by Cartoon Network and usually costs $4.99 (£3.21) but is now free to download. Join us after the break for the download link.
Monsters Ate My Birthday Cake is an ad-supported game with a PEGI 7 rating and mild violence. The game begins on Gogapoe Island that is populated by humans and monsters. The player sets off to retrieve Niko’s birthday and on the way becomes responsible for the fate of Gogapoe island itself. According to the game description, the gameplay includes hidden pathways, witty repartee, puzzles, silly hats, cake (obviously) and a wiener dog. The mild violence involves the odd headbutt, using stink clouds, frost breath and the occasional rainbow barf.
The game is compatible with Android 2.3.3 GingerBreak and up and around 120MB in size. You can download Monsters Ate my Birthday Cake free-of-charge until July 16th, by simply scanning the QR code with your phone or tablet, or just clicking the Play Store link below.
Come comment on this article: Monsters Ate My Birthday Cake is this week’s Free Play Store App
Who’s who in the smartphone camera business
Camera technology has always been an important feature in smartphones but this generation of flagships have been putting particular emphasis on the quality of their camera modules. So it seems worthwhile to dive on into the world of camera sensors and take a look at who is building the best and most popular products.
Sony
We’ll start with one of the biggest and that is Sony. The company has a long legacy in the image sensor market and has been at the forefront of mobile camera technology for a number of years. The company accounted for roughly 40 percent of all smartphone image sensors in 2014.
Sony’s image sensors have found their way into numerous smartphones and tablets, even if the company doesn’t provide the whole module. If you’re curious, the difference is that image sensors are responsible for converting the light into digital information, which determines the number of megapixels, pixel size and density, recording frame rates, etc. The broader camera module determines focus, aperture and other attributes.
Sony’s Exmor image sensors are behind a number of high-end smartphone cameras.
Sony’s high-end image sensors fall under the Exmor RS brand name. Its latest model is the Back Side Illuminated (BSI) 21 megapixel IMX230, which has started to find its way into the latest smartphones. It’s IMX240 powers the Galaxy Note 4 and some S6 models, while the IMX234 forms the basis of the LG G4’s camera.
The company isn’t just catering to the very high-end market, Sony’s 8MP and 13MP mid-range sensors have been in high demand from Chinese smartphone manufacturers looking to decent cameras at a reasonable cost. The 13 megapixel IMX214 has proven particularly popular with manufacturers like Huawei and Oppo over the past twelve months.
| Sensor | Resolution | Sensor Size | Pixel Size | Handsets examples |
|---|---|---|---|---|
| IMX 135 | 13 MP (4224 x 3176) | 1/3.06″ | 1.12 um | LG G3, Note 3, Moto X |
| IMX 214 | 13 MP (4224 x 3176) | 1/3.06″ | 1.12 um | Find 7, Honor 6, OnePlus One |
| IMX 220 | 20.7 MP (5344 х 4016) | 1/2.3″ | 1.2 um | Xperia Z2, Xperia Z3, Meizu MX4 |
| IMX 234 | 16 MP (5312 x 2988) | 1/2.6″ | 1.12 um | LG G4, ZTE Nubia Z9 |
| IMX 240 | 16 MP (5312 x 2988) | 1/2.6″ | 1.2 um | Galaxy S6, Note 4 |
As well as basic sensor hardware, Sony has also developed Phase Detection Auto Focus (PDAF) technology, in-sensor HDR, and high speed shooting modes for its sensors, which is helping to keep the company at the forefront of the market.
So important is its image sensor business that Sony is willing to invest billions into additional production capacity by issuing new shares for the first time since 1989, just in order to keep up with demand.
OmniVision
OmniVision is another big name in the smartphone image sensor business, but you’re more likely to find its products in the low and mid-tier markets, rather than high-end smartphones.
The company’s typical sensor selling price is just $1.79, compared with upwards of $7 from Sony. As a result, OmniVision is expected to capitalize on the new demand for lower cost CMOS sensors from the growing Chinese and Indian smartphone markets.
| Sensor | Resolution | Sensor Size | Pixel Size | Full Video Capture |
|---|---|---|---|---|
| OV5640 | 5 MP | 1/4″ | 1.4 um | 15 fps |
| OV8825 | 8 MP | 1/3.2″ | 1.4 um | 24 fps |
| OV13860 | 13 MP | 1/2.6″ | 1.3 um | 30 fps |
| OV16825 | 16 MP | 1/2.3″ | 1.34 um | 30 fps |
| OV23850 | 23.8 MP | 1/2.3″ | 1.12 um | 24 fps |
That said, the company’s hardware has occasionally cropped up in high-end devices, including the last generation HTC One M8. The company also used to supply image sensors to Apple before Sony took the contract.
Not too long ago OmniVision announced its 23.8 megapixel OV23850 image sensor for smartphones, which comes with PDAF, video binning, and 4K video recording.
In a separate bid to cater to the high end market, OmniVision has been pushing its 13MP PureCel design. This is a slightly larger image sensor with bigger 1.3um pixels to capture more light for better looking images. You’ll probably recognise this idea from HTC’s Ultrapixel idea, which OmniVision was involved with.
Toshiba
Toshiba is another large company with a strong legacy in the mobile camera business. The company’s sensor may not be appearing many high-end smartphones these days, but it was behind the impressive 41 megapixel sensor that powered the Nokia 808 PureView’s camera.
The company has most recently been working on further reducing the size and power consumption of its smartphone image sensors. The company also launched a 240fps slow motion capable T4K82 sensor back in March of this year.
Typically, Toshiba produces 13 and 8 megapixel sensors for smartphones and also has a 20 megapixel sensor for the high-end market. The Toshiba’s BSI T4KA7 is apparently powering the HTC One M9’s rear camera. Like Sony, Toshiba has integrated PDAF into its sensors and has its own 3D depth mapping technology and bright mode technology for improving the visibility of slow motion videos.
Toshiba camera modules developed for Project Ara
At last check in, Toshiba was looking to focus on providing sensors to Chinese smartphone manufacturers and had turned to automotive and medical markets for further growth. Although it did show off some neat modular prototypes for Project Ara as well.
SK Hynix
SK Hynix, a South Korean semiconductor supplier, is also a key player in the low cost smartphone camera market. Much like its competitors, the company produces a range of sensors and its 8 and 13 megapixel option are moving popular in mainstream handsets and it is focusing its operations in the growing Chinese market. SK Hynix had also previously provided low end cameras for Samsung’s budget smartphones.
Last year the company announced that it had a high-end 21 megapixel sensor in development. SK Hynix isn’t really doing much that hasn’t already been done by the competition, instead it appeals to manufacturers based on its low price point.
Samsung
Samsung has tried its hand at producing many key smartphone technologies itself and is also in the image sensor game. Although not as large of an operation as Sony, Samsung has been attempting to grow its image sensor and camera module businesses.
Besides hardware, Samsung has been working on software features, like picture re-focusing using depth information.
Samsung has quite a large catalog of sensors, including Front Side (FSI) and Back Side Illuminated (BSI) sensors. Its high-end technology uses the company’s own ISOCELL pixel type, which aims to reduce noise compared with its traditional BSI sensors by reducing interference between different color pixels.
| Sensor | Resolution | Sensor Size | Pixel Size | Pixel Type | Full Video Capture |
|---|---|---|---|---|---|
| S5K3H5 | 8 MP | 1/3.2 | 1.4 um | BSI | 30 fps |
| S5K4H5YB | 8 MP | 1/4 | 1.12 um | ISOCELL | 30 fps |
| S5K3L2 | 13 MP | 1/3.06 | 1.12 um | BSI | 30 fps |
| S5K3M2 | 13 MP | 1/3.06 | 1.12 um | ISOCELL | 30 fps |
| S5K2P8 | 16 MP | 1/2.6 | 1.12 um | ISOCELL | 30 fps |
Although we may typically associate Samsung with high-end products, the company’s average sensor selling price is only $1.93. You can find a range of products from small 1.3MP sensors for the low end market, up to 16MP sensors found in the flagship Galaxy S6. Samsung also develops complete modules for its sensors.
Most recently, Samsung’s own image sensors have found their way into the Galaxy S5 and S6 smartphones. However, due to its limited production capabilities, Samsung has to mix its own and Sony image sensors in the Galaxy S6. Closer inspection revealed some noticeable differences between the two, but without a side by side comparison you would probably struggle to notice any major differences in quality, suggesting that Samsung is managing to keep up with Sony.
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LG
Much like Samsung, LG is both a component and product manufacturer and is making strides with its camera components. LG Innotek is the division of the company that focuses on components and designed the impressive camera inside the company’s latest G4 flagship.
However, unlike Samsung, LG doesn’t make its own image sensor components, but designs the wider camera module instead. LG’s high-end smartphone cameras have all been based on Sony Exmor image sensors. LG has most recently pushed the boat with its f/1.8 aperture camera in its LG G4, which will let in around 80 percent more light than the G3’s f/2.2 module. This is the wider aperture that we’ve seen yet in a smartphone.
LG’s G4 took a Sony IMX234 sensor and paired it with its own lens, laster auto focus and color compensating technologies to produce one of the best smartphone cameras around.
Not only that, but LG’s research teams are also developing complimentary hardware components for its camera modules. Back with the LG G3 the company announced its laser autofocus system and the LG G4 comes with an infra-red colour correction circuit to better compensate for environmental lighting.
As the company doesn’t have to worry about sensor development, it has more time to work on refining the other module components, which has resulting in some rather interesting and practical camera designs.
HTC
Much like LG, HTC is not in the image sensor business, instead it has had a few attempts at designing its own camera modules.
HTC’s Ultrapixel idea didn’t end up working out to well, so the company ended up moving it to the front camera.
The company coined the phrase “Ultrapixel” for its larger 2.0um pixel smartphone cameras but these actually made use of ST Microelectronics and OmniVision constructed sensors, specifically the VD68969 and OV4688. The company has also experimented with dual-sensor set-ups with the One M8, making use of a 2.1-megapixel OmniVision OV2722 sensor to collect additional depth information.
Despite the novel ideas, the company’s camera technology does not appear to have kept up with the competition lately; the handset scored poorly in our blind test shoot-out.
What to expect next
There are a number of other manufacturers in the mobile image business which produce either their own lens modules or sensors, for example even OnePlus developed its own lens for its smartphone. Hopefully though, I have covered enough of them to give you an idea of what the market is like.
Samsung and Sony are likely quite safe at the top of the sensor market
Samsung and Sony are likely quite safe at the top of the sensor market, but smartphone CMOS sensor demand is inherently tied to the smartphone market. Huge growth in low margin handsets is driving demand for competitively priced image sensors with moderate specifications and this is opening the door for OmniVision, Toshiba and others to collect new business and expand their market share in Asia.
At the high-end, we’re quite likely to see OEM companies continue to differentiate their products by tweaking the broader camera modules to bring out subtle improvements in quality. Ideas like dual-image sensors, wider apertures and laser auto focus will probably keep cropping up from time to time, but final image quality is inevitably tied to the limited space for sensors within smartphones.
Korean researchers can prevent flash memory decay and lengthen battery life
Wouldn’t it be great if our technology didn’t suffer from eventual slowdowns with age? Well, Hanyang University researchers have announced a new technology that could slow down the rate of decay, boost performance and increase smartphone battery life. The technology is named WALDIO, or Write Ahead Logging Direct IO.
The idea all revolves around internal NAND flash memory used for storage. Flash memory has a limited number of write/erase cycles and ages with use. Constant writing eventually results in dead sectors, which slows down the reading and writing process used by all applications. Furthermore, reading and writing to flash is an energy consuming process, so optimizing these type of tasks could increase smartphone battery life.
“This tech will make it possible to use low-priced flash memory for a long time, like expensive flash memory.” – Professor Won You-jip
The problem, as the researchers see it, is related to the SQLite database management system and a number of unnecessary writes to storage within the Android IO stack, which degrades flash memory faster than necessary. The researchers want to dispense with the expensive file system journaling, without compromising the file integrity.
Without the jargon, WALDIO simply records smaller amounts of data to flash memory in order to preserve its lifespan.
WALDIO aims to optimize SQLite IO using block pre-allocation with explicit journaling, header embedding and group synchronisation. You can read all about it in greater depth in the published PDF, but it’s certainly not light reading.
Testing using a Samsung Galaxy S5 revealed a significant reduction in the total IO volume when performing a number of operations. Volume was reduced to around 1/6 of the original size. The test also demonstrated up to 4.6 times faster command performance over the default methods, freeing up time to do other things with the memory. In terms of what this means for us users, our smartphones could operate up to 20 times faster at certain tasks and battery life could be extended by 39 percent or more.
Unfortunately, we don’t yet know if WALDIO could be implemented on existing devices or even if the technology will ever make its way into a commercially available device. The team will be presenting their study at the Usenix Annual Technical Conference in Santa Clara today, and will hopefully grab some attention.
AIVAnet 