Nokia Lumia 920 Review: The World’s most Innovative Smartphone

Yesterday Nokia unveiled its latest and greatest at Nokia World. The two devices shown were the Nokia Lumia 820, a successor to the current 800, and, the Nokia and Windows Phone 8 flagship and dubbed The Most Innovative Smartphone in the World, the Lumia 920. Giving a phone such a title is a bold statement, but Nokia has packed a lot of tech into the handset. The main problem with the announcement though is that once again, Nokia demonstrated a remarkable lack of ability in giving one.

CEO Stephen Elop is comfortable on stage – clear, concise, articulate and confident. Quite why he doesn’t do the presentations, like Steve Jobs always did, is a mystery. Instead, he welcomed Jo Harlow, who stuttered and stammered through some impressive features with a tone of voice that suggested they were very ordinary. Then Microsoft’s Joe Belfiore, who appeared to tell people what he told them back in June – that WP8 allows resizable tiles. Only this time he appeared on a mission to put everyone to sleep. Thanks Joe. And then Kevin Shields. Actually someone who is excited about the tech, and gives good demonstrations. But you’re unlikely to see someone else as annoying and loud on stage.

Yet, despite the presentation issues, the keynote got attention. Switch to Lumia, Windows Phone 8, Nokia, Lumia 920 and PureView were all trending on Twitter, and there were some remarkable technology features unveiled. What was most refreshing was that some of the features address some of the most common and annoying problems of owning a mobile phone, but which often go overlooked by other manufacturers.

The screen is one such issue. Everyone is familiar with the pain of trying to read something on the screen on a sunny day, especially in direct sunlight. By ‘pain’, I mean ‘impossibility’, especially on a dark background. Samsung’s approach to screens is to make them bigger – which doesn’t help; the Galaxy S II decided to make the default email client a black background with grey text, making it hopeless to read outside. Apple brags about Retina Display (which is nothing but a marketing term for ‘we have many pixels’). Yet Nokia yesterday unveiled its approach. It has long been using ClearBack Display technology to make screens easy to see outdoors, and the Lumia 900 was voted the best readability for such purposes.The 920, though, takes it further. Not only is the screen HD+ (which has more pixels than Retina Display), it has smart polarisers to help you outdoors. What does that mean? It means, much like the eye glasses that do the same thing, that the screen automatically adjusts itself depending on the sunlight to reduce glare. Meaning this is a device you can comfortably read under bright sunlight.

That alone won’t be enough to set the sales rocketing, but it is good to see a company focusing on improving the experience to such an extent that the typically overlooked aspects are still being improved. Perhaps the biggest announcement regarding the screen though was the ability to use the phone while wearing gloves. Nokia calls this Super Sensitive Touch. One of the big debates surrounding capacitive screens vs resistive screens was that the latter registered touch input from anything – styluses, keys, gloves, and so on – whereas capacitive only registered flesh, or special products that were designed to touch capacitive. Super Sensitive Touch for the first time combines the technologies, allowing the smoothness of capacitive with the benefit of being able to touch it with anything. The main area this is a concern of course is in cold weather when wearing gloves – every phone on the market with a capacitive screen requires the gloves to be taken off. Kevin shields demonstrated this working onstage not with thin material, but with heavy-duty ski mittens. This Super Sensitive Touch will end the frustration of tapping a screen at the wrong angle and nothing registering because it was the nail, not the flesh, that made contact.

Nokia also demonstrated its advancements in mapping technology. Google Maps may be the first port of call when you want directions from a computer, but Nokia’s offering provide perhaps the best in the world. With complete offline navigation and free turn-by-turn navigation, you can even be directed indoors. Nokia Drive, its satellite navigation app, has been updated so that it learns your daily commute and even tells you what time you need to leave home to account for traffic. But what got most attention of the location services yesterday was Nokia City Lens, the augmented reality app that offers a more intuitive way to discover the world around you. You can point the camera around and it will show you places to eat, drink, theaters, cinemas and so on. Point it at a building with shops inside and it will even tell you what’s in there. If you find a restaurant, you can simply tap it and see photos, reviews, and call directly to book a table. All by looking through the camera. With the current alternative to this being pulling up the search engine and finding local points of interest, the leap in the ease of exploring a new place is quite remarkable.

So far, this is all good stuff. But Nokia had two particular gems to show off. Wireless charging was one of them. While this feature is already around on the HP Touchpad, Nokia is the first to popularise it on what will be a mass market consumer product. The benefits of it are obvious – no more wires to trip over or lose, no wearing down the USB port on the phone or pulling it loose, and, thanks to certain partnerships, you don’t even need to worry about charging when you’re out and about. Virgin Atlantic’s Heathrow lounge will have recharging pillows, as will Coffee Bean & Tea Leaf, large coffee shop franchises in America. Sit down, open the paper, and your phone will charge while sitting on a small fabric on the table too.

As part of this, Nokia spoke about the Lumia’s NFC capabilities, being able to pair up with wireless headphones and speakers by simply tapping them together – but, the NFC speaker they demonstrated featured a wireless charging area on its top, so the phone can charge while playing music. Imagine an iPhone dock, but without plugging it in.

The second big announcement was somewhat expected: the camera. Long revered for its imaging superiority, Nokia was expected to make a big announcement. After the 41MP PureView handset announced earlier this year, and the N8 two years ago, it was clear the Lumia would get some camera enhancements from Nokia.

The Lumia 920 comes packed with PureView, the stunning new optics technology. The 920 has floating lens technology, allowing more light to enter the camera to not only take clearer pictures in low light, but also reduce blur to produce clear photos every time. Not only does the 920 capture between five and ten times the amount of light of any competitor smartphone, it also lets in more light than most DSLRs. The short video below shows the breathtaking capabilities of taking pictures in extreme low light.

Nokia demonstrated some low-light comparisons between the Lumia 920 and a competitor (it wasn’t named directly, but they tended to use the Samsung Galaxy S 3). Competitor’s attempt is the first photo of each set, PureView second:

Also within the camera advancements, Nokia announced two ‘lenses;” Cinemagraph, and Smart Shoot.

Cinemagraph elevates photos to something else, as they allow movement. By selecting a photo then entering Cinemagraph, users can simply rub the area they want, and it will then start to move.:

 

SmartShoot continues the trend of the screen advancements in solving a common problem: people walking past your camera as you want to take a picture. We all know the feeling, and there’s no way around it other than waiting for everyone to get past and take the picture quickly before someone else walks by. Unless you own a Lumia 920, in which case you can use SmartShoot, which analyses the moving sections of a photo, then removes them:

All in all, it was an impressive demonstration. It would have been more impressive still if Nokia could learn how to deliver a truly excellent keynote, but the features largely spoke for themselves. Wireless charging, unparalleled mapping experience and peerless camera technology certainly puts the Lumia 920 amongst the most desirable handsets. And while Apple has been bragging about the ‘resolutionary’ Retina Display, Nokia has not only made it brighter, and packed 2.5 times more pixels than the nearest competitor to offer blurless scrolling, it also packed it with smart polarisers, and allowed any material to touch it and register.

The World’s Most Innovative Smartphone may just live up to its name.

 

Sample Shots From Nokia 808 PureView – With Zoom

Yesterday Nokia announced the 808, featuring a 41megapixel camera with PureView. Today we have sample photos of what the phone can do, which aside from stunning pictures is the ability to zoom in to unprecedented levels to see detail invisible to the human eye when in that real-life position. Below are two pictures taken with the new device – for a glimpse of the technology on offer, zoom in on the rock climber’s foot in the photo on the right.

 

 

Nokia Unveil the 808: 41MP camera with Pure View and Xenon

When Nokia unveiled the N8 in 2010 it set the bar for imaging in mobile devices. Not for the first time either – Nokia phones have allowed users to take high quality pictures for a long time now, and at the time the N8 was released Apple still hadn’t worked out how to include a flash for low-light situations and HTC cameras were all but a joke to both the industry and the public. While the competition has improved remarkably in the past 12 months – with iPhones and HTCs taking remarkably good pictures now – the N8 has remained the undisputed image king, thanks in large part to the sensor it packed, allowing more light than any other phone on the market.

Today, however, sees the N8 dethroned. It wasn’t the competition that knocked it off its top spot, but Nokia itself with the Nokia 808, the much rumoured and long awaited successor to the N8. A year ago Nokia CEO Stephen Elop announced that the image quality and capabilities of the N8 were the tip of the iceberg of what Nokia was capable of and testing in its labs, and that piqued interest. According to Nokia:

“PureView imaging technology is the result of many years of research and  development and the tangible fruits of this work are amazing image quality, lossless zoom,  and superior low light performance…

…One of the reasons the Nokia 808 PureView has taken so long to develop is down to processing power.

We simply couldn’t get hold of enough. Even the most powerful mobile chipsets have an upper limit of
around 20Mpix image processing capability. The Nokia 808 PureView eats up more than double that.
For video, the amount of pixels handled through the processing chain is staggering — over 1 billion
pixels per second, and 16x oversampling. That’s a throughput of pixels 16 times greater than many
other smartphones.”

 

The Nokia N8 had a sensor of 1/1.83, making it the largest ever to appear in a mobile phone and even many point and shoot camera. To drop jaws around the world, the 808 has a sensor 2.5 times larger than that of the N8, and the device packs Xenon flash for snapping photos, and LED for recording videos, offering users the best in both worlds.

For full details and information of why this is important and why it has leapfrogged over the competition without any hope of being caught for many years, Nokia’s own .pdf can be read here, and excerpts can be read below. Before that though, let’s take a look at some sample photos taken from Nokia’s Flickr account

 

 

PureView Pro imaging technology doesn’t represent a step change for camera smartphones performance, so much as a quantum leap forward. The first device to feature Nokia PureView Pro camera technology is the Nokia 808 PureView, which gives people the  means to take better images and video footage  than ever before.  Nokia PureView Pro turns conventional thinking  on its head. It dispenses with the usual scaling/ interpolation model of digital zoom used in  virtually all smartphones, as well as optical zoom  used in most digital cameras, where a series of  lens elements moves back and forth to vary the  magnification and field of view. Instead, we’ve taken a completely new road.

The result?


Unprecedented camera control and versatility, combined with truly spectacular-quality images and  video. Nokia 808 PureView sets new industry standards — it will give you around 3x lossless zoom for  stills, and 4x zoom in full HD 1080p. For 720p HD video, you’re looking at 6x lossless zoom.  And for nHD (640×360) video, an amazing 12x zoom!

 

Always true to the image

With the Nokia N8, we limited the digital zoom to just 2x to avoid too much compromise to image
quality. But at the end of the day, this was still a conventional digital zoom. With the Nokia 808 PureView,
zoom is handled completely differently — like nothing that has gone before. We’ve taken the radical
decision not to use any upscaling whatsoever. There isn’t even a setting for it.

When you zoom with the Nokia 808 PureView, in effect you are just selecting the relevant area of the
sensor. So with no zoom, the full area of the sensor corresponding to the aspect ratio is used. The limit
of the zoom (regardless of the resolution setting for stills or video) is reached when the selected output
resolution becomes the same as the input resolution .

For example, with the default setting of 5Mpix (3072 x 1728), once the area of the sensor reaches
3072 x 1728, you’ve hit the zoom limit. This means the zoom is always true to the image you want.

New depth, new detail

The way Nokia PureView Pro zoom works gives you many benefits. But the main one is undoubtedly
‘pixel oversampling’.

Pixel oversampling combines many pixels to create a single (super) pixel. When this happens, you keep
virtually all the detail, but filter away visual noise from the image. The speckled, grainy look you tend to
get in low-lighting conditions is greatly reduced. And in good light, visual noise is virtually non-existent.
Which means the images you can take are more natural and beautiful than ever. They are purer, perhaps
a more accurate representation of the original subject than has ever been achieved before.

 

Less is more.

The simple structure of Nokia PureView Pro beats more complicated designs hands down. Image
definition is pin sharp, way superior to conventional zoom designs. Conventional designs need many
more lens elements to provide the zoom capability and correct aberrations, but these interfere with
definition and/or light transmission. Our simple structure has enabled a significant improvement in
manufacturing precision, and our lenses are produced with 10x greater precision than SLR lenses.
This was essential to allow the PureView Pro sensor and optics to work in complete synergy.
Neat and compact.
The size of the Nokia 808 PureView camera (including sensor and optics) is at least 50%-70% smaller
than a conventional optical zoom design

Effective zoom settings.

You can get right up close with any zoom setting. Typically, optical zoom gets closest with wide
(rather than tele) lens settings. Which means you have to stand physically closer to whatever you’re
shooting, obscuring the light and possibly casting unwanted shadows. With the Nokia 808 PureView,
you can use full zoom capability at a shooting distance of 15cm providing greater than ever
magnification of small objects with full zoom.

On a more technical note…

oversampling eliminates Bayer pattern problems. For example, conventional 8MPix sensors include only
4Mpix green, 2Mpix red and 2Mpix blue pixels, which are interpolated to 8Mpix R, G, B image. With pixel
oversampling, all pixels become true R, G, and B pixels. What’s more, based on Nyqvist theorem, you
actually need oversampling for good performance. For example, audio needs to be sampled at 44 kHz
to get good 22 kHz quality.

 

Quality, not quantity

People will inevitably home in on the number of pixels the Nokia 808 PureView packs, but they’re
missing the point. The ‘big deal’ is how they’re used. At Nokia, our focus has always been capability
and performance.
The main way to build smaller cameras over the years has been to reduce the pixel size. These have
shrunk just over the past 6 years from 2.2 microns, to 1.75 microns, to 1.4 microns (which is where
most compact digital cameras and smartphones are today). Some new products are on the way with
1.1 micron pixels. But here’s the problem. The smaller the pixel, the less photons each pixel is able to
collect. Less photons, less image quality. There’s also more visual noise in images/videos, and various
other knock on effects. In our experience, when new, smaller pixel size sensors are first released, they
tend to be worse than the previous generation. While others jump in, banking on pixel numbers instead
of performance, we prefer to skip early iterations.

Lessons learned

With the 12Mpix Nokia N8, for example, we were more concerned with capturing photons of light than
ramping up the number of megapixels. We bucked the trend and went with a large sensor and 1.75
micron pixels — but the result was a new benchmark in image and video quality. This set the Nokia N8
apart at the time, and competitors are still trying to match it two years later. The Nokia PureView Pro
comes is equipped with an even larger sensor, 1/1.2” approximately 2.5 larger than the sensor used
in the Nokia N8. The result is an even larger area to collect photons of light. With PureView we’re
continuing to make choices focused on performance rather than pixels for pixels’ sake. Fewer but
better pixels can provide not just better image and video quality, but better overall user experience
and system capability.
In fact, 5Mpix-6Mpix is more than enough for viewing images on PC, TV, online or smartphones.
After all, how often do we print images bigger than even A4?