There are so many new features coming to smartphone cameras these days that it can be difficult to keep up. You’ve got all kinds of HDR, fake bokeh, high resolution and high detail modes that all work in a bunch of different ways. Most of these features are there to overcome limitations in the tiny sensors that smartphones tend to contain. One feature is Google’s Super Resolution algorithm. A computational photography technique that essentially replaces the demosaicing process used on most digital cameras. It’s quite fascinating, looks much better than most of the alternatives, and it’s pretty clever how it works.
So, to understand why this is such a cool process, one needs to know how Bayer and similar (like Fuji X-Trans) sensors work. Bayer and similar types of sensor are in just about every camera out there except for Sigma Foveon. Each pixel on the sensor is assigned a colour. Each only sees that one colour, either red, green or blue, at a particular level of brightness. This means that the sensor doesn’t see the entire sensor for all colours and results in a lot of missing information. The demosaicing process interpolates this missing data to present you with the final colour image.
Sigma’s Foveon technology actually does see all three colours for every pixel on the sensor, and this is sort of what Google’s attempting to emulate with this technique. Put simply, Google’s algorithm takes multiple images, using the slight hand movements from the person holding the phone. The slight misalignment of the scene relative to the pixels fills in some that missing data. After aligning all the images, the algorithm is able to pull different pieces of real colour information from real pixel data. Instead of guessing the missing information, it’s able to create three complete (in theory) red, green and blue channels.
There is no doubt that computational photographer has come on in leaps and bounds over the last few years, and no doubt it will continue to do so in the coming years as smartphone cameras improve and their processors get even faster and more capable. – Google Research Team It’s a very cool technique, and you can read more about Handheld Multi-frame Super-resolution mode here. [via DPReview]
