From time to time we are being asked to compare Almalence Super Resolution with other super resolution technologies available on the market, most of them single-frame super resolution. Our previous test was Panasonic Intelligent Zoom.
Today we will test SONY Clear Zoom Image technology, which is used in some SONY cameras for better quality of digital zoom.
We use SONY RX100 camera with Clear Zoom function.
First of all, let’s compare zoomed images taken with Clear Zoom disabled and enabled:
Top: standard zoom, bottom: Clear Image Zoom (SONY RX100)
We see that Clear Image Zoom produces somewhat sharper image, and somewhere it adds a bit more details (for example, see the second hieroglyph in the center).
Now let’s compare to Almalence Super Resolution. We’ve taken a series of RAW images at the same zoom level and processed with PhotoAcute:
SONY Clear Image Zoom vs Almalence Super Resolution
It’s easy to see that Almalence Super Resolution adds more details and is far superior to Clear Image Zoom. This is an expected result when comparing a single-frame resolution enhancement technology to a multi-frame super resolution.
The web address and phone number unreadable in a Clear Image Zoom photo become readable in Super Resolution image:
Letters in the center of the image and “3F” at the bottom-right corner become readable:
Original images and a copy of the application used for processing are available upon request.
Panasonic features so-called Intelligent Zoom mode in Panasonic Lumix LX7 camera, claiming that with their “Intelligent Resolution” technology 3.8x optical zoom virtually extends to a 7.5x equivalent.
It sounds as single-frame super resolution, so we decided to take some test images to see how good is it.
Below: 3.8x versus 7.5x zoom
Panasonic Lumix LX7: 3.8x zoom and 7.5x (intelligent) zoom
100% Crops. Top: 3.8x zoom, bottom: 7.5x zoom (with Intelligent Resolution)
Top: 3.8x zoom, bottom: 7.5x Intelligent Zoom
As we can see, Intelligent Resolution does not add more details (so the resolution is not increased). The same result can be achieved with extra sharpening. See below a comparison between “Intelligent” zoom and bicubic upsize + unsharp mask filter in Photoshop:
Left: Panasonic Intelligent Resolution, right: generic zoom + bicubic upsize + unsharp mask
Conclusion: Panasonic Intelligent Zoom (or Intelligent Resolution) delivers sharper images but does not provide higher resolution and in no way can compete with optical zoom.
Full original images available upon request
Camera became one of the things (if not the only one) that really make the difference in modern smartphones. Among the leading OEMs such as HTC, Sony and Intel who emphasize their new advanced camera features, Huawei offers something really unique – SuperZoom feature, allowing to take high quality images when zooming in with a mobile phone camera.
We had a chance to test SuperZoom feature with Huawei Ascend P2 phone at Huawei’s stand at Mobile World Congress. In brief, it works incredibly, see the pictures below.
Left: normal zoom, right: Super Zoom
Left: generic digital zoom, right: SuperZoom
Left: ordinary zoom, right: Super Zoom
Left: usual zoom, low detail; right: Super Zoom, high resolution and lot of details
Conclusion: SuperZoom is a revolutionary technology providing zoom quality comparable to optical zoom, on mobile devices!
Feb 25, 2013, Barcelona.
Look at the photos below and guess is it Canon or Nikon?
The answer is: the photos were taken with Motorola Droid X using HDR Camera+.
Ok, sure a mobile cannot beat a DSLR now, but a compact is probably unneeded once you have a modern camera phone with advanced imaging features like those developed by Almalence.
And, of course, it’s a great example of the fact that a good photograph comes from the skill of photographer, not the camera.
The photos are from tosthed’s photostream on flickr. Check that photostream for probably the best mobile photos you’ve ever seen.
Mobile HDR taken from a moving car. Four exposure bracketed frames, fused and tone mapped on device. Almalence mobile HDR on Nokia N9.