Venus Optics released some teasers for what they call “the weirdest but most revolutionary macro tool ever”, that’s the Laowa 24mm F/14 Macro.
You may get the Laowa 24mm f/14 Macro for just $1 (one Dollar), but you have to act quick and check out the Venus Optics Page or their Facebook page to grab it. Sorry, but there is no more information about how the get it at $1.
You can currently download for free a best-selling book about digital photography, How to Create Stunning Digital Photography by Tony Northrup. Usually the book sells at $20 for the paperback edition and $10 for the ebook.
BCN Retail published market figures for interchangeable lens cameras in Japan for the period January to June 2018.
Canon clearly leads the market and ranks best for MILCs, Nikon is present (Nikon D5300 ranks first), Sony appears to have no importance.
Among the first 10 placed, Canon hits 7 times, Nikon 3 times. Sony’s best placement is rank 15.
Canon is also leader in the mirrorless market, with the EOS M50 being the most sold mirrorless camera in Japan.
[via Digicame Info]
Nikon Coolpix P1000 at a glance:
A few days ago Nikon announced the Nikon Coolpix P1000, a compact camera with a 24-3000mm equivalent zoom, which translates to a 125x zoom.
125x zoom, you read right. If you want to learn what a 125x zoom, or a 24-3000mm (35mm-)equivalent lens means, then have a look at the videos below. Spoiler: it’s just C.R.A.Z.Y.
The Nikon Coolpix P1000 goes for $999, and can be pre-ordered at B&H, Adorama and Amazon.
Just for the fun to compare, this is what the Nikon P900 was able to do.
I didn’t.
Imaging Resource’s Dave Etchells had the rare chance to visit Nikon’s super-secret sensor design laboratory. But, wait, didn’t Sony manufacture the sensors in Nikon cameras?
So what is Nikon exactly doing? Say’s Etchells:
Companies designing chips of whatever sort generally rely on standard processes established by the “foundry” company that does the actual manufacturing. In these cases, the design process is “just” a matter of defining the layout of the devices on the chip. I say “just” though, because it’s far from a routine process to do this. The size and shape of transistors, photodiodes, resistors and capacitors determines their electrical characteristics, and there are loads of tradeoffs involved in balancing light-gathering efficiency, noise levels, readout speeds, on and on. A big trick is designing the pixels and readout circuitry so there’s as little “dead” (non-light-sensitive) area as possible, while maintaining readout speeds and minimizing power consumption.
Nikon designs its sensors and Sony manufactures them. The surprising thing here is how deep into details Nikon’s sensor design goes, let alone all the simulations and the testing. The reason Nikon is doing this, has to do
with being able to optimize the camera system as a whole, in ways that you can’t if you’re just using off-the shelf parts
In other words: Nikon wants their sensors to be optimised for their lenses and to work at best with Nikon’s also in-house designed EXPEED image processing engine. The sensors featured in the Nikon D850 and Nikon D5 are an example of Nikon’s testing, simulation and overall sensor design.
To learn more about imaging sensors in general and about Nikon’s super-secret sensor design laboratory head over to Imaging Resource.
Nikon patent application 2017-143581 describes a camera with a finger sensor that can understand basic emotions of the photographer.
The sensors are built into the sides of lenses and on the front and back of a DSLR. The sensor can detect biometric information like the heart rate, body temperature, blood pressure, perspiration, and also the pressure you put on the grip. From this data, a simple neuronal network (read basic AI) can get a hint about the photographer’s emotion and act accordingly.
Excerpt from the patent literature:
PROBLEM TO BE SOLVED: To solve the problem in which, while a viewer who views a photographed image can enjoy the photographed image more deeply if a photographer’s emotion at a time of photographing can be understood, how to enjoy such images cannot be realized with the conventional apparatus.
SOLUTION: The display device includes: an input unit for inputting biometric information of a photographer at a time of photographing an image; a display unit for displaying the image; and a processing unit for estimating an emotion at the time of photographing from the biological information of the photographer and processing an image to be displayed on the display unit on the basis of the estimated emotion.
Canon are you listening?
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