High Dynamic Range Monitors

An anonymous reader writes, "We are seeing more and more about high dynamic range (HDR) images, where the photographer brackets the exposures and then combines the images to increase the dynamic range of the photo. The next step is going to be monitors that can display the wider dynamic range these images offer, as well as being more true-to-life, as they come closer to matching the capabilities of the ol' Mark I eyeball. The guys who seem to be furthest along with this are a company called Brightside Technologies. Here is a detailed review of the Brightside tech." With a price tag of $49K for a 37" monitor (with a contrast ratio of 200K to 1), HDR isn't exactly ready for the living room yet.

Medical Imaging

[BWJones]

Of course one of the other principal arenas where monitors like this are valuable is in medical imaging. One of the serious shortcomings in the migration of radiology to digital formats is the reduced quality of the images as compared to film. The dynamic range of film is simply so much greater than can be achieved with standard CRTs or LCD monitors that there is a real danger of missing out on very subtle changes in X-Rays for example. While it's true that image processing can make up for some differences, digital still can't quite compete with film for many purposes including data density in many cases.

Monitors? .. What about input?

[UnknownSoldier]

Since "true" HDR consumera camera's don't exist (anyone know?), it can be faked, quite convincingly, I might add.
i.e.
"It's a feature in Photoshop CS2 or Photomatix or FDRTools."

Even black and white can be support HDR. This is a great B&W example of why 8-bit greyscale just doesn't cut it.

--
"The difference between Religion and Philosophy, is that one is put into practise"

I beg to differ.

[purduephotog]

Mammography has gone completely digital. Why? Because the quality of the imagery is lightyears better than what you can get for film. Couple that with rapid processing from a scanner laser and throw in algorithms that contrast enhance areas of nearly neutral density and you have a recipe for catching growths that would otherwise miss detection.

A good, excellent radiologist could detect subtle differences of about 80% that of a standard person. I'd give you the exact quote but it's been a while since I remembered the data- suffice to say I was impressed at the level (in controlled lighting situations) that they were able to see in film.

A good medical display is a peeled LCD- all the colors have been chemically removed from the surface- and has typically a brighter backlight and another polarizer to knock down the lmin even further. This gives you better dynamic range that is easily adjusted faster than film can- want to zoom in? No problem- touch and zoom- or if you had film, grab a loupe (or crane your head closer). Digital wins hands down.

Yes, if you digitize a negative you have a data density that can't be reached very easily (I used to estimate this for a job for large quantities of imagery and at high quality ratios- 2 micron spot sizes). But frankly alot of that information is useless- you don't need to know what isn't of relevance.

The most important aspect of digital imaging is proper viewing environment- something no one seems to get. Reduce the lighting of the area to 0.5 fc and remove any sources of glare off the monitor. Wear dark clothing. Have wall wash lighting appropriate to about 3-9 fc. Have surfaces neutral gray. Ceiling black.

Digital definately competes with film in many markets for medical xray- Mammography was just the easiest to choose because it has been such a radical change in such a short time period.

I should note I used to work for Eastman Kodak and did work with other individuals on these digital products (specifically, algorithms)... but I'm not biased because of that. Just the simple truth- from the raw data I've seen I'll feel happy and safe knowing my wife gets a digital mammagram every year.

Polaroid XR film

[dpbsmith]

I can't seem to find a reference to it online... I'd appreciate one if someone has one... but circa 1960 the Polaroid company developed a film for recording nuclear tests, which was similar to three-layer color film except that the three layers, instead of being sensitized to different colors, were given emulsions with widely different sensitivities. The fastest emulation was similar to Kodak Royal-X Pan, ISO 1600, and the slowest was similar to Kodak Microfile, and if I recall correctly had an ISO speed of something like 0.1

The result was to extend the useful dynamic range of the film by a factor of 10000 or so--more than a dozen additional f-stops of latitude, or extra Ansel zones, if you like.

The film was processed in regular Kodacolor chemistry (IIRC), each layer coming out a different color. In color, the result was a "false color" image displaying a huge dynamic range of light intensity; or, it could be printed as black-and-white using different filters to select different intensity ranges.

In effect, the photographer was automatically bracketing every shot by a dozen F-stops, in a single shutter click.

It was an incredibly neat hack. I wonder whatever became of it?