helgefrisenette

I am very curious about the remote release connector on the bottom of the camera. Does anyone know if it is a standard connector? Or if the proprietary connector was ever released? I have a few of these and they would be ideal for a multi camera setup with simultaneous release.

I wonder why you seem to be doing a lot if not most of your posting in the film section of this forum? I can see very little, if any film artefacts on A4 or even larger. I wonder what kind of scanner or enlarger you are using? Ever heard of grain aliasing? With a digital image it doesn't take much enlarging before you begin to see matrix artefacting. Consumers turned on film because they never really cared about their images. "Free photos" was just too much of a lure. Only later came the claim of superior quality of digital. Professionals less enamoured with cost, though still a factor of course, thought they where in more than a hurry than before and used that as an incentive to switch. That depended entirely on the profession and type of photography though. Many professionals helped keep film alive in the intervening last fifteen years. "Detail, vibrancy and 'cleanliness" is all very debatable. Cleanliness is again in part a result of interpolation and demosaicing. There is no such thing as correct colour. The most important thing in that regard is to get as much spectral information as possible to begin with. Vibrancy in an electronic sensor is a result of the dyes in the Bayer array and cross contamination from sensor site to another. Neither of which has anywhere near ideal properties in the fundament implementation of CMOS. Detail, is again as already stated more complex than having it or not. How is it arrived at? How is it represented? How does the visual system of humans like it at different scales af reproduction? Have a look at a pre demosaiced pre-RAW capture from a sensor. and then from the correct but dull linear interpolation to get a feel for what is going on. This page for example: IPOL Journal · Malvar-He-Cutler Linear Image Demosaicking The "I can see it's better with my own eyes" argument doesn't really hold up historically or to closer logical scrutiny. Looking at the area around Port Harcourt in magnification on both images reveals all the artefacts I mentioned Moire and colour fringes are not a result of extreme resolution. It's a result of not enough resolution, a matrix of pixels and bayer filter. Any kind of post filter will not fix it. Films depth is of often used as an argument. For the aperture and mechanical tolerances users in any camera, it will very seldom bee an issue, Film flatness is a bigger problem, but neither are pathological. "Pixel" peeping was always possible with a strong loupe or a microscope and as such is not new. Just as demosaicing interpolates the sensor captured image, you can, and to a larger extent in the near future, with new deep learning algorithms, will be able to filter out the luminous noise on top of detail that grain is, and get a "cleaner" image if that is ones desire.

Well I don't see the sense in mailing someone who hasn't been active here for over two years about something he posted eight years ago. I'm all for using old threads and posts, but within reason. Also "A" spec of dust?! There's evidence over the whole crop. There is not "numerous reports of missing detail because it's rare that digital cameras are used for repro work at such low magnifications. Usually in the real world you don't have anything to compare against. As I said It's not really about the small artefacts. Those are just immediately visible symptoms of how much of a bayer demosaiced images detail is invented by the algorithm. This contributes to the whole overly sharpened look of digital photos. A look that might lure you in at first but is tiring (not to mention not conductive to PP and printing) in the long run. I applaud you for doing your own map image, even though I can see several bayer related ailments in both versions of the image. IE squared of circles. coloured noise around lines, coloured moire, chunky coloured aliasing blocks etc. It's rare that I lug around two cameras, especially a digital and a film one. But I will see if I can remember to do a controlled test with film and digital in the near future. I' be impressed if you could find what I said via google. This is simply deducted and observed, and then discussed with others. I hate to be the one to pull the tone card, but I really don't get your testy tone. You haven't said or shown anything out of the ordinary that anyone with modicum of interest, in the technical aspects of photography doesn't already know.

That's it. Proximity and general volume. That is the factor that regulates the size of the dye clouds. And in turn their step-less size. Look, we're not enemies, I'm not here to irritate you. If you have some real point to make I'd be curious to hear it. The storage and displaying of the image captured by the analog sensor in a digital camera needs go through quantisation and locking into bit depth and a grid so in a sense if anything it's the digital image that is more akin to raster printing. Silver halide imagings particular looks nearest cousin, would in my eyes be something like Floyd-Steinberg dithering It's not the number bits themselves I'm pointing to (though they could easily be a source of artefacts too) It's the actual range and the distribution of the range. IE, where and how are the quantisation steps placed? That's also a factor to consider. The DxO test shows 22.6 bits at ISO 400. So that's under 8 bits per colour channel. Even at ISO 32 it's barely more than 8 bits of actual discerning ability per channel on average. Because you are quantising the image when scanning it? Real darkroom postersation relies the the upper and lower plateauing of film. In particular lith film and paper. That is still not a quantisation stepping though, since there is still a toe and shoulder, albeit a small one petering out into almost but not quite horizontal curves. Really? You couldn't be bothered to scroll though the thread? Then let me do it for you: Film vs Digital - Color Rendition first post by danielleetaylor

Edit: Sorry for the broken up post. Apparently I wrote something "inappropriate" or spam like that I wasn't able to purge, and I had to play divide and conquer. Opaque but different in size and the dye follows the silver. You could say something similar of just about any imaging technology. Not exactly analogous. There is no raster and the "primitives" are can be approximated in shaped to the feature they are conveying. And of course the "dots" is very much smaller. I don't see your point with the comparison? Did you have a particular one in mind? Like this one: Nikon D850 : Measurements | DxOMark ? There is still "only" 14 bits per colour channel. That is what the hardware can sample. As you can see the actual range is different. No quantisation steps in film.

It's right here in this thread as I believe I mentioned earlier. Unless the guy who posted it for some odd reason fiddled with it to disproved his own point, I see no reason do disbelieve it. Errors like that are typical of bayer demosaicing. They are often blatantly visible in certain details, but they profoundly affect image quality in the whole picture in subtle ways. Did you even read the article/test you linked? It was very poorly and loosely executed, admitted by the authors themselves in the comments and they actually didn't conclude anything.

I don't get it. Are you answering your own question? It's quite simple, some colours and features are doing a disappearing act from the film to the digital picture. No known film artefacts can produce large features or anomalies like that. The spongy structures AgX develops into are obviously there or not, but their extent is not equivalent to the original size of the crystal automatically. That is governed by the amount of exposure and development centers. Also as mentioned, by Glen there is various amounts of overlap and size of the crystals to take into account. As a starting point for extended reading and discussion I can recommend Tadaaki Tanis two excellent books. Anyone can proclaim themselves as anything on forums. Also, you can easily be in a vocation for a lifetime without ever knowing more than what you need to know. You can easily get wrong mental models that persist because they "work" or are not an inconvenience. I know university professors who think they are general experts in their field, but only really are reliable in their own specialty or vice versa. Indeed I have, and also images of such are readily availible to googlers too.

I know more about it than you assume. Tell me where and in what way is film photography, or the processing of it binary? Simply dishing out numbers is not an argument either. There are few facts in your estimate above. Regarding the map example. It is of course not an ideal test subject, but it is telling and ironic that is was used as a proof of digital superiority, while glaringly showing off the problems. The missing colours are plain to see, but notice how the sharpness even in black elements is estimated/guessed. The stars are in fact distinguishable as stars on film albeit at lower contrast, while the digital version is just weird blobs.

Do you think you had luck in convincing anyone the last time you used that image (reverse image Google)? You pull most of your numbers and assumptions out of thin air, while others are irrelevant. One only has to look comparisons of real images to see that even if the scanner is not of the highest resolution, film wins most of the time WRT colour resolution and depth. There is the famous example of red berries on a bush, that is there on film but is lost between the gaps in the Bayer array. You forget/neglect to mention that those 14 bits bit per channel are sampled from an analog sensor, with all the problems associated with that. If there is much advantage to that kind of resolution, it will mostly be in avoiding beating and interference, both when sampling the analog signal and when doing various kinds og post processing, including basic demosaicing. A full range of 14, 12 and I doubt even sometimes even 8 bit, is not present in the original signal. Separation of colours with the dyes used in the sensors bayer array, is problematic too of course. Film is not binary in any kind of way. There is naturally noise introduced in the signal by the grain of the emulsion, but there is no levels or quantification as such.

Don't give me anything about "zombie threads". This is exactly what the internet and in this case online forums are good for. Sharing information across time and space. WTF would or should I start a new thread when I can add to, find support in and add to posterity by posting in an old one?! This is a thread that comes up often in searches of various kinds, and other people will find it in the future. This is the picture I was referring to: Try quoting my monoblock of a post above to get a more readable format. I don't know why the forumware does that?

I swear there is line changes and paragraphs in the above! :-) Something is awry with the forum software.

I’ve hit upon this side by side comparison image numerous times now researching related topics and I thought I’d leave a comment for posterity, since Google thinks it is so important. Although as a comparison it’s lacking and there is a whole host of unknowns, it’s still uncanny how the original poster was so blinded by the “everything digital is good” religion that he/she overlooked how blatantly much better and correct the film photo is. In fact the image can used as a good showcase of the exact opposite that it was made to illustrate. Look at the colour details for instance. In several places coloured lines are either missing or converted to black by the demosaicing. The lake in the upper right quadrant has black lines taken out altogether for some reason. These are just small immediately visible symptoms of a swath of not so eminently visible faults and artifacts occurring in all digital images. Artifacts impacting image quality subtly but fundamentally, and not just in isolated details that you can easily point out. Also look at the stars in circles. At first they might appear sharper on the digital photo, but notice how they are actually real star shapes in the film image but has invented detail in the digital photo. While at a superficial glance the digital image might look sharper and higher contrast it really holds much less data and more importantly is less pleasant to look at in enlargement. Which is after all, much of the point of resolution: To be able to print large and still have a pleasant to look at image. I know the digital image is only eighteen megapixels and the current standard seems to hover around twenty four for sensible sensors, but I think the observations still more than holds up, since: A. Scanning methods have progressed equally. Macro photography of film has overtaken anything that the already ailing dedicated scanners of 2011 could muster, not to speak of the gold standard of wet printing. B. The film type used was probably chosen on the erounous assumption that slide was the best showcase for all that is good and great about film, which is of course not true. C41 has for one undeniably higher resolution, no matter which way you look at it. It’s analogous to the (overused I know, but still relevant) Pepsi Challenge findings, with Coca-Cola vs. Pepsi in large contra small beverage containers. Some sensory stimulus plays on aspects of our sensory apparatus that “has bad taste” so to speak. We soon tire of and see through those “cheap tricks” with more exposure though. Trouble is in the global market place, bad taste often wins because you only have a short time of exposure and judgement before purchase, and there’s is always a fresh supply of naive people. PS. I don’t want to hear any malarky about bringing this thread “back from the dead”. Because, that is exactly what forums and the text on the internet as such, is good for in general. IE searching through and getting to content freely at any time seconds or decades after they took place: