Archived posting to the Leica Users Group, 2001/07/24
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]Frank Filippone writes: > >You are correct that in the imperfect world we live in, the lens, paper, > etc. all invent things ( we call them aberrations ) that were not in the > original image. They are somewhat uncontrolled and unrepeatable. I think there are some valid points being missed in these "debates". 1) In traditional photochemical photography, the aerial image which the lens forms on the film modulates a photochemical reaction which has an intrinsic stochastic nature. One way to think of this is that the aerial image is approximated by stochastic half-toning. When people talk about how much "information" there is in the film image they mean one of two very different things: a) how much reliable information is there about the original aerial image that the lens formed or b) how much data must be collected to convincingly reproduce the grain pattern as well. Both questions are valid, and they have different answers. Considering the two cases makes it clear that photo-chemical image capture is not an intrinsically "pixel" oriented process. In some photographic aesthetic traditions the grain pattern is extremely important to the final look of the photograph, so asking question b) is not just idle Luddite speculation. The question is: can I reproduce traditional black and white grain-aesthetics by scanning film and printing to an inkjet-printer? I have not been able to do this with my LS-2000 and Epson 1270, and I suspect that the 2700dpi limit on the Nikon is the problem. Inspite of Anthony A's theoretical calculations, I have seen beautfiul B&W prints (by Ralph Gibson) with wonderfully reproduced grain which were done by scanning traditional B&W prints on flatbed scanners, and then printing on Epson printers using piezography drivers. Mark Rabiner has confirmed that he is doing this also. This bee flies! 2) Both traditional photochemical prints and inkjet prints use forms of half-toning: very fine-grained photochemical half-toning in the former case, and various forms of half-toning (usually quasi-stochastic and not dithering) in the case of the latter. It is notoriously difficult to reason about half-toning systems, as they are designed to fool the human eye rather than to submit to simple-minded analyses. Look at some good Epson 1270-1280 prints under a loupe to get an idea of what I mean. 3) I always thought that the purpose of photography was to make images that communicated visual messages and were sometimes beautiful, rather than to live up to the ultimate resolution capabilities of any given lens. Besides, high-quality lenses have important properties other than high-resolution, such as: high contrast at lower resolutions, freedom from flare, freedom from excessive geometric distortion. I believe you will notice these properties at the lower resolutions required by anti-aliasing to 6MB chips. You certainly can see all these properties in 2700 dpi scans. 4) If you do service photography for non-profit groups (churches, schools and the like) you will quickly see that there are times when digital capture offers compelling advantages, chiefly in labor costs. Examples: take 200 head shots for the church directory and deliver them in digital form for incorporation in a published member roster photograph 100s of objects for incorporation in an auction catalog (also to be published electronically) Note that in both cases you are photographing for publication, where digital technology has completely won. It is not just the web which requires digital (or digitized) images. Also the images in question are not going to be timeless art. You will never make them into large prints for gallery display, and there is no incentive to archive them for posterity. 5) Digital capture can also be a big benefit in teaching photography, as I have done at my daughter's elementary school. Here the immediate feedback is quite important, as are the lower processing costs. 6) Note that digital photographs taken in black and white mode can be astonishingly beautiful, as you get around the color interpolation problem. My experience here was using an Olympus C3030 on a tripod doing still-lifes, working the children of my daughter's class. The prints were 6 x 9 inches, done on an Epson 1270. 7) Even if you are willing to restrict yourself to the smaller print sizes which typical single-shot digital capture limits you to, there are weaknesses in the current (pro-sumer) cameras. I find I cannot use the C3030 for candid shots of people in naturally-lit interiors--the combined focus and shutter lag is simply too long. It is also difficult to work the manual controls--imagine having to set your aperture by nudging a button 1/3 of a stop at a time! The old analog dials have a real advantage there. I still shoot artsy stuff and candids on film cameras, but I use the digital for a lot of service work. I'm also working on a proposal for a crafts book, and I shoot film for the illustrations, because my digital camera doesn't produce very good-looking specular highlights in color (it has the notorious purple-fringe problem). It will be interesting to see if the Leica/Matsushita offerings get around any of the current digital limitations.