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Bit of a Con Really - Follow-up ...
Leonard Caillouet wrote:
Again, while it is true that you can make any color within a given gamut with some combination of R,G, & B, it is NOT true that you will get the CORRECT color for ALL colors if the decoding matrix is not correct (very common in many consumer sets over the years, if the gamut is wrong, if the gray scale is wrong, or if the spectrum is wrong. To get the right mix of colors for all colors in a given system, you have to play by the rules for that system. If you change them, such as is the case when you deviate in spectral response from the CIE curves, you have to make it up somewhere else. This gets very complicated and is precisely why some people who are sensitive to color reproduction have noticed that LED based displays have had trouble with some colors. I think that the important point is that the CIE standards are a subset of colors, not the millions of colors people think they are getting from a computer display. Geoff. -- Geoffrey S. Mendelson, Jerusalem, Israel N3OWJ/4X1GM |
Bit of a Con Really - Follow-up ...
The Natural Philosopher wrote:
wrote: Schrodinger's cat wrote: "The Natural Philosopher" wrote in message ... wrote: The Natural Philosopher wrote: You would think so really, but going back to film photography, there are reasons why portraits were always shot on e.g. Konica, landscapes on Agfa or Fuji, , and no one used Kodak at all professionally - Except for Kodachrome.. NT Film is a whole nother business. You've got a lot less control over its 'colour settings' than you have with a display screen, and ditto re optical linearity. The issues with an LCD screen are quite different. well in the sense that they all use combinations of RGB (or CYMK) to produce a 'full colour spectrum'and none succeed perfectly for all applications, they are considerably identical, actually. No, they aren't. Very basically, you have to understand that: A printed image is sending reflected light to your eye. It can only reflect some portion of the spectrum of light it has absorbed. A screen is is sending transmitted light to your eye, which has no reflective element to speak of. Put even more simply, a printed image varies dramatically under different lighting conditions, unlike a screen. They could hardly be less identical and the analogy with different brands of film is not applicable at all. HTH issues very different. Proof by assertion. Go read some textbooks on the subject of colour management for screen & print. The topic is far too complex to sum up from first principles in a newsgroup post. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
wrote:
The Natural Philosopher wrote: wrote: Schrodinger's cat wrote: "The Natural Philosopher" wrote in message ... wrote: The Natural Philosopher wrote: You would think so really, but going back to film photography, there are reasons why portraits were always shot on e.g. Konica, landscapes on Agfa or Fuji, , and no one used Kodak at all professionally - Except for Kodachrome.. NT Film is a whole nother business. You've got a lot less control over its 'colour settings' than you have with a display screen, and ditto re optical linearity. The issues with an LCD screen are quite different. well in the sense that they all use combinations of RGB (or CYMK) to produce a 'full colour spectrum'and none succeed perfectly for all applications, they are considerably identical, actually. No, they aren't. Very basically, you have to understand that: A printed image is sending reflected light to your eye. It can only reflect some portion of the spectrum of light it has absorbed. A screen is is sending transmitted light to your eye, which has no reflective element to speak of. Put even more simply, a printed image varies dramatically under different lighting conditions, unlike a screen. They could hardly be less identical and the analogy with different brands of film is not applicable at all. HTH issues very different. Proof by assertion. I find it hard to believe that anyone could think the same controls were available to them with a paper/transparency process as with a computer monitor. I cant think of any possible motivation to prove whats quite obvious to anyone's that done photographic printing. Indeed. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
Andy Champ wrote:
The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... And LCDs use a matrix of RGB filters over a backlight, which makes them behave similarly to a transparency in a projector, with the exception that you can tweak the RGB values to change the colour balance - which you *can't* do with film transparencies. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
In article ,
Bob Larter wrote: You can't tweak the colour response of film, You can during processing. -- *All those who believe in psychokinesis, raise my hand * Dave Plowman London SW To e-mail, change noise into sound. |
Bit of a Con Really - Follow-up ...
Dave Plowman (News) wrote:
In article , The Natural Philosopher wrote: But then different makes of transparencies give different results... And transparencies are usually used for top quality magazine prints not 'projected onto a screen' anyway. And are adjusted as part of the printing process. Which process is an entire art & science of its own. It is *not* easy to do a good job of converting an RGB light image into CMYK pigments. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
dennis@home wrote:
"The Natural Philosopher" wrote in message ... Andy Champ wrote: The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... Ah, so that is why they are backlit then? So they can 'make their own? What a prat. An LCD display IS a color transparency. No it is not! A transparency is a subtractive process. An lcd is additive. Um, this sounds a little confused. The important distinction is between *additive* colour (eg; RGB) vs *subtractive* colour (eg; CMYK). With RGB, you're *filtering* a full spectrum illuminant, with CMYK, you're *absorbing* part of a full spectrum illuminant. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
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Bit of a Con Really - Follow-up ...
Leonard Caillouet wrote:
wrote in message ... William Sommerwerck wrote: The LCD only filters light from the backlight. If you don't have a full spectrum white in the first place the you can't expect decent colour. Not so. All you have to do is hit the defined points in CIE diagram. The Pioneer plasma sets hit them dead-on. Indeed. None of the major display techologies deliver full spectrum, nor do they need to. NT This is true only if you have custom LUTs or decoding algorithms for a display based on the relationship between the spectra of the lighting and the CIE standard observer functions that cameras are generally aligned to approximate. The other thing that no one mentions is that trying to make up for spectral shortcomings with different filters and decoding reduces the efficiency of the lighting system. Of course. There is usually a "rest of the story" beyond the naive assumptions that get thrown around about reproducing color. This thread is full of examples. Those of us who take colour reproduction seriously use colourimeters to calibrate the screen & display card LUTs. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
Bob Larter wrote:
You can't tweak the colour response of film, you can with CRTs or LCDs. People have been known to do it with Ektachrome type film (Ektachrome, Fijuchrome, AgfaChrome, Ilfochrome, etc) with varying success by tweaking the exposure and development. At one time you could get Kodachrome developed to spec, which was intended to correct for mistakes in exposure, but it certainly would change color response. In the printing process, either to film (used in movies) or paper, you could do all sorts of things. Standard C-41 color film has an exposure latitude of less than one stop underexposure, but 4-5 stops of overexposure. As the exposure increases, color response, contrast and graniness change. If you like fine grained over saturated colors, try shooting a roll of ISO 100 color negative film and have it processed normally. Technicolor which is actually a black and white negative process (producing seperate red, green and blue negatives on black and white film) could very easily be manipulated and often was. Look at the recent prints (or the DVD from them) of The Wizard of Oz. The original intention was to produce a movie that was almost cartoon like in its color, later prints were much more subdued, almost "normal" in color as well as the video tapes made from them. Geoff. -- Geoffrey S. Mendelson, Jerusalem, Israel N3OWJ/4X1GM |
Bit of a Con Really - Follow-up ...
Leonard Caillouet wrote:
wrote in message ... Leonard Caillouet wrote: wrote in message ... William Sommerwerck wrote: The LCD only filters light from the backlight. If you don't have a full spectrum white in the first place the you can't expect decent colour. Not so. All you have to do is hit the defined points in CIE diagram. The Pioneer plasma sets hit them dead-on. Indeed. None of the major display techologies deliver full spectrum, nor do they need to. NT This is true only if you have custom LUTs or decoding algorithms for a display based on the relationship between the spectra of the lighting and the CIE standard observer functions that cameras are generally aligned to approximate. What that has to do with it I dont know. If you find an RGB display with violet output, I'm all ears. NT It has everything to do with accurate reproduction of color in video. What you seem to miss is that the underlying assumption in color reproduction in video is that the display and the camera both approximate the CIE standard observer curves for red, green, and blue spectral response. If this is the case, and you encode properly, you can use a standard decoding matrix on the display end and get a reasonable reproduction of what was recorded. If you have a very narrow spectrum on either end, some colors will be reproduced with less energy than with the proper spectrum. This can be compensated for using a customized matrix or LUTs. Again, while it is true that you can make any color within a given gamut with some combination of R,G, & B, it is NOT true that you will get the CORRECT color for ALL colors if the decoding matrix is not correct (very common in many consumer sets over the years, if the gamut is wrong, if the gray scale is wrong, or if the spectrum is wrong. To get the right mix of colors for all colors in a given system, you have to play by the rules for that system. If you change them, such as is the case when you deviate in spectral response from the CIE curves, you have to make it up somewhere else. This gets very complicated and is precisely why some people who are sensitive to color reproduction have noticed that LED based displays have had trouble with some colors. Leonard I agree with what you're saying, it just wasnt the point I was addressing. NT |
Bit of a Con Really - Follow-up ...
Bob Larter wrote:
The Natural Philosopher wrote: wrote: The Natural Philosopher wrote: You would think so really, but going back to film photography, there are reasons why portraits were always shot on e.g. Konica, landscapes on Agfa or Fuji, , and no one used Kodak at all professionally - Except for Kodachrome.. NT Film is a whole nother business. You've got a lot less control over its 'colour settings' than you have with a display screen, and ditto re optical linearity. The issues with an LCD screen are quite different. well in the sense that they all use combinations of RGB (or CYMK) to produce a 'full colour spectrum'and none succeed perfectly for all applications, they are considerably identical, actually. You can't tweak the colour response of film, you can with CRTs or LCDs. You can actually. |
Bit of a Con Really - Follow-up ...
Bob Larter wrote:
Andy Champ wrote: The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... And LCDs use a matrix of RGB filters over a backlight, which makes them behave similarly to a transparency in a projector, with the exception that you can tweak the RGB values to change the colour balance - which you *can't* do with film transparencies. Why do color enlargers come equipped with color filters then? |
Bit of a Con Really - Follow-up ...
This is simply not true. Every display has a color gamut that is
limited by the maximum saturation of its primaries. You can produce any color within that gamut but not any outside. Correct. Even if every flesh tone is in that gamut, that does not mean that you will get the right flesh tones for a given combination of RGB. In order to do so, you must have the same spectrum in the primaries that you have in the camera filters... This bothers me. It might be true in a practical sense, but it's always struck me as being theoretically wrong (mostly because of the extreme overlap of the eye's blue and green receptors). I won't start an argument, though, because, even if my intuition is correct, I don't have the "science" to back it up. |
Bit of a Con Really - Follow-up ...
You can during processing.
How? The film's color response is basically set by the choice of sensitizers. You can adjust the balance, but that's not the same thing. |
Bit of a Con Really - Follow-up ...
Arfa Daily wrote:
"William Sommerwerck" wrote in message ... The LCD only filters light from the backlight. If you don't have a full spectrum white in the first place the you can't expect decent colour. White LEDs aren't quite there yet are they? Absolutely true, except that this particular TV doesn't use white LEDs in its 'revolutionary' backlighting scheme. It uses small RGB arrays, which is why I was questioning whether there was any control over the individual elements in each array, such that the colour temperature of the nominally white light that they produce, could be varied. Which would then, of course, have a corresponding effect on the displayed colour balance. It just seemed to me that given they have gone to the trouble of using RGB arrays, rather than white LEDs, the reason for that might have been to get a full(er) spectrum white. In a very broad sense, the last thing you want is a "full-spectrum" light. The standard primaries are diluted with too much white as it is. I guess it comes down to definitions and how 'full spectrum' is perceived. Rightly or wrongly, I tend to think of it as a spectrum which contains the same component colours in the same ratios, as natural daylight, but I guess even that varies depending on filtering effects of cloud cover and haze and so on. It does. One specifies that with colour temperature. Eg; direct sunlight is about 5000K, while shade is up around 6500K, & tungsten light bulbs are down around 2400K. Higher temperatures are biased towards blue, lower are biased towards red. The white balance of a screen or an image is specified in the same way. Even so, I'm sure that there must be some definition of 'average spectrum daylight', There is: 6500K, which is what I have my monitors calibrated to. Traditionally, the print (CMYK) media use 5500K. and I would expect that any display technology would aim to reproduce any colour in as closely exact a way as it would appear if viewed directly under daylight. In general, that's true, although it's common for LCD monitors to have a factory WB of as much as 8000K, as it makes the image zappier. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
"Bob Larter" wrote in message ... dennis@home wrote: "The Natural Philosopher" wrote in message ... Andy Champ wrote: The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... Ah, so that is why they are backlit then? So they can 'make their own? What a prat. An LCD display IS a color transparency. No it is not! A transparency is a subtractive process. An lcd is additive. Um, this sounds a little confused. The important distinction is between *additive* colour (eg; RGB) vs *subtractive* colour (eg; CMYK). With RGB, you're *filtering* a full spectrum illuminant, with CMYK, you're *absorbing* part of a full spectrum illuminant. Its only confusing to people that don't understand that backlit LCDs, like CRTs, add three primary colours together to make a colour image. The source (phosphors or white light tubes/LEDs with colour filters) of the primary colours may vary but the process is the same. It is not the same as a slide which filters each pixel (that's picture element to the one who claimed slides don't have pixels) through several coloured layers or prints that do it with inks of various shades. |
Bit of a Con Really - Follow-up ...
The Natural Philosopher wrote:
Schrodinger's cat wrote: "The Natural Philosopher" wrote in message ... wrote: The Natural Philosopher wrote: You would think so really, but going back to film photography, there are reasons why portraits were always shot on e.g. Konica, landscapes on Agfa or Fuji, , and no one used Kodak at all professionally - Except for Kodachrome.. NT Film is a whole nother business. You've got a lot less control over its 'colour settings' than you have with a display screen, and ditto re optical linearity. The issues with an LCD screen are quite different. well in the sense that they all use combinations of RGB (or CYMK) to produce a 'full colour spectrum'and none succeed perfectly for all applications, they are considerably identical, actually. No, they aren't. Very basically, you have to understand that: A printed image is sending reflected light to your eye. It can only reflect some portion of the spectrum of light it has absorbed. Color transparencies which are used in pro film applications say your are a liar. Colour transparencies aren't printed images. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
The Natural Philosopher wrote:
Bob Larter wrote: Andy Champ wrote: The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... And LCDs use a matrix of RGB filters over a backlight, which makes them behave similarly to a transparency in a projector, with the exception that you can tweak the RGB values to change the colour balance - which you *can't* do with film transparencies. Why do color enlargers come equipped with color filters then? You're completely missing the point. Once again, projected colour transparencies are nothing like printed images. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
Dave Plowman (News) wrote:
In article , Bob Larter wrote: You can't tweak the colour response of film, You can during processing. Yeah, okay, you can, but it's rarely done. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
Geoffrey S. Mendelson wrote:
Bob Larter wrote: You can't tweak the colour response of film, you can with CRTs or LCDs. People have been known to do it with Ektachrome type film (Ektachrome, Fijuchrome, AgfaChrome, Ilfochrome, etc) with varying success by tweaking the exposure and development. That's true, but it's a joke compared to being able to directly tune the black level & amptitude of RGB levels on an LCD panel or CRT. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
The Natural Philosopher wrote:
Bob Larter wrote: The Natural Philosopher wrote: wrote: The Natural Philosopher wrote: You would think so really, but going back to film photography, there are reasons why portraits were always shot on e.g. Konica, landscapes on Agfa or Fuji, , and no one used Kodak at all professionally - Except for Kodachrome.. NT Film is a whole nother business. You've got a lot less control over its 'colour settings' than you have with a display screen, and ditto re optical linearity. The issues with an LCD screen are quite different. well in the sense that they all use combinations of RGB (or CYMK) to produce a 'full colour spectrum'and none succeed perfectly for all applications, they are considerably identical, actually. You can't tweak the colour response of film, you can with CRTs or LCDs. You can actually. Nothing like to the degree that you can with CRTs or LCDs. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
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Bit of a Con Really - Follow-up ...
Arfa Daily wrote:
wrote in message ... William Sommerwerck wrote: I guess it comes down to definitions and how 'full spectrum' is perceived. Rightly or wrongly, I tend to think of it as a spectrum which contains the same component colours in the same ratios, as natural daylight... That's a reasonable definition for a video display, but it's not sufficient for source lighting. It's difficult to make a "full spectrum" fluorescent lamp, especially one that produces good color rendition for photograpy. but I guess even that varies depending on filtering effects of cloud cover and haze and so on. Even so, I'm sure that there must be some definition of 'average spectrum daylight', and I would expect that any display technology would aim to reproduce any colour in as closely exact a way as it would appear if viewed directly under daylight. The standard is D6500, a 6500K continuous spectrum from a black-body source. What you suggest is, indeed, the intent. TBH I think this is overplaying the significant of daylight. Almost any monitor is adjustable to suit preferences of anything from 5000K to 10,000K, and some go lower. None manke any attempt to copy the colour spectrum of daylight, they merely include the same colour temp as daylight as one of the options. None of the major display types have any ability to copy a daylight spectrum, as they're only RGB displays. NT But take account of the fact that we're talking domestic television sets here, not computer monitors. For the most part, TV sets do not display the same type of content as a computer monitor, and do not include user accessible colour temperature presets or adjustments, which is why I made the point earlier that in general, LCD TVs are set correctly 'out of the box'. As far as overplaying the significance of daylight goes, I'm not sure that I follow what you mean by that. If I look at my garden, and anything or anybody in it, the illumination source will be daylight, and the colours perceived will be directly influenced by that. If I then reproduce that image on any kind of artificial display, and use a different reference for the white, then no other colour will be correct either, which was ever the case when CRTs were set up to give whites which were either too warm or too cold, even by a fraction. Maybe we're talking at cross purposes here, or I'm not understanding something properly, but it seems to me that the colour temperature and CRI of the backlighting on an LCD TV, would be crucially important to correct reproduction of colours. That's exactly correct. The colour temperature of the reference white (ie; the WB) is vitally important for correct colour rendition. The eye will adjust to an incorrect WB, but it will still be incorrect. All I know is, is that the flesh tones were poor on the example that I saw, compared to other LCD TVs which were showing the same picture. The fundamental difference between those sets and the Sammy, was the CCFL vs LED backlighting, so it seems reasonable to draw from that, the inference that the backlighting scheme may well be the cause, no ? It's just as likely that, as you said, a salesbunny wound up the colour control to make the image "look better". Go knows that it's common practice in showrooms. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
William Sommerwerck wrote:
The ability of most consumers to do more than make a mess is very unlikely. Even someone like myself, having calibrated displays for 30 years, can't do much to align a color management system without a GOOD meter. I can get gray scale improved, but not really accurate. Does anyone make cheap-but-good instrumentation? I could justify a $500 investment. (I can hear you laughing now.) Not at all: http://spyder.datacolor.com/product-mc-s2e.php -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
"Bob Larter" wrote in message
... William Sommerwerck wrote: The ability of most consumers to do more than make a mess is very unlikely. Even someone like myself, having calibrated displays for 30 years, can't do much to align a color management system without a GOOD meter. I can get gray scale improved, but not really accurate. Does anyone make cheap-but-good instrumentation? I could justify a $500 investment. (I can hear you laughing now.) Not at all: http://spyder.datacolor.com/product-mc-s2e.php And the Spyder will let me set up my Pioneer Kuro correctly? Because that's what we were discussing. I already have a huey, which did a decent job on my computer monitor. |
Bit of a Con Really - Follow-up ...
"William Sommerwerck" wrote in message
... This is simply not true. Every display has a color gamut that is limited by the maximum saturation of its primaries. You can produce any color within that gamut but not any outside. Correct. Even if every flesh tone is in that gamut, that does not mean that you will get the right flesh tones for a given combination of RGB. In order to do so, you must have the same spectrum in the primaries that you have in the camera filters... This bothers me. It might be true in a practical sense, but it's always struck me as being theoretically wrong (mostly because of the extreme overlap of the eye's blue and green receptors). I won't start an argument, though, because, even if my intuition is correct, I don't have the "science" to back it up. The overlap is caused by the shape of the standard observer curves and is part of the very reason that using a narrow band RGB device may not produce color properly. The CIE standard observer curves are precisely attempts at modeling the response of the human visual system. For decades, cameras have been calibrated to match them, and phosphors designed to do the same, to the degree possible. Now, with narrow spectrum devices, we have to consider the implications of those assumptions. It may be that in the future, we should simplify the system and use a narrow band response in cameras and reproduce the RGB in the same manner at the display. Then we can more easily predict the output of RGB systems using a standard matrix. Leonard |
Bit of a Con Really - Follow-up ...
"William Sommerwerck" wrote in message
... "Bob Larter" wrote in message ... William Sommerwerck wrote: The ability of most consumers to do more than make a mess is very unlikely. Even someone like myself, having calibrated displays for 30 years, can't do much to align a color management system without a GOOD meter. I can get gray scale improved, but not really accurate. Does anyone make cheap-but-good instrumentation? I could justify a $500 investment. (I can hear you laughing now.) Not at all: http://spyder.datacolor.com/product-mc-s2e.php And the Spyder will let me set up my Pioneer Kuro correctly? Because that's what we were discussing. I already have a huey, which did a decent job on my computer monitor. My experience with the spyder products and other tristimulus colorimeters such as those from xrite and sencore (really just a version of the xrite products) is that they are a poor choice for anything other than gray scale. If you want to adjust a CMS properly, you need a spectrophotometer. The minimum useful would be the i1 pro. Leonard |
Bit of a Con Really - Follow-up ...
The Natural Philosopher wrote:
Andy Champ wrote: The Natural Philosopher wrote: Color transparencies which are used in pro film applications say your are a liar. Not really. Transparencies subtract some colours from the transmitted light; prints subtract some from the reflected light. Displays make their own... Ah, so that is why they are backlit then? So they can 'make their own? What a prat. An LCD display IS a color transparency. Thinking about this offline leads me to realise that there is a fundamental difference between the operation of a slide and the operation of an LCD display. A slide consists of a series of coloured dots (CMY) mixed together in such a way that they filter out some of the colour, and leave the rest. A red dot will be produced where the G and B have been filtered out, and only the R left. An LCD consists of ADJACENT (not overlaid) coloured filters. So a red dot is produced by having the B and G pixels opaque, and only the R one (which always has no G or B) letting light through. Andy |
Bit of a Con Really - Follow-up ...
William Sommerwerck wrote:
"Bob Larter" wrote in message ... William Sommerwerck wrote: The ability of most consumers to do more than make a mess is very unlikely. Even someone like myself, having calibrated displays for 30 years, can't do much to align a color management system without a GOOD meter. I can get gray scale improved, but not really accurate. Does anyone make cheap-but-good instrumentation? I could justify a $500 investment. (I can hear you laughing now.) Not at all: http://spyder.datacolor.com/product-mc-s2e.php And the Spyder will let me set up my Pioneer Kuro correctly? Because that's what we were discussing. I already have a huey, which did a decent job on my computer monitor. In that case, you might be able to rig up some way of using it on your Pioneer. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
Bit of a Con Really - Follow-up ...
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Bit of a Con Really - Follow-up ...
And the Spyder will let me set up my Pioneer Kuro correctly?
Because that's what we were discussing. I already have a huey, which did a decent job on my computer monitor. In that case, you might be able to rig up some way of using it on your Pioneer. Uh-huh. |
Bit of a Con Really - Follow-up ...
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Bit of a Con Really - Follow-up ...
Dave Plowman (News) wrote:
In article , Arfa Daily wrote: I think that I would have to contest your point of "very limited control". All of the (recent) half-way decent LCD screens that I have seen to date, have a perfectly adequate contrast ratio. Certainly, the one in my kitchen produces deep enough blacks and bright enough whites to be absolutely fine under the pretty intense flourescent light that I have in there. This is one of the reasons that I question the requirement to extinguish areas of the backlighting in order to 'improve' the rendition of blacks. If you're just watching casually under high ambient lighting, the quality of the blacks is pretty irrelevant. It's when you're doing some serious viewing under subdued lighting that it matters. And this is exactly where ordinary backlit LCD falls over against CRT. Exactly. It's why CRTs are better than LCDs for editing photos, for example. -- W . | ,. w , "Some people are alive only because \|/ \|/ it is illegal to kill them." Perna condita delenda est ---^----^--------------------------------------------------------------- |
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