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"Kenneth" <kdw### [at] gmailcom> wrote:
> Given:
> radiosity{brightness 1.0}
> light_source{rgb .7}
> object{... pigment{rgb <.3,.5,.7> finish{diffuse 1.0}}
>
> Does the 'automatic balancing' keep the object surface color at <.3,.5,.7>
> (depending of course on the angle-of-incidence of the light source hitting it)?
> ...
Let me re-word that, so it hopefully makes better sense...
Given:
radiosity{brightness 1.0}
light_source{rgb .7}
object{... pigment{rgb <.3,.5,.7> finish{diffuse 1.0}}
Does the 'automatic balancing' keep the object surface's DIFFUSE color from
exceeding .7*<.3,.5,.7> (as if NO radiosity is used)--depending of course on the
angle-of-incidence of the light source hitting the object? Or does my diffuse
setting need to be manually reduced, to keep the color from washing out to, say,
.7*<.3 + 1.0,.5 + 1.0,.7 + 1.0> or maybe (1.0 + .7)*<.3,.5,.7>
....DUE TO THE ADDITION OF RADIOSITY LIGHT. Or am I still clueless about what
'automatic balancing' means? :-O
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From: clipka
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 18 Mar 2018 20:55:58
Message: <5aaf0a9e$1@news.povray.org>
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Am 18.03.2018 um 21:31 schrieb Kenneth:
> Otherwise, it seems that using a LOW-dynamic-range sky + light_source(s)
> requires *some* kind of tweaking (of one subtle thing or another).. yet which
> still works against the radiosity mechanism, if only in a technical sense.
No, it shouldn't require tweaking.
(In v3.7 there's still /some/ tweaking to be done to balance reflections
vs. highlights. But stuff is improving.)
> My desire to increase the contrast of a rad scene-- if I feel that it's
> necessary-- looks like a no-win situation (except in the HDR light probe case).
> Unless I simply postpone that step, and do it later as a post-processing effect
> in another graphics app.
If you want realism, take what the proper settings give you.
If you want pure art, tweak as tweak can.
If you want art based on realism, render with proper settings, then
post-process to taste. (Inbuilt tonemapping featureas are on the agenda,
BTW.)
>> Radiosity and diffuse are mutually balanced automatically (if you don't
>> tamper with radiosity brightness...
>
> *That* is a key insight that I've been wondering about. I hope I understand it
> (as it relates to a LOW-dynamic-range sky set-up):
>
> Given:
> radiosity{brightness 1.0}
> light_source{rgb .7}
> object{... pigment{rgb <.3,.5,.7> finish{diffuse 1.0}}
>
> Does the 'automatic balancing' keep the object surface color at <.3,.5,.7>
> (depending of course on the angle-of-incidence of the light source hitting it)?
> Or does my diffuse setting need to be manually reduced, to keep the color from
> washing out to, say, <.6,1.0,1.2> (just as a conceptual idea, not real math). Or
> am I still clueless about what 'automatic balancing means? :-O
`pigment { rgb Cp } finish { diffuse D }` means that /any/ incoming
light of brightness/colour Ci will be diffusely reflected for an
effective brightness/colour of Ci*Cp*D*F, where F is a factor that
solely depends on geometry (surface normal, incoming light direction and
outgoing light direction) and (if finish-level fresnel is enabled) the
refractive index of the material.
Point light sources, photon mapping and radiosity are all just methods
of computing which point on an object surface receives how much incoming
light from which direction, and they complement each other: The point
light source algorithm only takes into account light paths directly from
classic light sources to the observed surface (and not traversing photon
targets); the photon algorithm only takes into account light paths
refracted by photon targets; and the radiosity algorithm only takes into
account light paths where the light is bounced off other objects, or
where the light is emitted by another object (or a sky sphere) rather
than a classic light source.
There is no "washing out" caused by the radiosity algorithm itself: If
you replaced the sky sphere with a gazillion point light sources all
coloured in accordance with the image, you'd get pretty much exactly the
same result.
The surface of an object with pigment rgb <.3,.5,.7> will always have an
effective apparent colour of <.3,.5,.7>*Brightness, provided all the
light sources are "white" (R=G=B) and there is no specular reflection
nor specular highlights, nor "ambient" nor emission. (And no intervening
media or some such, of course.)
Note however that sky tends to be blue in hue, which might cause red and
yellow hues to appear more washed out; on the other hand, blue hues will
get more pronounced. To counteract this, make sure to tune your "sun"
light source to a yellowish hue, which by the way is also realistic.
(HDR sky spheres should normally already account for this effect.)
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From: clipka
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 18 Mar 2018 21:11:38
Message: <5aaf0e4a$1@news.povray.org>
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Am 18.03.2018 um 22:02 schrieb Kenneth:
> Let me re-word that, so it hopefully makes better sense...
>
> Given:
> radiosity{brightness 1.0}
> light_source{rgb .7}
> object{... pigment{rgb <.3,.5,.7> finish{diffuse 1.0}}
>
> Does the 'automatic balancing' keep the object surface's DIFFUSE color from
> exceeding .7*<.3,.5,.7> (as if NO radiosity is used)--depending of course on the
> angle-of-incidence of the light source hitting the object? Or does my diffuse
> setting need to be manually reduced, to keep the color from washing out to, say,
>
> .7*<.3 + 1.0,.5 + 1.0,.7 + 1.0> or maybe (1.0 + .7)*<.3,.5,.7>
>
> .....DUE TO THE ADDITION OF RADIOSITY LIGHT. Or am I still clueless about what
> 'automatic balancing' means? :-O
If you disable radiosity, your result image will have
.7*Fc*<.3,.5,.7>
where Fc is a scalar (depending on angle of incidence and such stuff),
i.e. colour neutral.
If you enable radiosity and the sky colour is grey with a brightness of
.5, your result image will have:
.7*Fc*<.3,.5,.7> + .5*Fr*<.3,.5,.7>
where Fr is also a scalar (again depending on angle of incidence and
such stuff), i.e. colour neutral; so in total you'll get:
(.7*Fc+.5*Fr) * <.3,.5,.7>
So no washing out there - just more brightness.
Things get different if your sky sphere isn't colour neutral, but the
same would be true for a non-colour-neutral point light source.
But maybe instead of your colours getting "washed out", what you really
mean is that your colours are getting "burned" - the effect that you get
when one or two colour components exceed the dynamic range of the LDR
output file format and is thus clipped, effectively desaturating the colour.
If that is what you get, the proper solution is to tune down the
brightness of /both/ the sun and the sky (which, as noted before, isn't
the same as tuning down the radiosity brightness setting).
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From: Stephen
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 19 Mar 2018 14:05:14
Message: <5aaffbda$1@news.povray.org>
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On 18/03/2018 20:31, Kenneth wrote:
> My desire to increase the contrast of a rad scene-- if I feel that it's
> necessary--
That's the main reason I don't use radiosity. So I am following this
thread with interest.
When rating entries in TC-RTC I would lower the gamma in PSP 9 to get an
image that did not look washed out to my eyes.
--
Regards
Stephen
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From: Thomas de Groot
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 20 Mar 2018 03:48:23
Message: <5ab0bcc7@news.povray.org>
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On 19-3-2018 19:05, Stephen wrote:
> On 18/03/2018 20:31, Kenneth wrote:
>> My desire to increase the contrast of a rad scene-- if I feel that it's
>> necessary--
>
> That's the main reason I don't use radiosity. So I am following this
> thread with interest.
> When rating entries in TC-RTC I would lower the gamma in PSP 9 to get an
> image that did not look washed out to my eyes.
>
I am not convinced that was caused by radiosity. My own 'obsession' with
atmospheric media for instance, when it is not well balanced, gives some
washout. I am struggling with it I confess (see my latest 'Cat Alley'
for instance). To illustrate my point, look at my latest p.b.i.
contribution "N". In both images radiosity was used and whether on the
left hand image that may have led to washing out... I am not sure. In
particular, I drastically changed my texturing of Poser model skins for
instance.
--
Thomas
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From: Stephen
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 20 Mar 2018 04:15:07
Message: <5ab0c30b$1@news.povray.org>
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On 20/03/2018 07:48, Thomas de Groot wrote:
> On 19-3-2018 19:05, Stephen wrote:
>> On 18/03/2018 20:31, Kenneth wrote:
>>> My desire to increase the contrast of a rad scene-- if I feel that it's
>>> necessary--
>>
>> That's the main reason I don't use radiosity. So I am following this
>> thread with interest.
>> When rating entries in TC-RTC I would lower the gamma in PSP 9 to get
>> an image that did not look washed out to my eyes.
>>
>
> I am not convinced that was caused by radiosity. My own 'obsession' with
> atmospheric media for instance, when it is not well balanced, gives some
> washout. I am struggling with it I confess (see my latest 'Cat Alley'
> for instance).
I may have jumped to conclusions with too few examples.
> To illustrate my point, look at my latest p.b.i.
> contribution "N". In both images radiosity was used and whether on the
> left hand image that may have led to washing out... I am not sure. In
> particular, I drastically changed my texturing of Poser model skins for
> instance.
>
The brickwork looks more distinctive as do the plants.
--
Regards
Stephen
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clipka <ano### [at] anonymousorg> wrote:
>
> But maybe instead of your colours getting "washed out", what you really
> mean is that your colours are getting "burned" - the effect that you get
> when one or two colour components exceed the dynamic range of the LDR
> output file format and is thus clipped, effectively desaturating the colour.
Yes, that is what I meant-- and you explain it better than I did :-;
>
> If that is what you get, the proper solution is to tune down the
> brightness of /both/ the sun and the sky (which, as noted before, isn't
> the same as tuning down the radiosity brightness setting).
I do see the reason for rad brightness 1.0 now; but it's the turning down of the
sky brightness that puzzles me.
Still assuming a low-dynamic-range setup, not HDR: If I use a sky photo of
clouds that looks nice-- set to emission 1.0, and which might actually appear in
the rendered scene-- turning down its brightness (i.e., emission value) will
cause it to have a 'dull' visual look in the render (what was once full white
now being a somewhat darker gray, for instance.) While that may indeed 'balance'
the radiosity lighting as far as color-clipping of object surfaces goes, the
visual appearance of the 'sky' itself is now dull. (That was my reasoning for
making two identical photo-mapped sky spheres-- where the *visible* sky is still
at emission 1.0)
So maybe my two spheres simply don't have the proper no_reflection tags (or etc)
in the right places? You may have alluded to this earlier; but which setting to
use where is still a little mysterious (so that all the rad 'numbers' again work
correctly behind-the-scenes.) Sorry to keep asking these odd questions; there's
only a *little* bit of mystery remaining ;-)
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From: Alain
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 20 Mar 2018 19:31:44
Message: <5ab199e0@news.povray.org>
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Le 18-03-18 à 16:31, Kenneth a écrit :
> clipka <ano### [at] anonymousorg> wrote:
>> Am 17.03.2018 um 15:39 schrieb Kenneth:
>
>>> This probably still amounts to 'tweaking'-- but unless there's a remaining
>>> technical problem, it works for me.
>>
>> It remains tweaking indeed: This approach still breaks some (realistic)
>> brightness balance - namely that between radiosity and specular reflections.
>
> :-( As the old Yiddish saying says, "Oy Vey!" :-P
>
> I'm beginning to think that the only way to get a truly 'realistic' radiosity
> render is to use an HDR light probe for the sky, with no additional light
> sources... in which case, POV-Ray itself works with all the correct values(?)
> and in the correct way.
>
> Otherwise, it seems that using a LOW-dynamic-range sky + light_source(s)
> requires *some* kind of tweaking (of one subtle thing or another).. yet which
> still works against the radiosity mechanism, if only in a technical sense.
>
> My desire to increase the contrast of a rad scene-- if I feel that it's
> necessary-- looks like a no-win situation (except in the HDR light probe case).
> Unless I simply postpone that step, and do it later as a post-processing effect
> in another graphics app.
>
>> Radiosity and diffuse are mutually balanced automatically (if you don't
>> tamper with radiosity brightness...
>
> *That* is a key insight that I've been wondering about. I hope I understand it
> (as it relates to a LOW-dynamic-range sky set-up):
>
> Given:
> radiosity{brightness 1.0}
> light_source{rgb .7}
> object{... pigment{rgb <.3,.5,.7> finish{diffuse 1.0}}
>
> Does the 'automatic balancing' keep the object surface color at <.3,.5,.7>
> (depending of course on the angle-of-incidence of the light source hitting it)?
> Or does my diffuse setting need to be manually reduced, to keep the color from
> washing out to, say, <.6,1.0,1.2> (just as a conceptual idea, not real math). Or
> am I still clueless about what 'automatic balancing means? :-O
>
>
>
>
>
You always can use a sky_sphere or a large sphere enclosing your scene.
You can use emission value larger than 1 if you want, or need.
You don't need to use HDRI, or even any image format at all for your sky.
To increase the contrast, and get better shadows, you can reduce the
error_bound value. The default is correct when you also use some
conventional light, but it need to be lowered for pure radiosity scenes.
In the example that you provide, you need to also take into account the
diffuse part of your finish. It's diffuse 0.7 if you don't explicitly
change it.
Here, the colour is, for a light perpendicular to the surface and that
highly unrealistic diffuse of 1 :
rgb<0.3, 0.5, 0.7>*<0.7, 0.7, 0.7> = <0.21, 0.35, 0.49>
Next, if you use some colour picker, there is an additional gamma
handling to take into account that will effectively change all channels
in a non-linear way and thus change their relative values and reduce the
saturation.
Don't forget that using diffuse 1 is NOT realistic. A very bright
surface may have a diffuse as high as 0.95 or even 0.98, never 1.
Using diffuse 1 is a very good way to get washed out colours.
Alain
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From: Ive
Subject: Re: radiosity brightness-- subtle problem at low values
Date: 21 Mar 2018 08:46:25
Message: <5ab25421@news.povray.org>
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Am 3/21/2018 um 0:00 schrieb Kenneth:
> I do see the reason for rad brightness 1.0 now; but it's the turning down of the
> sky brightness that puzzles me.
>
> Still assuming a low-dynamic-range setup, not HDR: If I use a sky photo of
> clouds that looks nice-- set to emission 1.0, and which might actually appear in
> the rendered scene-- turning down its brightness (i.e., emission value) will
> cause it to have a 'dull' visual look in the render (what was once full white
> now being a somewhat darker gray, for instance.) While that may indeed 'balance'
> the radiosity lighting as far as color-clipping of object surfaces goes, the
> visual appearance of the 'sky' itself is now dull. (That was my reasoning for
> making two identical photo-mapped sky spheres-- where the *visible* sky is still
> at emission 1.0)
>
Besides of what others have said I'd like to add that it is a common
mistake to define the diffuse reflectance way too strong. E.g. a *white*
piece of paper is something like rgb <0.5, 0.48, 0.42> with diffuse 0.6
and as it happens I just measured (for some project of mine) some white
silk and its diffuse reflectance is rgb <0.42, 0.40, 0.38>.
On the other hand light sources are not limited to rgb <1,1,1> and
especially the value for sunlight should be much higher. This gives you
(with proper radiosity use i.e. brightness = 1) easily a nice and
realistic lighting with good contrast and - most important when you aim
for realism - without any tweaking.
-Ive
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Alain <kua### [at] videotronca> wrote:
>
> Don't forget that using diffuse 1 is NOT realistic. A very bright
> surface may have a diffuse as high as 0.95 or even 0.98, never 1.
>
> Using diffuse 1 is a very good way to get washed out colours.
>
and Ive wrote...
> ...it is a common
> mistake to define the diffuse reflectance way too strong. E.g. a *white*
> piece of paper is something like rgb <0.5, 0.48, 0.42> with diffuse 0.6
Yes, I'm now understanding that concept as well, far better than I used to.
My prior assumption about a typical low-dynamic-range scene-- of almost always
using diffuse 1.0 for an object's surface-- was based on several factors
(assuming that both ambient and emission are at 0.0 for argument's sake, and NO
radiosity): With a light_source set to rgb 1.0, and an object's color of
<.3,.5,.7> --with no additional phong or specular to complicate things-- my
understanding was that the very *brightest* color of the object's surface would
never exceed <.3,.5,.7> (but could go below that, naturally.) That may still be
the case with a purely white light_source-- but the addition of anything else
(radiosity, colored light etc) naturally complicates things, so that
*something* in the scene needs to be tweaked (in brightness or whatever) to keep
any parts of the render from 'clipping' in brightness-- past the 1.0 maximum
pixel level for a LDR render, as Clipka mentioned.
From all that's been said so far, it appears that this tweaking needs to be done
*by eye*, to try and make sure that any clipping is kept to a minimum. Perhaps
the 'by eye' method is just a given-- and it's certainly what I had to do in
v3.6.x days (though with limited success.) *Which* parts to tweak can be ...
complicated, though. Even with POV-ray's up-to-date changes re: radiosity,
assumed_gamma etc, a successful/realistic render nevertheless appears to require
a *by eye* approach.
I don't have any complaints about that need; and I'm certainly open to being
corrected if I'm wrong ;-)
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