Hi,
Now I try to implement SSS feature in my renderer using BSSRDF.
I have started with "A Practical Model for Subsurface Light Transport" and Donner's thesis "Towards Realistic Image Synthesis of Scattering Materials".
They say that the diffuse component of BSSRDF for smooth surface ( = ideal specular BTDF?) is
(Screen shot from the former material)
In Donner's thesis they generalize enclosing surface to rough surface, that is
(Screen shot from the latter material)
I'm confused by the symbols used in the latter material.
So, I tried to rewrite what they say by myself.
Here, integration domain H^2 means lower hemisphere (inside material) and I write the diffuse transmittance term by using BSDF(BTDF) instead of BRDF they used.
My understanding for this generalized BSSRDF process is
1. The first integration term represents a total energy entering a material over the interface due to a light coming from wi direction at xi
2. The term R converts the energy to radiant exitance at xo
3. By multiplying 1 /pi to the radiant exitance, we get radiance reaching to xo from any direction in lower hemisphere
4. The second integration term converts the radiance from lower hemisphere to outgoing radiance from xo in direction wo
Is something wrong in my understanding?
Thanks,
A question about BSSRDF generalized to rough surface

 Posts: 58
 Joined: Sun Aug 19, 2012 3:24 pm
A question about BSSRDF generalized to rough surface
Last edited by shocker_0x15 on Sun May 01, 2016 9:39 pm, edited 1 time in total.

 Posts: 58
 Joined: Sun Aug 19, 2012 3:24 pm
Re: A question about BSSRDF generalized to rough surface
Conventions for symbols I used are
I got the following if I substitute an ideal specular BTDF to the equation I posted.
However this slightly differs from the original one.
(The latter Fresnel term is the same to F(eta, wo), therefore the problem is the fraction term contains cosines)
I got the following if I substitute an ideal specular BTDF to the equation I posted.
However this slightly differs from the original one.
(The latter Fresnel term is the same to F(eta, wo), therefore the problem is the fraction term contains cosines)
Re: A question about BSSRDF generalized to rough surface
Have yet to read that paper. But PBRT has a good explanation on that matter.
BTW, 1/pi is a like a normalization factor as in BRDF.
And the diffuse Fresnel transmittance is no more than approximation to specular
Fresnel transmittance from all directions. From my experience it may give darker results
if you don't rather use specular Fresnel transmittance for each light sample.
BTW, 1/pi is a like a normalization factor as in BRDF.
And the diffuse Fresnel transmittance is no more than approximation to specular
Fresnel transmittance from all directions. From my experience it may give darker results
if you don't rather use specular Fresnel transmittance for each light sample.

 Posts: 58
 Joined: Sun Aug 19, 2012 3:24 pm
Re: A question about BSSRDF generalized to rough surface
Thank you for your reply.
The original BSSRDF seems to use "directional" Fresnel transmittance not diffuse one.
Is it natural that substituting the ideal specular BTDF produces different BSSRDF compared to the original one?
Of course, there is a high probability I made incorrect BSSRDF expresssion that is generalized to rough surface or I have some misunderstanding about ideal specular BxDF.
citadel wrote:And the diffuse Fresnel transmittance is no more than approximation to specular
Fresnel transmittance from all directions.
The original BSSRDF seems to use "directional" Fresnel transmittance not diffuse one.
Is it natural that substituting the ideal specular BTDF produces different BSSRDF compared to the original one?
Of course, there is a high probability I made incorrect BSSRDF expresssion that is generalized to rough surface or I have some misunderstanding about ideal specular BxDF.
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