1 / 33

Appearance Models for Graphics

Learn about Radiometry concepts such as Radiance and Irradiance, Reflection Functions like BRDF, and Transport Theory in graphics. Understand the properties and models of BRDF with examples. Dive into the principles of Radiometry for accurate light transport. Discover how Radiance and Radiosity play key roles in rendering techniques.

henryford
Download Presentation

Appearance Models for Graphics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Appearance Models for Graphics COMS 6998-3, Lecture 2 BRDFs and Radiometry Many slides courtesy Pat Hanrahan: http://graphics.stanford.edu/courses/cs348b-02/lectures/lecture4/illumination.pdf

  2. Radiometry • Physical measurement of electromagnetic energy • We consider light field • Transport theory • Radiance, Irradiance • Reflection functions: BRDF • Examples, Properties • Simple BRDF models

  3. Transport Theory • Flow of stuff. In this case, stuff = photons of light • Consider particle flow through small area [CW18] density

  4. Radiance • Power per unit projected area perpendicular to the ray per unit solid angle in the direction of the ray • Symbol: L(x,ω)(W/m2 sr) • Flux given by dΦ = L(x,ω) cos θ dω dA

  5. Radiance properties • Radiance is constant as it propagates along ray • Derived from conservation of flux • Fundamental in Light Transport.

  6. Radiance properties • Sensor response proportional to surface radiance (constant of proportionality is throughput) • Far away surface: See more, but subtends smaller angle • Wall is equally bright across range of viewing distances Consequences • Radiance associated with rays in a ray tracer • All other radiometric quantities derived from radiance

  7. Irradiance, Radiosity • Irradiance E is the radiant power per unit area • Integrate incoming radiance over hemisphere • Projected solid angle (cos θ dω) • Uniform illumination: Irradiance = π [CW 24,25] • Units: W/m2 • Radiosity • Power per unit area leaving surface (like irradiance)

  8. BRDF • Reflected Radiance proportional to Irradiance • Constant proportionality: BRDF [CW pp 28,29] • Bidirectional Reflection Distribution Function • (4 Vars) • Reflectance Equation [CW pp 30]

  9. Mirror

  10. Lambertian

  11. Reflectance/Energy Conservation

  12. Retroreflection

  13. Brdf Viewer plots Diffuse Torrance-Sparrow Anisotropic bv written by Szymon Rusinkiewicz

  14. Representations

  15. Reparameterizations

More Related