Bidirectional reflectance distribution function: Difference between revisions

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(Explanation of BRDFs.)
 
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Because the BRDF is a function of five variables, it is often characterized by making measurements at a small set of angles and wavelengths and then fitting a mathematical model to the data.
Because the BRDF is a function of five variables, it is often characterized by making measurements at a small set of angles and wavelengths and then fitting a mathematical model to the data.
[[Category:Physics Workgroup]]

Revision as of 19:18, 20 September 2007

In radiometry, the bidirectional reflectance distribution function describes how energy reflecting of a surface is spread over the hemisphere. It is a function of five variables:

  • Spectral Location (e.g. Wavelength)
  • Incident Zenith
  • Incident Azimuth
  • Exitant Zenith
  • Exitant Azimuth

A surface whose BRDF spreads incident energy evenly over the hemisphere is called lambertian or "diffuse". A surface that for a given incident vector reflects all or most energy in to the mirrored direction is called "specular".

Because the BRDF is a function of five variables, it is often characterized by making measurements at a small set of angles and wavelengths and then fitting a mathematical model to the data.