Joel M. DeYoung
Properties of Tabulated Bidirectional Reflectance Distribution Functions
| Degree: | M.Sc. |
| Type: | thesis |
| Year: | 1996 |
| Supervisor: | Alain Fournier |
| Electronic: |
![[PDF]](/labs/imager/th/icons/pdf.gif){kind=icon} , 580426 bytes |
| Hardcopy: | 80 pages |
Abstract
One way to overcome the limitations imposed by analytical models of reflection is to use discretely sampled reflectance data directly. Through either empirical measurement or simulation, a bidirectional reflectance distribution function (BRDF) is acquired that is represented by a table of numbers. The generality of these measured BRDFs is useful for generating realistic images, but the inevitable inaccuracy associated with the data gathering process can lead to a BRDF that is more general than it needs to be, or that lacks certain physical properties.This thesis proposes measures for several properties of BRDFs: reciprocity, energy conservation, isotropy, and separability. Techniques to transform tabulated BRDFs to match one or more of these properties are also described. These transformations allow compression of the BRDF data, elimination of noise, improved computation time in some rendering tasks, and improved compliance with physical laws.
@MastersThesis{DeYoung1996,
author = {Joel M. DeYoung, M.Sc},
title = {Properties of Tabulated Bidirectional Reflectance Distribution Functions},
school = {UBC},
year = {1996},
supervisor = {Alain Fournier},
}