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[RMN+03]  Simulating Wax Crayons

Rudolf:2003:SWC (In proceedings)
Author(s)Rudolf D., Mould D. and Neufeld E.
Title« Simulating Wax Crayons »
InProceedings of Pacific Graphics 2003
Editor(s)Jon Rokne and Reinhard Klein and Wenping Wang
Page(s)163--175
Year2003
OrganizationIEEE Computer Society
PublisherIEEE
AddressLos Alamitos, CA
Editor(s)Jon Rokne and Reinhard Klein and Wenping Wang

Abstract
We present a physically-inspired model of wax crayons, which synthesizes drawings from collections of userspecified strokes. Paper is represented by a height-field texture, and a crayon is modelled with a 2D mask that evolves as it interacts with the paper. The amount of wax deposition is computed based on the crayon contact profile, contact force, and friction. Previously deposited wax is smeared by crayon action, based on wax softness and contact information. The distributed wax is rendered using a simplified Kubelka-Monk model, which approximates light transmittance and scattering effects.

BibTeX code
@inproceedings{Rudolf:2003:SWC,
  optnote = {},
  author = {Dave Rudolf and David Mould and Eric Neufeld},
  optkey = {},
  optannote = {},
  optseries = {},
  editor = {Jon Rokne and Reinhard Klein and Wenping Wang},
  localfile = {papers/Rudolf.2003.SWC.pdf},
  address = {Los Alamitos, CA},
  publisher = {IEEE},
  organization = {IEEE Computer Society},
  doi = {http://dx.doi.org/10.1109/PCCGA.2003.1238258},
  optmonth = {},
  optcrossref = {},
  booktitle = {Proceedings of Pacific Graphics 2003},
  optvolume = {},
  title = {{S}imulating {W}ax {C}rayons},
  optnumber = {},
  abstract = {We present a physically-inspired model of wax crayons, which
              synthesizes drawings from collections of userspecified strokes.
              Paper is represented by a height-field texture, and a crayon is
              modelled with a 2D mask that evolves as it interacts with the
              paper. The amount of wax deposition is computed based on the
              crayon contact profile, contact force, and friction. Previously
              deposited wax is smeared by crayon action, based on wax softness
              and contact information. The distributed wax is rendered using a
              simplified Kubelka-Monk model, which approximates light
              transmittance and scattering effects.},
  year = {2003},
  pages = {163--175},
}

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