Finlay N. McPherson, Jonathan A. Quinn, Jonathan Corney, Frank C. Langbein, Ralph R. Martin
In preparation.
Various industrial applications require point sets that cover arbitrarily shaped surfaces of 3D objects. The nature of the sampling required depends on the application; while common machining or inspection processes need regularly arranged points for smooth path generation, the application described in this paper requires a more subtle distribution to provide a high-quality result. We contrast two sampling algorithms developed to support a novel, contactless robotic painting system which creates images on surfaces by selectively exposing a photographic coating using a robot-mounted laser. We assume the object to be painted is represented as a triangular mesh. A straightforward layered approach to sample point generation is compared to framework that produces a density-controlled low-discrepancy distribution. We show that the distortions associated with laminar slicing are avoided if the more sophisticated distribution is used.
@UNPUBLISHED{McPhersonXXXX,
author = {Finlay N. McPherson and Jonathan A. Quinn and Jonathan
Corney and Frank C. Langbein and Ralph R. Martin},
title = {Uniform Surface Point Sampling for Direct Write
Applications},
abstract = {Various industrial applications require point sets
that cover arbitrarily shaped surfaces of 3D
objects. The nature of the sampling required depends
on the application; while common machining or
inspection processes need regularly arranged points
for smooth path generation, the application
described in this paper requires a more subtle
distribution to provide a high-quality result. We
contrast two sampling algorithms developed to
support a novel, contactless robotic painting system
which creates images on surfaces by selectively
exposing a photographic coating using a
robot-mounted laser. We assume the object to be
painted is represented as a triangular mesh. A
straightforward layered approach to sample point
generation is compared to framework that produces a
density-controlled low-discrepancy distribution. We
show that the distortions associated with laminar
slicing are avoided if the more sophisticated
distribution is used.},
}
Uniform Surface Point Sampling for Direct Write Applications,http://www.langbein.org/research/points/sampling/rp/print by Frank C Langbein [17/March/2009, 18:44].
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