W. Li, R. R. Martin, F. C. Langbein
In: Proc. ACM Symp. Solid and Physical Modeling,
pp. 165-170, 2010.
ISBN:978-1-60558-984-8
[DOI: 10.1145/1839778.1839803] [Preprint]
In region machining, neighbouring regions may be close together, but disconnected. Boundary curves may also have unwanted geometric artifacts caused by approximation and discretisation. We present a strategy to improve the topology and geometry of such boundary curves, allowing the generation of better tool paths, and in turn, improved tool wear and surface quality of the machined part. We make such improvements in three steps: firstly, disconnected regions are merged where appropriate, using a method based on morphological operations from image processing. Secondly, boundary segments with undesirable geometric properties are identified and replaced by simpler segments, using a vertex deletion operation. Finally, flaws at a smaller geometric scale are removed, using a curve shortening algorithm. Experimental results are given to illustrate our algorithm.
@INPROCEEDINGS{Li2010,
author = {Weishi Li and Ralph R. Martin and Frank C. Langbein},
title = {Merging and smoothing machining boundaries on cutter
location surfaces},
booktitle = {Proc. ACM Symp. Solid and Physical Modeling},
year = 2010,
pages = {165-170},
publisher = {ACM},
isbn = 9781605589848,
doi = {10.1145/1839778.1839803},
url = {http://www.langbein.org/research/curves/smoothing/li2010/},
abstract = {In region machining, neighbouring regions may be close
together, but disconnected. Boundary curves may also
have unwanted geometric artifacts caused by
approximation and discretisation. We present a
strategy to improve the topology and geometry of
such boundary curves, allowing the generation of
better tool paths, and in turn, improved tool wear
and surface quality of the machined part. We make
such improvements in three steps: firstly,
disconnected regions are merged where appropriate,
using a method based on morphological operations
from image processing. Secondly, boundary segments
with undesirable geometric properties are identified
and replaced by simpler segments, using a vertex
deletion operation. Finally, flaws at a smaller
geometric scale are removed, using a curve
shortening algorithm. Experimental results are given
to illustrate our algorithm.}
}
Merging and Smoothing Machining Boundaries on Cutter Location Surfaces,http://www.langbein.org/research/manifolds/smoothing/li2010/ by Frank C Langbein [12/October/2010, 11:37].
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