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An improved incremental/decremental delaunay mesh-generation strategy for image representationEL Marzouki, Badr Eddine 16 December 2016 (has links)
Two highly effective content-adaptive methods for generating Delaunay mesh models
of images, known as IID1 and IID2, are proposed. The methods repeatedly alternate
between mesh simplification and refinement, based on the incremental/decremental
mesh-generation framework of Adams, which has several free parameters. The effect of
different choices of the framework's free parameters is studied, and the results are used to
derive two mesh-generation methods that differ in computational complexity. The higher
complexity IID2 method generates mesh models of superior reconstruction quality, while
the lower complexity IID1 method trades mesh quality in return for a decrease in computational
cost. Some of the contributions of our work include the recommendation of a
better choice for the growth-schedule parameter of the framework, as well as the use of
Floyd-Steinberg error diffusion for the initial-mesh selection.
As part of our work, we evaluated the performance of the proposed methods using
a data set of 50 images varying in type (e.g., photographic, computer generated, and
medical), size and bit depth with multiple target mesh densities ranging from 0.125% to
4%. The experimental results show that our proposed methods perform extremely well,
yielding high-quality image approximations in terms of peak-signal-to-noise ratio (PSNR)
and subjective visual quality, at an equivalent or lower computational cost compared to
other well known approaches such as the ID1, ID2, and IDDT methods of Adams, and
the greedy point removal (GPR) scheme of Demaret and Iske. More specifically, the
IID2 method outperforms the GPR scheme in terms of mesh quality by 0.2-1.0 dB
with a 62-93% decrease in computational cost. Furthermore, the IID2 method yields
meshes of similar quality to the ID2 method at a computational cost that is lower by
9-41%. The IID1 method provides improvements in mesh quality in 93% of the test
cases by margins of 0.04-1.31 dB compared to the IDDT scheme, while having a similar
complexity. Moreover, reductions in execution time of 4-59% are achieved compared to
the ID1 method in 86% of the test cases. / Graduate / 0544, 0984, 0537 / marzouki@uvic.ca
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