Fitting Laguerre tessellation approximations to tomographic image data

Fitting Laguerre tessellation approximations to tomographic image data

The analysis of polycrystalline materials benefits greatly from accurate quantitative descriptions of their grain structures. Laguerre tessellations approximate such grain structures very well. However, it is a quite challenging problem to fit a Laguerre tessellation to tomographic data, as a high-d...

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Veröffentlicht in:arXiv.org 2015-11
Hauptverfasser: Spettl, Aaron, Brereton, Tim, Duan, Qibin, Werz, Thomas, Krill, Carl E, Kroese, Dirk P, Schmidt, Volker
Format: Artikel
Sprache:eng
Schlagworte:
Minima
Optimization
Optimization techniques
Physics - Materials Science
Statistics - Computation
Tessellation
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Zusammenfassung:The analysis of polycrystalline materials benefits greatly from accurate quantitative descriptions of their grain structures. Laguerre tessellations approximate such grain structures very well. However, it is a quite challenging problem to fit a Laguerre tessellation to tomographic data, as a high-dimensional optimization problem with many local minima must be solved. In this paper, we formulate a version of this optimization problem that can be solved quickly using the cross-entropy method, a robust stochastic optimization technique that can avoid becoming trapped in local minima. We demonstrate the effectiveness of our approach by applying it to both artificially generated and experimentally produced tomographic data.
ISSN:2331-8422
DOI:10.48550/arxiv.1508.01341