Abstract
Nowadays, many fields of science, are basing on information provided in form of photographs, projections or cross-sections. Especially medical diagnosis became a process impossible to be conducted effectively and efficiently without use of modern tools of analysis. While analyzing data, researcher thinks of what he observes in terms of features of a sample, not artifacts that may be related with the method used to acquire the data. Microtomography is one of techniques that require specific experience and approach while analyzing data provided, because of the variety of artifacts present on the image. The aim of the article is to measure perforations of a sample, and compare the results to their actual shape.
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Acknowledgments
The author of this article would like to express gratitude to PhD. Samuel MacDonald and Prof. Philip Whiters from Henry Moseley X-ray Imagining Facility at the University Of Manchester for their help during acquisition of data, and to PhD Agnieszka Banaś and PhD Krzysztof Banaś from Singapore Synchrotron Light Source from National University of Singapore for manufacturing the samples.
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Walczak, M. (2016). 3D Measurement of Geometrical Distortion of Synchrotron-Based Perforated Polymer with Matlab Algorithm. In: Piętka, E., Badura, P., Kawa, J., Wieclawek, W. (eds) Information Technologies in Medicine. ITiB 2016. Advances in Intelligent Systems and Computing, vol 471. Springer, Cham. https://doi.org/10.1007/978-3-319-39796-2_20
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DOI: https://doi.org/10.1007/978-3-319-39796-2_20
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