Topology-preserving scan-based immersed isogeometric analysis

To exploit the advantageous properties of isogeometric analysis (IGA) in a scan-based setting, it is important to extract a smooth geometric domain from the scan data (e.g., voxel data). IGA-suitable domains can be constructed by convoluting the grayscale data using B-splines. A negative side-effect...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering 2022-03, Vol.392, p.114648, Article 114648
Main Authors: Divi, Sai C., Verhoosel, Clemens V., Auricchio, Ferdinando, Reali, Alessandro, van Brummelen, E. Harald
Format: Article
Language:English
Subjects:
Algorithms
Anomalies
B spline functions
Domains
Finite Cell Method (FCM)
Fourier analysis
Gray scale
Image filtering
Image segmentation
Isogeometric analysis (IGA)
Scan-based analysis
Topology
Topology detection
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Summary:To exploit the advantageous properties of isogeometric analysis (IGA) in a scan-based setting, it is important to extract a smooth geometric domain from the scan data (e.g., voxel data). IGA-suitable domains can be constructed by convoluting the grayscale data using B-splines. A negative side-effect of this convolution technique is, however, that it can induce topological changes in the process of smoothing when features with a size similar to that of the voxels are encountered. This manuscript presents an enhanced B-spline-based segmentation procedure using a refinement strategy based on truncated hierarchical (TH)B-splines. A Fourier analysis is presented to explain the effectiveness of local grayscale function refinement in repairing topological anomalies. A moving-window-based topological anomaly detection algorithm is proposed to identify regions in which the grayscale function refinements must be performed. The criterion to identify topological anomalies is based on the Euler characteristic, giving it the capability to distinguish between topological and shape changes. The proposed topology-preserving THB-spline image segmentation strategy is studied using a range of test cases. These tests pertain to both the segmentation procedure itself, and its application in an immersed IGA setting. •A Fourier analysis explains the occurrence of topological anomalies in B-spline-convoluted grayscale images.•A moving-window technique identifies regions where topological anomalies occur.•A THB-spline-based refinement strategy is used to create a topology-preserving segmentation technique.•Various representative test cases demonstrate the effectiveness of the segmentation technique.•A scan-based simulation demonstrates the applicability of the segmentation technique to complex problems.
ISSN:0045-7825
1879-2138
DOI:10.1016/j.cma.2022.114648