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Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,
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Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,
Making spherical-harmonics-based Geometric Morphometrics (SPHARM) approachable for 3D images containing large cavity openings us
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Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink
![Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33, Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,](https://ascelibrary.org/cms/asset/a31b6d6d-1a27-42f4-a6db-f4ce13da65da/figure9.jpg)
Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,
![Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00435-020-00488-z/MediaObjects/435_2020_488_Fig2_HTML.jpg)
Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink
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Spherical cap harmonic analysis (SCHA) for characterising the morphology of rough surface patches - ScienceDirect
![Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33, Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,](https://ascelibrary.org/cms/asset/8e54e114-1edd-4019-ac0c-3912b58da18f/figure12.jpg)
Aggregate Geometry Generation Method Using a Structured Light 3D Scanner, Spherical Harmonics–Based Geometry Reconstruction, and Placing Algorithms for Mesoscale Modeling of Concrete | Journal of Materials in Civil Engineering | Vol 33,
![Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink Adapting spherical-harmonics-based geometric morphometrics (SPHARM) for 3D images containing large cavity openings using ambient occlusion: a study with hermit crab claw shape variability | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00435-020-00488-z/MediaObjects/435_2020_488_Fig5_HTML.png)