Laplacian Mesh Deformation

Please use this identifier to cite or link to this publication:
Deforming a 3D surface mesh while preserving its local detail is useful for editing anatomical atlases or for mesh based segmentation. This contribution introduces new classes for performing hard and soft constraints deformation in a flexible design which allows user to switch easily in between Laplacian discretization operators, area weighing and solvers. The usage of these new
classes is demonstrated on a sphere.
minus Automatic Testing Results by Insight-Journal Dashboard on Sun Jul 7 17:05:48 2013 for revision #1
starstarstarstarstar expertise: 5 sensitivity: 5
yellow This project had trouble building: 10 errors, 1 warnings
Click here for more details.

Go here to access the main testing dashboard.

There is no review at this time. Be the first to review this publication!

Quick Comments
Comment by Andinet Enquobahrie yellow
The source code has already been migrated to ITK.

hashtag: 6c86b9f
Comment by Mohammad Mayya yellow
References please

Download All
Download Paper , View Paper
Download Source code
Source code repository

Statistics more
Global rating: starstarstarstarstar
Review rating: starstarstarstarstar [review]
Code rating: starstarstarstarstar
Paper Quality: plus minus

Information more
Categories: Atlas-based segmentation, Filtering, Mesh
Keywords: ITK filter, QuadEdgeMesh, Laplacian, Mesh, Deformation
Toolkits: ITK, CMake
Export citation:


Linked Publications more
Anisotropic Fast Marching in ITK Anisotropic Fast Marching in ITK
by Mirebeau J.
Scalable Simple Linear Iterative Clustering (SSLIC) Using a Generic and Parallel Approach Scalable Simple Linear Iterative Clustering (SSLIC) Using a Generic and Parallel Approach
by Lowekamp B., Chen D., Yaniv Z., Yoo T.

View license
Loading license...

Send a message to the author
Powered by Midas