Globally optimal direction fields

Felix Knoppel, Keenan Crane, Ulrich Pinkall, and Peter Schroder

Journal Article, ACM Transactions on Graphics (TOG), Vol. 32, No. 4, July, 2013

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Abstract

We present a method for constructing smooth n-direction fields (line fields, cross fields, etc.) on surfaces that is an order of magnitude faster than state-of-the-art methods, while still producing fields of equal or better quality. Fields produced by the method are globally optimal in the sense that they minimize a simple, well-defined quadratic smoothness energy over all possible configurations of singularities (number, location, and index). The method is fully automatic and can optionally produce fields aligned with a given guidance field such as principal curvature directions. Computationally the smoothest field is found via a sparse eigenvalue problem involving a matrix similar to the cotan-Laplacian. When a guidance field is present, finding the optimal field amounts to solving a single linear system.

BibTeX

@article{Knoppel-2013-17137,
author = {Felix Knoppel and Keenan Crane and Ulrich Pinkall and Peter Schroder},
title = {Globally optimal direction fields},
journal = {ACM Transactions on Graphics (TOG)},
year = {2013},
month = {July},
volume = {32},
number = {4},
keywords = {discrete differential geometry, digital geometry processing, direction fields, curvature lines, singularities},
}

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