Fast Local Laplacian Filters: Theory and Applications

Author(s)

Aubry, Mathieu; Paris, Sylvain; Hasinoff, Samuel W; Kautz, Jan; Durand, Frédo

Abstract

©2014 ACM. Multiscale manipulations are central to image editing but also prone to halos. Achieving artifact-free results requires sophisticated edge-aware techniques and careful parameter tuning. These shortcomings were recently addressed by the local Laplacian filters, which can achieve a broad range of effects using standard Laplacian pyramids. However, these filters are slow to evaluate and their relationship to other approaches is unclear. In this article, we show that they are closely related to anisotropic diffusion and to bilateral filtering. Our study also leads to a variant of the bilateral filter that produces cleaner edges while retaining its speed. Building upon this result, we describe an acceleration scheme for local Laplacian filters on gray-scale images that yields speedups on the order of 50 x. Finally, we demonstrate how to use local Laplacian filters to alter the distribution of gradients in an image. We illustrate this property with a robust algorithm for photographic style transfer.

Date issued

2014

URI

https://hdl.handle.net/1721.1/134273

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory

Journal

ACM Transactions on Graphics

Publisher

Association for Computing Machinery (ACM)

Citation

Aubry, Mathieu, et al. "Fast Local Laplacian Filters: Theory and Applications." Acm Transactions on Graphics 33 5 (2014).

Version: Author's final manuscript