Seeded Laplaican: An Eigenfunction Solution for Scribble Based Interactive Image Segmentation
This addresses the computational bottleneck in interactive segmentation for users needing efficient, accurate image editing tools, representing a novel method for a known bottleneck rather than a paradigm shift.
The paper tackles scribble-based interactive image segmentation by approximating eigenvectors with efficiently computed eigenfunctions, avoiding expensive generalized eigenvector problems. It achieves better qualitative and quantitative results compared to state-of-the-art methods, as validated on a new collection of five annotated image datasets.
In this paper, we cast the scribble-based interactive image segmentation as a semi-supervised learning problem. Our novel approach alleviates the need to solve an expensive generalized eigenvector problem by approximating the eigenvectors using efficiently computed eigenfunctions. The smoothness operator defined on feature densities at the limit n tends to infinity recovers the exact eigenvectors of the graph Laplacian, where n is the number of nodes in the graph. To further reduce the computational complexity without scarifying our accuracy, we select pivots pixels from user annotations. In our experiments, we evaluate our approach using both human scribble and "robot user" annotations to guide the foreground/background segmentation. We developed a new unbiased collection of five annotated images datasets to standardize the evaluation procedure for any scribble-based segmentation method. We experimented with several variations, including different feature vectors, pivot count and the number of eigenvectors. Experiments are carried out on datasets that contain a wide variety of natural images. We achieve better qualitative and quantitative results compared to state-of-the-art interactive segmentation algorithms.