Title :
Discrete-Continuous Gradient Orientation Estimation for Faster Image Segmentation
Author :
Donoser, Michael ; Schmalstieg, Dieter
Abstract :
The state-of-the-art in image segmentation builds hierarchical segmentation structures based on analyzing local feature cues in spectral settings. Due to their impressive performance, such segmentation approaches have become building blocks in many computer vision applications. Nevertheless, the main bottlenecks are still the computationally demanding processes of local feature processing and spectral analysis. In this paper, we demonstrate that based on a discrete-continuous optimization of oriented gradient signals, we are able to provide segmentation performance competitive to state-of-the-art on BSDS 500 (even without any spectral analysis) while reducing computation time by a factor of 40 and memory demands by a factor of 10.
Keywords :
estimation theory; gradient methods; image segmentation; optimisation; BSDS 500; computation time; computer vision applications; discrete-continuous gradient orientation estimation; discrete-continuous optimization; faster image segmentation; hierarchical segmentation structures; local feature processing; memory demands; oriented gradient signals; spectral analysis; Computer vision; Image edge detection; Image segmentation; Prototypes; Runtime; Spectral analysis; Training; BSDS 500; Discrete-Continuous; Image Segmentation; Segment Tree; Ultrametric Contour Map;
Conference_Titel :
Computer Vision and Pattern Recognition (CVPR), 2014 IEEE Conference on
Conference_Location :
Columbus, OH
DOI :
10.1109/CVPR.2014.404
