Abstract:
We estimated the contribution of different factors in segmentation tasks by means of deep neural networks. Results indicated that texture and optical flow have similar po...Show MoreMetadata
Abstract:
We estimated the contribution of different factors in segmentation tasks by means of deep neural networks. Results indicated that texture and optical flow have similar power, but they seem not to add up. In turn, we decided to study the `Common Fate Principle' of the 100 years gestaltism suggesting that elements that move together belong together. We developed a simple, fast, and efficient episodic segmentation method that - to some extent - resembles the `how system' of the visual processing: we dropped every piece of information except motion, and started from pure optical flow estimations on 2D videos. For the sake of segmentation, we used a parallel and fast hierarchical supervoxel algorithm. We studied (i) grid topology in space and time, (ii) 2D grid in space and topology dictated by the optical flow in time, and (iii) added deep network based depth estimation from 2D images. We measure performances on episodic foreground-background segmentation task of the Davis benchmark videos. Results are competitive to state-of-the-art segmentation techniques.
Date of Conference: 14-19 July 2019
Date Added to IEEE Xplore: 30 September 2019
ISBN Information: