Local Shape Transfer for Image Co-segmentation
Wei Teng, Yu Zhang, Xiaowu Chen, Jia Li and Zhiqiang He
Abstract
Image co-segmentation is a challenging computer vision task that aims to segment all pixels of the common objects in an image set. In real-world cases, however, the common objects often vary greatly in poses, locations and scales, making their global shapes highly inconsistent across images and difficult to be segmented. To address this problem, this paper proposes a novel co-segmentation approach that transfers patch-level local object shapes, which appear more consistently across different images. In our approach, we first employ dense correspondences to construct a patch neighbourhood system, which is refined using Locally Linear Embedding. Based on the patch relationships, an efficient algorithm is developed to jointly segment the objects in each image while transferring their local shapes across different images. Experiments show that our approach performs comparably with or better than the state-of-the-arts on iCoseg dataset, while achieving more than 31% relative improvements on a challenging benchmark Fashionista.
Session
Segmentation
Files
Extended Abstract (PDF, 236K)
Paper (PDF, 2M)
DOI
10.5244/C.30.3
https://dx.doi.org/10.5244/C.30.3
Citation
Wei Teng, Yu Zhang, Xiaowu Chen, Jia Li and Zhiqiang He. Local Shape Transfer for Image Co-segmentation. In Richard C. Wilson, Edwin R. Hancock and William A. P. Smith, editors, Proceedings of the British Machine Vision Conference (BMVC), pages 3.1-3.12. BMVA Press, September 2016.
Bibtex
@inproceedings{BMVC2016_3,
title={Local Shape Transfer for Image Co-segmentation},
author={Wei Teng, Yu Zhang, Xiaowu Chen, Jia Li and Zhiqiang He},
year={2016},
month={September},
pages={3.1-3.12},
articleno={3},
numpages={12},
booktitle={Proceedings of the British Machine Vision Conference (BMVC)},
publisher={BMVA Press},
editor={Richard C. Wilson, Edwin R. Hancock and William A. P. Smith},
doi={10.5244/C.30.3},
isbn={1-901725-59-6},
url={https://dx.doi.org/10.5244/C.30.3}
}