Weakly-Supervised Camouflaged Object Detection with Scribble Annotations

Ruozhen He, Qihua Dong, Jiaying Lin, Rynson W. H. Lau

Existing camouflaged object detection (COD) methods rely heavily on large-scale datasets with pixel-wise annotations. However, due to the ambiguous boundary, it is very time-consuming and labor-intensive to annotate camouflage objects pixel-wisely (which takes ~ 60 minutes per image). In this paper, we propose the first weakly-supervised camouflaged object detection (COD) method, using scribble annotations as supervision. To achieve this, we first construct a scribble-based camouflaged object dataset with 4,040 images and corresponding scribble annotations. It is worth noting that annotating the scribbles used in our dataset takes only ~ 10 seconds per image, which is 360 times faster than per-pixel annotations. However, the network directly using scribble annotations for supervision will fail to localize the boundary of camouflaged objects and tend to have inconsistent predictions since scribble annotations only describe the primary structure of objects without details. To tackle this problem, we propose a novel consistency loss composed of two parts: a reliable cross-view loss to attain reliable consistency over different images, and a soft inside-view loss to maintain consistency inside a single prediction map. Besides, we observe that humans use semantic information to segment regions near boundaries of camouflaged objects. Therefore, we design a feature-guided loss, which includes visual features directly extracted from images and semantically significant features captured by models. Moreover, we propose a novel network that detects camouflaged objects by scribble learning on structural information and semantic relations. Experimental results show that our model outperforms relevant state-of-the-art methods on three COD benchmarks with an average improvement of 11.0% on MAE, 3.2% on S-measure, 2.5% on E-measure and 4.4% on weighted F-measure.

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