Abstract

Effective integration of local and global contextual information is crucial for dense labeling problems. Most existing methods based on an encoder-decoder architecture simply concatenate features from earlier layers to obtain higher-frequency details in the refinement stages. However, there are limits to the quality of refinement possible if ambiguous information is passed forward. In this paper we propose Gated Feedback Refinement Network (G-FRNet), an end-to-end deep learning framework for dense labeling tasks that addresses this limitation of existing methods. Initially, G-FRNet makes a coarse prediction and then it progressively refines the details by efficiently integrating local and global contextual information during the refinement stages. We introduce gate units that control the information passed forward in order to filter out ambiguity. Experiments on three challenging dense labeling datasets (CamVid, PASCAL VOC 2012, and Horse-Cow Parsing) show the effectiveness of our method. Our proposed approach achieves state-of-the-art results on the CamVid and Horse-Cow Parsing datasets, and produces competitive results on the PASCAL VOC 2012 dataset.

Keywords

Pascal (unit)Computer scienceParsingAmbiguityEncoderDeep learningArtificial intelligenceData miningAlgorithmPattern recognition (psychology)Programming language

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Year
2017
Type
article
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234
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Md Amirul Islam, Mrigank Rochan, Neil D. B. Bruce et al. (2017). Gated Feedback Refinement Network for Dense Image Labeling. . https://doi.org/10.1109/cvpr.2017.518

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DOI
10.1109/cvpr.2017.518