Authors:
Sijie Hu
;
Fabien Bonardi
;
Samia Bouchafa
and
Désiré Sidibé
Affiliation:
University Paris-Saclay, Univ. Evry, IBISC, 91020, Evry, France
Keyword(s):
Multi-branch, Encoder-decoder, Complementary Learning, Supervised Learning, Semantic Segmentation.
Abstract:
Recently, many methods with complex structures were proposed to address image parsing tasks such as image segmentation. These well-designed structures are hardly to be used flexibly and require a heavy footprint. This paper focuses on a popular semantic segmentation framework known as encoder-decoder, and points out a phenomenon that existing decoders do not fully integrate the information extracted by the encoder. To alleviate this issue, we propose a more general two-branch paradigm, composed of a main branch and an auxiliary branch, without increasing the number of parameters, and a boundary enhanced loss computation strategy to make two-branch decoders learn complementary information adaptively instead of explicitly indicating the specific learning element. In addition, one branch learn pixels that are difficult to resolve in another branch making a competition between them, which promotes the model to learn more efficiently. We evaluate our approach on two challenging image segm
entation datasets and show its superior performance in different baseline models. We also perform an ablation study to tease apart the effects of different settings. Finally, we show our two-branch paradigm can achieve satisfactory results when remove the auxiliary branch in the inference stage, so that it can be applied to low-resource systems.
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