A dense multi‐scale context and asymmetric pooling embedding network for smoke segmentation

Gang Wen; Fangrong Zhou; Yutang Ma; Hao Pan; Hao Geng; Jun Cao; Kang Li; Feiniu Yuan

doi:10.1049/cvi2.12246

IET Computer Vision (Mar 2024)

A dense multi‐scale context and asymmetric pooling embedding network for smoke segmentation

Gang Wen,
Fangrong Zhou,
Yutang Ma,
Hao Pan,
Hao Geng,
Jun Cao,
Kang Li,
Feiniu Yuan

Affiliations

Gang Wen: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Fangrong Zhou: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Yutang Ma: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Hao Pan: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Hao Geng: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Jun Cao: Joint Laboratory of Power Remote Sensing Technology Electric Power Research Institute of Yunnan Electric Power Company Kunming China
Kang Li: Mathematics and Science College Shanghai Normal University Shanghai China
Feiniu Yuan: College of Information Mechanical and Electrical Engineering Shanghai Normal University Shanghai China

DOI: https://doi.org/10.1049/cvi2.12246
Journal volume & issue: Vol. 18, no. 2
pp. 236 – 246

Abstract

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Abstract It is very challenging to accurately segment smoke images because smoke has some adverse vision characteristics, such as anomalous shapes, blurred edges, and translucency. Existing methods cannot fully focus on the texture details of anomalous shapes and blurred edges simultaneously. To solve these problems, a Dense Multi‐scale context and Asymmetric pooling Embedding Network (DMAENet) is proposed to model the smoke edge details and anomalous shapes for smoke segmentation. To capture the feature information from different scales, a Dense Multi‐scale Context Module (DMCM) is proposed to further enhance the feature representation capability of our network under the help of asymmetric convolutions. To efficiently extract features for long‐shaped objects, the authors use asymmetric pooling to propose an Asymmetric Pooling Enhancement Module (APEM). The vertical and horizontal pooling methods are responsible for enhancing features of irregular objects. Finally, a Feature Fusion Module (FFM) is designed, which accepts three inputs for improving performance. Low and high‐level features are fused by pixel‐wise summing, and then the summed feature maps are further enhanced in an attention manner. Experimental results on synthetic and real smoke datasets validate that all these modules can improve performance, and the proposed DMAENet obviously outperforms existing state‐of‐the‐art methods.

Published in IET Computer Vision

ISSN: 1751-9632 (Print); 1751-9640 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Computer applications to medicine. Medical informatics; Science: Mathematics: Instruments and machines: Electronic computers. Computer science: Computer software
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17519640

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