Related papers: Large, Complex, and Realistic Safety Clothing and Helmet Detection: Dataset and Method

Large, Complex, and Realistic Safety Clothing and Helmet Detection: Dataset and Method

URL: http://arxiv.org/abs/2306.02098v2
Date: Sat, 10 Aug 2024 18:49:11 GMT
Title: Large, Complex, and Realistic Safety Clothing and Helmet Detection: Dataset and Method
Authors: Fusheng Yu, Jiang Li, Xiaoping Wang, Shaojin Wu, Junjie Zhang, Zhigang Zeng,
Abstract summary: We construct a large, complex, and realistic safety clothing and helmet detection dataset. SFCHD is derived from two authentic chemical plants, comprising 12,373 images, 7 categories, and 50,552 annotations. We design a spatial and channel attention-based low-light enhancement module.
Score: 35.39383667490014
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Detecting safety clothing and helmets is paramount for ensuring the safety of construction workers. However, the development of deep learning models in this domain has been impeded by the scarcity of high-quality datasets. In this study, we construct a large, complex, and realistic safety clothing and helmet detection (SFCHD) dataset. SFCHD is derived from two authentic chemical plants, comprising 12,373 images, 7 categories, and 50,552 annotations. We partition the SFCHD dataset into training and testing sets with a ratio of 4:1 and validate its utility by applying several classic object detection algorithms. Furthermore, drawing inspiration from spatial and channel attention mechanisms, we design a spatial and channel attention-based low-light enhancement (SCALE) module. SCALE is a plug-and-play component with a high degree of flexibility. Extensive evaluations of the SCALE module on both the ExDark and SFCHD datasets have empirically demonstrated its efficacy in enhancing the performance of detectors under low-light conditions. The dataset and code are publicly available at https://github.com/lijfrank-open/SFCHD-SCALE.

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