A Waste Classification model in Low-illumination scenes based on ConvNeXt

IF 11.2 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Resources Conservation and Recycling Pub Date : 2023-10-21 DOI:10.1016/j.resconrec.2023.107274

Yibin Qiao, Qiang Zhang, Ying Qi, Teng Wan, Lixin Yang, Xin Yu

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Abstract

Waste classification is an essential part of environmental pollution management in modern society. Object detection is an accurate and efficient way to classify waste, which is conducive to recycling resources. However, due to low object discriminability, existing waste classification models cannot classify waste in low-illumination scenes. A waste classification model, Dark-Waste, is designed to classify wastes in a low-illumination scenario. Firstly, to solve the scarcity of training data, an efficient and low-cost Illumination Conversion method is proposed to generate the low-light image. Secondly, the improved ConvNeXt network is combined with YOLOv5 to accurately and efficiently classify waste. Finally, we validated the model on a self-built dataset in real scenarios. The experimental results show that Dark-Waste achieves the best detection performance in low-illumination scenes. The Dark-Waste provides a new approach to waste management in complex environments and effectively contributes to the sustainable development of the urban ecological environment.

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基于ConvNeXt的低照度场景下垃圾分类模型

垃圾分类是现代社会环境污染管理的重要组成部分。物体检测是一种准确高效的垃圾分类方法，有利于资源的回收利用。然而，由于低对象可分辨性，现有的垃圾分类模型无法在低照度场景中对垃圾进行分类。废物分类模型Dark waste旨在对低照度场景中的废物进行分类。首先，为了解决训练数据的稀缺性，提出了一种高效、低成本的光照转换方法来生成微光图像。其次，将改进的ConvNeXt网络与YOLOv5相结合，实现了垃圾的准确高效分类。最后，我们在真实场景中的自建数据集上验证了该模型。实验结果表明，Dark Waste在低照度场景中实现了最佳的检测性能。黑暗垃圾为复杂环境中的垃圾管理提供了一种新的方法，有效地促进了城市生态环境的可持续发展。

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来源期刊

Resources Conservation and Recycling 环境科学-工程：环境

CiteScore

22.90

自引率

6.10%

发文量

625

审稿时长

23 days

期刊介绍： The journal Resources, Conservation & Recycling welcomes contributions from research, which consider sustainable management and conservation of resources. The journal prioritizes understanding the transformation processes crucial for transitioning toward more sustainable production and consumption systems. It highlights technological, economic, institutional, and policy aspects related to specific resource management practices such as conservation, recycling, and resource substitution, as well as broader strategies like improving resource productivity and restructuring production and consumption patterns. Contributions may address regional, national, or international scales and can range from individual resources or technologies to entire sectors or systems. Authors are encouraged to explore scientific and methodological issues alongside practical, environmental, and economic implications. However, manuscripts focusing solely on laboratory experiments without discussing their broader implications will not be considered for publication in the journal.