Intelligent classification and identification method for Conger myriaster freshness based on DWG-YOLOv8 network model

Food Bioengineering Pub Date : 2024-08-23 DOI:10.1002/fbe2.12097

Sheng Gao, Wei Wang, Yuanmeng Lv, Chenghua Chen, Wancui Xie

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Abstract

The freshness of aquatic products is directly related to the safety and health of the people. Traditional methods of detecting the freshness of Conger myriaster rely on manual operations, which are labor-intensive, inefficient, and highly subjective. This paper combines computer vision and the DWG-YOLOv8 network model to establish an intelligent classification method for C. myriaster freshness. Through image augmentation, 484 C. myriaster samples were expanded to 2904 samples. The YOLOv8n model was improved by simplifying the network backbone, introducing Ghost convolution and the new DW-GhostConv, thereby reducing the number of parameters and computational load. Test results show that the recognition accuracy of the DWG-YOLOv8 model reached 98.958%, outperforming models such as ResNet18, Mobilenetv3 small, and Swin transformer v2 tiny. The model's parameter count is 16.609 K, the inference time is 57.80 ms, and the model size is only 102 KB. The research provides a reliable method for online intelligent and nondestructive detection of C. myriaster freshness.

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基于 DWG-YOLOv8 网络模型的丛枝花椰菜新鲜度智能分类与识别方法

水产品的新鲜度直接关系到人们的安全和健康。传统的蛤蚧鲜度检测方法主要依靠人工操作，劳动强度大、效率低、主观性强。本文将计算机视觉与 DWG-YOLOv8 网络模型相结合，建立了一种智能化的聪耳草新鲜度分类方法。通过图像增强，484 个 C. myriaster 样本被扩展为 2904 个样本。通过简化网络骨干、引入 Ghost 卷积和新的 DW-GhostConv 对 YOLOv8n 模型进行了改进，从而减少了参数数量和计算负荷。测试结果表明，DWG-YOLOv8 模型的识别准确率达到 98.958%，优于 ResNet18、Mobilenetv3 small 和 Swin transformer v2 tiny 等模型。该模型的参数数为 16.609 K，推理时间为 57.80 ms，模型大小仅为 102 KB。该研究为在线智能无损检测桔梗的新鲜度提供了一种可靠的方法。

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来源期刊

Food Bioengineering

CiteScore

0.90

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0.00%

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