A study on the pulse parameter detection based on the improved YOLOV5

International Conference on Artificial Intelligence, Virtual Reality, and Visualization Pub Date : 2023-03-01 DOI:10.1117/12.2667450

Jinlin Liu, Qijun Liu, Yaping Yin, Haitao Li, Haixu Gou

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Abstract

The convolutional neural network (CNN) in deep learning artificial intelligence (AI) has developed rapidly in recent years, delivering many achievements to other areas of economic life. Nevertheless, gaps in CNN-related research still exist in the field of object identification and detection in regard to active sonar images, as most research in this field is still dominated by classical algorithms. Therefore, this paper summarizes the YOLOV5 used, analyzes the existing network defects, and optimizes the identification and detection algorithms based on the YOLOV5 network framework. The practical detection sets a high requirement for the precision of the sonar pulse signals detected. Specifically, it requires the false alarm rate to be lower than the designed value and the errors in the detection parameters to be kept within the tolerable range. To increase the detection precision, this paper adds an attention enhancement module to the network based on the original YOLOV5, which significantly improves the detection parameter effects.

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基于改进YOLOV5的脉冲参数检测研究

深度学习人工智能(AI)中的卷积神经网络(CNN)近年来发展迅速，为经济生活的其他领域带来了许多成果。然而，在主动声纳图像的目标识别与检测领域，cnn相关的研究仍然存在空白，该领域的大部分研究仍以经典算法为主。因此，本文总结了所使用的YOLOV5，分析了现有的网络缺陷，并基于YOLOV5网络框架优化了识别检测算法。实际探测对探测到的声纳脉冲信号的精度提出了很高的要求。具体要求虚警率低于设计值，检测参数误差控制在可容忍范围内。为了提高检测精度，本文在原有YOLOV5的基础上，在网络中增加了注意力增强模块，显著提高了检测参数的效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Conference on Artificial Intelligence, Virtual Reality, and Visualization

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