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A lightweight ship target detection model based on improved YOLOv5s algorithm

by Zhang, Xinzhu , Liu, Xinyu , Zheng, Yuanzhou , Huang, Haichao , Zhang, Yuanfeng , Qian, Long , Diao, Shitong , Cao, Jingxin

in Accuracy / Algorithms / Biology and Life Sciences / Computer and Information Sciences / Computer networks / Deep learning / Design / Detectors / Engineering and Technology / Feature extraction / Inspection / Lightweight / Machine learning / Mathematical models / Medicine and Health Sciences / Methods / Modelling / Modules / Navigation safety / Neural networks / Parameters / Physical Examination / Physical Sciences / Real time / Research and Analysis Methods / Safety and security measures / Ships / Spatial Navigation / Spine / Target detection / Telecommunication systems

2023

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A lightweight ship target detection model based on improved YOLOv5s algorithm

by Zhang, Xinzhu , Liu, Xinyu , Zheng, Yuanzhou , Huang, Haichao , Zhang, Yuanfeng , Qian, Long , Diao, Shitong , Cao, Jingxin

2023

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A lightweight ship target detection model based on improved YOLOv5s algorithm

by Zhang, Xinzhu , Liu, Xinyu , Zheng, Yuanzhou , Huang, Haichao , Zhang, Yuanfeng , Qian, Long , Diao, Shitong , Cao, Jingxin

2023

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Journal Article

A lightweight ship target detection model based on improved YOLOv5s algorithm

Zhang, Xinzhu,

Liu, Xinyu,

Zheng, Yuanzhou,

Huang, Haichao,

Zhang, Yuanfeng,

Qian, Long,

Diao, Shitong,

Cao, Jingxin

2023

Overview

Real-time and accurate detection of ships plays a vital role in ensuring navigation safety and ship supervision. Aiming at the problems of large parameters, large computation quantity, poor real-time performance, and high requirements for memory and computing power of the current ship detection model, this paper proposes a ship target detection algorithm MC-YOLOv5s based on YOLOv5s. First, the MobileNetV3-Small lightweight network is used to replace the original feature extraction backbone network of YOLOv5s to improve the detection speed of the algorithm. And then, a more efficient CNeB is designed based on the ConvNeXt-Block module of the ConvNeXt network to replace the original feature fusion module of YOLOv5s, which improves the spatial interaction ability of feature information and further reduces the complexity of the model. The experimental results obtained from the training and verification of the MC-YOLOv5s algorithm show that, compared with the original YOLOv5s algorithm, MC-YOLOv5s reduces the number of parameters by 6.98 MB and increases the mAP by about 3.4%. Even compared with other lightweight detection models, the improved model proposed in this paper still has better detection performance. The MC-YOLOv5s has been verified in the ship visual inspection and has great application potential. The code and models are publicly available at https://github.com/sakura994479727/datas .

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Accuracy

/ Algorithms

/ Biology and Life Sciences

/ Computer and Information Sciences

/ Computer networks

/ Deep learning

/ Design