Small Target Detection Method Based on Low-Rank Sparse Matrix Factorization for Side-Scan Sonar Images

He, Ju; Chen, Jianfeng; Xu, Hu; Ayub, Muhammad Saad

doi:10.3390/rs15082054

Cited by 7 publications

(2 citation statements)

References 45 publications

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“…Utilizing an AUV to collect side-scan sonar images is a valuable research method, and several studies in the industry are currently based on this approach [24][25][26]. The image depicted in Figure 8 illustrates the data collected during a field experiment conducted in February 2023 at the Nanshan Port Terminal located in Sanya, China.…”

Section: Testing On the Side-scan Sonar Image With Strong Noise And S...mentioning

confidence: 99%

A Curvelet-Transform-Based Image Fusion Method Incorporating Side-Scan Sonar Image Features

Zhao

Jin

Bian

et al. 2023

JMSE

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Current methods of fusing side-scan sonar images fail to tackle the issues of shadow removal, preservation of information from adjacent strip images, and maintenance of image clarity and contrast. To address these deficiencies, a novel curvelet-transform-based approach that integrates the complementary attribute of details from side-scan sonar strip images is proposed. By capitalizing on the multiple scales and orientations of the curvelet transform and its intricate hierarchical nature, myriad fusion rules were applied at the corresponding frequency levels, enabling a more-tailored image fusion technique for side-scan sonar imagery. The experimental results validated the effectiveness of this method in preserving valuable information from side-scan sonar images, reducing the presence of shadows and ensuring both clarity and contrast in the fused images. By meeting the aforementioned challenges encountered in existing methodologies, this approach demonstrated great practical significance.

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Section: Testing On the Side-scan Sonar Image With Strong Noise And S...mentioning

confidence: 99%

A Curvelet-Transform-Based Image Fusion Method Incorporating Side-Scan Sonar Image Features

Zhao

Jin

Bian

et al. 2023

JMSE

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“…In recent years, computer vision, especially deep learning, has developed rapidly and has been widely applied in various scene fields, bringing revolutionary changes to human production and life. For example, computer vision technology, especially deep learning, is widely used in the detection of water-floating objects on water surfaces, mainly relying on remote sensing images [ 2 ] to detect floating objects such as ships [ 3 ], aquatic organisms [ 4 ], and marine pollution [ 5 ] in order to ensure the safety of ship navigation and avoid collision accidents, protect the diversity and ecosystem of aquatic organisms, and protect water environment safety. Zhao et al [ 6 ] proposed the YOLOv7 algorithm to enhance the detection of small targets at seas where significant interference from the sea environment during the detection process exists.…”

Section: Introductionmentioning

confidence: 99%

APM-YOLOv7 for Small-Target Water-Floating Garbage Detection Based on Multi-Scale Feature Adaptive Weighted Fusion

Jiang,

Wu,

et al. 2023

Sensors

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As affected by limited information and the complex background, the accuracy of small-target water-floating garbage detection is low. To increase the detection accuracy, in this research, a small-target detection method based on APM-YOLOv7 (the improved YOLOv7 with ACanny PConv-ELAN and MGA attention) is proposed. Firstly, the adaptive algorithm ACanny (adaptive Canny) for river channel outline extraction is proposed to extract the river channel information from the complex background, mitigating interference of the complex background and more accurately extracting the features of small-target water-floating garbage. Secondly, the lightweight partial convolution (PConv) is introduced, and the partial convolution-efficient layer aggregation network module (PConv-ELAN) is designed in the YOLOv7 network to improve the feature extraction capability of the model from morphologically variable water-floating garbage. Finally, after analyzing the limitations of the YOLOv7 network in small-target detection, a multi-scale gated attention for adaptive weight allocation (MGA) is put forward, which highlights features of small-target garbage and decreases missed detection probability. The experimental results showed that compared with the benchmark YOLOv7, the detection accuracy in the form of the mean Average Precision (mAP) of APM-YOLOv7 was improved by 7.02%, that of mmAP (mAP0.5:0.95) was improved by 3.91%, and Recall was improved by 11.82%, all of which meet the requirements of high-precision and real-time water-floating garbage detection and provide reliable reference for the intelligent management of water-floating garbage.

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A Multi-Task Water Surface Visual Perception Network for Unmanned Surface Vehicles

Xu,

Geng,

et al. 2023

2023 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC)

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Small Target Detection Method Based on Low-Rank Sparse Matrix Factorization for Side-Scan Sonar Images

Cited by 7 publications

References 45 publications

A Curvelet-Transform-Based Image Fusion Method Incorporating Side-Scan Sonar Image Features

A Curvelet-Transform-Based Image Fusion Method Incorporating Side-Scan Sonar Image Features

APM-YOLOv7 for Small-Target Water-Floating Garbage Detection Based on Multi-Scale Feature Adaptive Weighted Fusion

A Multi-Task Water Surface Visual Perception Network for Unmanned Surface Vehicles

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