基于改进型 YOLOv7-tiny 的光学遥感图像的船舶分类和探测方法

International Conference on Algorithm, Imaging Processing and Machine Vision (AIPMV 2023) Pub Date : 2024-01-09 DOI:10.1117/12.3014371

Jinwei Cheng, Jie Yuan, Xiaoning Hu, Baorong Xie, Junrui Wang

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引用次数: 1

摘要

针对遥感影像船舶检测中近海复杂场景带来的故障和泄漏检测问题，提出了一种基于改进YOLOv7-tiny的轻量级船舶分类检测方法。一方面，该方法叠加了轻量级特征提取模块，并将其应用于骨干特征提取网络，大大降低了参数和计算复杂度，且不会削弱网络的特征提取能力。另一方面，该方法在特征金字塔中引入了空间信息，提高了不同尺度特征的辨别能力，从而提高了网络的分类和检测能力。该方法已在遥感图像船舶数据集上进行了测试。实验结果表明，基于改进网络的船舶分类检测平均准确率提高了 2.9%。同时，参数量和计算复杂度均优于 YOLOv7-tiny，参数量减少了 15%，计算复杂度减少了 24%。

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The ship classification and detection method of optical remote sensing image based on improved YOLOv7-tiny

In view of the fault and leak detection problems caused by complex scenes of offshore area in remote sensing image ship detection, a lightweight ship classification detection method is proposed based on improved YOLOv7-tiny. On the one hand, this method stacks a lightweight feature extraction module and applies it to the backbone feature extraction network, which significantly reduces the parameter and computational complexity and does not weaken the network's ability of feature extraction. On the other hand, this method introduces spatial information into the feature pyramid, raising the discrimination of features at different scales, to improve the classification and detection ability of the network. This method has been tested on the remote sensing image ship data set. The experimental results show that the average accuracy of ship classification detection based on the improved network is increased by 2.9%. Meanwhile, the parameter quantity and computational complexity are better than YOLOv7-tiny, with a 15% reduction in parameter quantity and a 24% reduction in computational complexity.

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International Conference on Algorithm, Imaging Processing and Machine Vision (AIPMV 2023)

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