Pachara Srimuk, A. Boonpoonga, K. Kaemarungsi, K. Athikulwongse, D. Torrungrueng, Nattawat Chantasen
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引用次数: 0
摘要
本文介绍了一种流行的基于区域的卷积神经网络——Faster RCNN在探地雷达(GPR)图像中双曲模式检测中的应用。探地雷达是地质、考古、工程等各个领域进行地下成像的重要工具。然而,由于噪声、小物体和物体大小的变化,GPR图像的分析可能具有挑战性。为了评估该方法的性能,使用GprMax仿真软件生成了369张模拟GPR b扫描图像。这些图像包括单、双、三重双曲线模式。结果表明,预处理提高了检测精度,提高了交叉口比联(Intersection over Union, IoU)分数。实验结果表明,Faster R-CNN是GPR图像中双曲模式检测的有效工具,为该领域的未来研究提供了一个很好的方向。
Hyperbolic Pattern Detection in Ground Penetrating Radar Images Using Faster R-CNN
This study presents the application of Faster RCNN, a popular Region Based Convolutional Neural Network, for detecting hyperbolic patterns in Ground Penetrating Radar (GPR) images. GPR is an important tool for subsurface imaging in various fields such as geology, archaeology, and engineering. However, the analysis of GPR images can be challenging due to noise, small objects, and variations in object sizes. To evaluate the performance of the proposed method, 369 simulated GPR B-scan images were generated using GprMax simulation software. These images included single, double, and triple hyperbolic patterns. The results showed that preprocessing improved the detection accuracy and led to higher Intersection over Union (IoU) scores. The experimental results demonstrate that Faster R-CNN is an effective tool for hyperbolic pattern detection in GPR images and provides a promising direction for future research in the field.
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