用于自动目标识别中自适应模板匹配的实时声纳图像模拟

IF 3.8 2区工程技术 Q1 ENGINEERING, CIVIL

IEEE Journal of Oceanic Engineering Pub Date : 2024-09-04 DOI:10.1109/JOE.2024.3381390

Jo Inge Buskenes;Herman Midelfart;Øivind Midtgaard;Narada Dilp Warakagoda

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引用次数: 0

摘要

配备侧视声纳的自动潜航器（AUV）具有高图像分辨率和高区域覆盖率，已成为海底勘探的重要工具。为了充分发挥 AUV 的操作性能，AUV 还需要机载感知，包括识别相关物体。我们将自适应模板匹配与实时图像模拟相结合，实现合成孔径声纳图像中的目标自动识别。我们假设，对目标类型和构型进行动态、快速和微调搜索应能改善分类结果和实时响应。通过分析康斯伯格海事公司 HISAS1030 声纳在挪威霍尔滕郊外记录的圆柱形物体的实验数据，我们的假设得到了证实。我们的设置在假阳性率 (FPR) 超过 10%-20% 的情况下优于配置良好的静态模板数据库，曲线下面积提高了一到两个百分点，具体取决于所使用的相关方法。该系统是在图形处理器上使用 OpenGL 和 OpenCL 实现的，OpenGL 和 OpenCL 分别是计算机图形和通用编程库。这有助于更快、更灵活地进行分类。我们描述了实现过程，并提供了一个 Python 脚本作为补充，以展示实践中的符号和实现方法。

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Real-Time Sonar Image Simulation for Adaptive Template Matching in Automatic Target Recognition

Autonomous underwater vehicles (AUVs) equipped with side-looking sonars have become vital tools for seafloor exploration due to the combination of high image resolution and high area coverage rates. To reach their full operational performance AUVs also need onboard perception, including recognition of relevant objects. We combine adaptive template matching and real-time image simulation for automatic target recognition in synthetic aperture sonar images. We hypothesize that dynamic, rapid and fine-tuned search of object types and configurations should improve classification results and real-time responses. Analyses of experimental data with cylindrical objects outside of Horten, Norway, recorded by the Kongsberg Maritime HISAS1030 sonar, strengthened the hypothesis. Our setup outperformed a well-configured, static template database at false positive rates (FPR) above 10%–20%, with an area under curve improvement of one to two percent, depending on the correlation methods used. The system is implemented on a graphics processing unit using OpenGL and OpenCL, a computer graphics and general-purpose programming library, respectively. This facilitates a faster and more flexible classification process. We describe the implementation and provide a supplementary Python script to showcase the notation and implementation in practice.

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来源期刊

IEEE Journal of Oceanic Engineering 工程技术-工程：大洋

CiteScore

9.60

自引率

12.20%

发文量

审稿时长

12 months

期刊介绍： The IEEE Journal of Oceanic Engineering (ISSN 0364-9059) is the online-only quarterly publication of the IEEE Oceanic Engineering Society (IEEE OES). The scope of the Journal is the field of interest of the IEEE OES, which encompasses all aspects of science, engineering, and technology that address research, development, and operations pertaining to all bodies of water. This includes the creation of new capabilities and technologies from concept design through prototypes, testing, and operational systems to sense, explore, understand, develop, use, and responsibly manage natural resources.