Automatic non-destructive three-dimensional acoustic coring system for in situ detection of aquatic plant root under the water bottom

Katsunori Mizuno , Xiaofei Liu , Fuyuki Katase , Akira Asada , Makoto Murakoshi , Yasunobu Yagita , Yasufumi Fujimoto , Tetsuo Shimada , Yoshiaki Watanabe
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引用次数: 9

Abstract

Digging is necessary to detect plant roots under the water bottom. However, such detection is affected by the transparency of water and the working skills of divers, usually requires considerable time for high-resolution sampling, and always damages the survey site. We developed a new automatic non-destructive acoustic measurement system that visualizes the space under the water bottom, and tested the system in the in situ detection of natural plant roots. The system mainly comprises a two-dimensional waterproof stage controlling unit and acoustic measurement unit. The stage unit was electrically controlled through a notebook personal computer, and the space under the water bottom was scanned in a two-dimensional plane with the stage unit moving in steps of 0.01 m (±0.0001 m). We confirmed a natural plant root with diameter of 0.025–0.030 m in the reconstructed three-dimensional acoustic image. The plant root was at a depth of about 0.54 m and the propagation speed of the wave between the bottom surface and plant root was estimated to be 1574 m/s. This measurement system for plant root detection will be useful for the non-destructive assessment of the status of the space under the water bottom.

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用于水下水生植物根系原位检测的自动无损三维声学取芯系统
挖掘是探测水底下植物根系的必要手段。然而,这种检测受到水体透明度和潜水员工作技能的影响,通常需要相当长的时间进行高分辨率采样,并且经常损坏调查现场。我们开发了一种新的水下空间可视化自动无损声学测量系统,并在天然植物根系的原位检测中进行了测试。该系统主要由二维防水级控制单元和声学测量单元组成。通过笔记本电脑对舞台单元进行电气控制,并对水下空间进行二维平面扫描,舞台单元以0.01 m(±0.0001 m)的步长移动。在重建的三维声学图像中,我们确认了一个直径为0.025-0.030 m的天然植物根。植物根部深度约为0.54 m,估计波浪在底部表面与植物根部之间的传播速度为1574 m/s。该植物根系检测系统可用于对水下空间状况进行无损评估。
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Contents Editorial Board Editorial Board Contents Comparison of surface-based and image-based quality metrics for the analysis of dimensional computed tomography data
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