Development of an underwater gravimeter and the first observation by using autonomous underwater vehicle

2013 IEEE International Underwater Technology Symposium (UT) Pub Date : 2013-03-05 DOI:10.1109/UT.2013.6519864

M. Shinohara, T. Yamada, T. Kanazawa, K. Uehira, H. Fujimoto, T. Ishihara, A. Araya, K. Iizasa, S. Tsukioka

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引用次数: 8

Abstract

We developed an underwater gravimeter for exploration of a seafloor hydrothermal deposit. Our hybrid gravimeter system consists of an underwater gravimeter and an underwater gravity gradiometer. We adopted Micro-g LaCoste S-174 as a gravity sensor. The sensor is mounted on a gimbal mechanism with a fiber gyroscope. A titanium sphere contains the sensor system. Maximum depth rating is 4,200 m. The data are sent to a recording system housed in another cylinder-shape capsule. The whole system is controlled and monitored via acoustic link of the AUV. In September 2012, the first practical measurement in marine area was carried out by using JAMSTEC's AUV URASHIMA to evaluate performance of the system. The gravimeter and gravity gradiometer were simultaneously mounted on the URASHIMA and the first measurement was performed in Sagami-Bay. From the survey, we obtained the gravity data and supplemental data for compensation of the gravity data with good quality. According to preliminary analyses, the resolution of the gravity data from the first practical measurement is estimated to reach 0.1 mgal.

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水下重力仪研制及自主水下航行器首次观测

我们研制了一种水下重力仪来勘探海底热液矿床。我们的混合式重力仪系统由水下重力仪和水下重力梯度仪组成。我们采用Micro-g LaCoste S-174作为重力传感器。传感器安装在带有光纤陀螺仪的万向节机构上。传感器系统由一个钛球体组成。最大额定深度为4200米。数据被发送到另一个圆柱形胶囊内的记录系统。整个系统通过水下航行器的声链进行控制和监测。2012年9月，使用JAMSTEC的AUV URASHIMA在海洋区域进行了首次实际测量，以评估系统的性能。重力仪和重力梯度仪同时安装在URASHIMA上，第一次测量在相模湾进行。从调查中，我们获得了质量较好的重力数据和补偿重力数据的补充数据。根据初步分析，第一次实际测量的重力数据的分辨率估计达到0.1 mgal。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE International Underwater Technology Symposium (UT)

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