Development of AUV MONACA - Hover-Capable Platform for Detailed Observation Under Ice -

IF 0.9 Q4 ROBOTICS Journal of Robotics and Mechatronics Pub Date : 2021-12-20 DOI:10.20965/jrm.2021.p1223

H. Yamagata, Shuma Kochii, H. Yoshida, Y. Nogi, T. Maki

引用次数: 1

Abstract

The melting of ice and changes in ocean currents in Antarctica must be investigated to understand global climate change. In this regard, the volume changes of sea ice and ice shelves, bathymetry, and ocean currents in the Antarctic Ocean must be measured in three dimensions. Therefore, the use of autonomous underwater vehicles (AUVs), which can directly observe under ice, is being considered. The authors developed an AUV named Mobility Oriented Nadir AntarctiC Adventurer (MONACA) to observe sea ice and the lower region of the ice shelf in the Antarctic Ocean. Herein, we describe MONACA and its basic autonomous navigation methods (altitude control, depth control, and waypoint tracking), as well as report the results of a sea experiment conducted in Shimoda Bay, Japan. During the 5-day sea trial, the MONACA successfully measured bathymetry by tracking 15 waypoints in sequence, switching the control criteria in the -axis direction between 3 m depth and 3 m altitude.

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冰下精细观测AUV MONACA悬停平台研制

为了了解全球气候变化，必须对南极洲冰的融化和洋流的变化进行调查。在这方面，必须对南冰洋的海冰和冰架、测深和洋流的体积变化进行三维测量。因此，人们正在考虑使用能够直接在冰下观测的自主水下航行器(auv)。作者开发了一种名为“机动导向纳迪尔南极探险者”(MONACA)的AUV，用于观测南极海洋的海冰和冰架下部区域。本文介绍了MONACA及其基本自主导航方法(高度控制、深度控制和航路点跟踪)，并报告了在日本下田湾进行的海上实验结果。在为期5天的海上试验中，MONACA通过顺序跟踪15个航路点，在3米深度和3米高度之间的-轴方向切换控制标准，成功测量了水深。

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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来源期刊

Journal of Robotics and Mechatronics ROBOTICS-

CiteScore

2.20

自引率

36.40%

发文量

134

期刊介绍： First published in 1989, the Journal of Robotics and Mechatronics (JRM) has the longest publication history in the world in this field, publishing a total of over 2,000 works exclusively on robotics and mechatronics from the first number. The Journal publishes academic papers, development reports, reviews, letters, notes, and discussions. The JRM is a peer-reviewed journal in fields such as robotics, mechatronics, automation, and system integration. Its editorial board includes wellestablished researchers and engineers in the field from the world over. The scope of the journal includes any and all topics on robotics and mechatronics. As a key technology in robotics and mechatronics, it includes actuator design, motion control, sensor design, sensor fusion, sensor networks, robot vision, audition, mechanism design, robot kinematics and dynamics, mobile robot, path planning, navigation, SLAM, robot hand, manipulator, nano/micro robot, humanoid, service and home robots, universal design, middleware, human-robot interaction, human interface, networked robotics, telerobotics, ubiquitous robot, learning, and intelligence. The scope also includes applications of robotics and automation, and system integrations in the fields of manufacturing, construction, underwater, space, agriculture, sustainability, energy conservation, ecology, rescue, hazardous environments, safety and security, dependability, medical, and welfare.