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Hydrodynamic Coefficients and Motion Simulations of Underwater Glider for Virtual Mooring

机译：用于虚拟系泊的水下滑翔机的水动力系数和运动模拟

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We are now developing a prototype of a 3000-m class underwater glider for virtual mooring. The vehicle glides back and forth between the sea surface and the seabed collecting ocean data at a specific point. Hydrodynamic forces acting on the half-size model were measured to determine the optimal wing shape. Next, to obtain the dynamical-hydrodynamic coefficients, forced oscillation tests were carried out using the optimally shaped model. Finally, the motions of the glider were simulated using the hydrodynamic coefficients obtained from these model experiments. The experimental and calculated results are shown in this paper.

机译：我们现在正在开发用于虚拟系泊的3000米级水下滑翔机的原型。车辆在海面和海床之间来回滑动，以在特定点收集海洋数据。测量作用在半尺寸模型上的流体动力，以确定最佳机翼形状。接下来，为了获得动水动力系数，使用最佳形状模型进行了强迫振荡试验。最后，使用从这些模型实验获得的水动力系数来模拟滑翔机的运动。实验结果和计算结果在本文中显示。

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中村昌彦; 浅川賢一; 百留忠洋; 杵嶋暁; 松岡弘樹; 南拓也; NAKAMURA Masahiko; ASAKAWA Kenichi; HYAKUDOME Tadahiro; KISHIMA Satoru; MATSUOKA Hiroki; MINAMI Takuya;
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年度 2013
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1. Hydrodynamic Coefficients and Motion Simulations of Underwater Glider for Virtual Mooring [J] . Nakamura, M., Asakawa, IEEE Journal of Oceanic Engineering . 2013 ,第3期

机译：用于虚拟系泊的水下滑翔机的水动力系数和运动模拟
2. Experimental analysis on hydrodynamic coefficients of an underwater glider with spherical nose for dynamic modeling and motion simulation [J] . Kambiz Divsalar, Rouzbeh Shafaghat, Mousa Farhadi, SN Applied Sciences . 2021 ,第2期

机译：用于动态建模与运动模拟的球形鼻子水下滑翔机的水动力系数的实验分析
3. Adaptive robust sliding mode control of autonomous underwater glider with input constraints for persistent virtual mooring [J] . Zhou Hexiong, Wei Zhaoyu, Zeng Zheng, Applied Ocean Research . 2020 ,第期

机译：自动水下滑动器对持久虚拟系泊的输入限制的自适应鲁棒滑动模式控制
4. Study on hydrodynamic coefficients of underwater vehicle for virtual mooring [C] . Nakamura M., Asakawa K., Hyakudome T., 2011 IEEE Symposium on Underwater Technology and Workshop on Scientific Use of Submarine Cables and Related Technologies . 2011

机译：虚拟系泊水下航行器的水动力系数研究
5. Computation of hydrodynamic coefficients and determination of dynamic stability characteristics of an underwater vehicle including free surface effects. [D] . Saout, Olivier. 2003

机译：包括自由表面效应在内的水下航行器的水动力系数的计算和动态稳定性特征的确定。
6. Experimental and Computational Methodology for the Determination of Hydrodynamic Coefficients Based on Free Decay Test: Application to Conception and Control of Underwater Robots [O] . Juan S. Cely, Roque Saltaren, Gerardo Portilla, 2019

机译：基于自由衰减测试的流体力学系数确定的实验和计算方法：在水下机器人的概念和控制中的应用
7. Experimental Study on Hydrodynamic Coefficients of Autonomous Underwater Glider Using Vertical Planar Motion Mechanism Test [O] . Jin-Woo Jung, Jae-Hun Jeong, In-Gyu Kim, 2014

机译：垂直平面运动机制试验自主水下滑翔机的流体动力系数的实验研究
8. Computer Program for the Identification of Ship Hydrodynamic Coefficients from Sea Trials and for the Simulation of Ship Motions. [R] . Liu, G. 1992

机译：海上试验船舶水动力系数识别与船舶运动仿真计算机程序。

Hydrodynamic Coefficients and Motion Simulations of Underwater Glider for Virtual Mooring

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