An improved 3D modeling of water-jet propellers for a spherical underwater robot

机译：球形水下机器人喷水推进器的改进3D建模

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This paper presents a newly improved 3D modeling of multiple water-jet propellers which is used inside a spherical underwater robot. For a start, the whole structure of the robot is illustrated briefly. To overcome undesirable properties of the 2D modeling, a more accurate modeling is designed instead of the previous one, which adopts one 6-axis load cell sensor to detect propulsive forces in the x, y, z-axis directions and torques simultaneously. Afterwards, a series of underwater experiments are carried out to figure out the closed relations between the regulating angles in horizontal plane and vertical plane and the forces and moments generated by single propeller in the robot. These experimental results showed that the advanced propulsion system is much more appropriate for studying on underwater robots.

机译：本文提出了一种新的改进的3D建模技术，该模型可用于球形水下机器人内部的多个喷水推进器。首先，简要说明了机器人的整体结构。为了克服2D建模的不良特性，设计了一种更精确的建模，而不是先前的建模，后者采用了一个6轴测力传感器，以同时检测x，y，z轴方向的推力和扭矩。随后，进行了一系列水下实验，以求出水平面和垂直平面上的调节角与机器人中单个螺旋桨产生的力和力矩之间的闭合关系。这些实验结果表明，先进的推进系统更适合在水下机器人上进行研究。

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《2011 IEEE International Conference on Mechatronics and Automation》|2011年|p.319-324|共6页
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Liu Zhaoyi; Guo Shuxiang; Li Hui; Lin Xichuan;
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中图分类自动化技术及设备;
关键词
3D vector space; Load cell sensor; Propulsion system; Spherical underwater robot; Water-jet propellers;

机译：3D向量空间;称重传感器;推进系统;球形水下机器人;喷水推进器;

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1. 3D Modelling of a Vectored Water Jet-Based Multi-Propeller Propulsion System for a Spherical Underwater Robot [J] . Xichuan Lin, Shuxiang Guo, Chunfeng Yue, International Journal of Advanced Robotic Systems . 2013,第1期

机译：基于矢量水射流的球形水下机器人多螺旋桨推进系统的3D建模
2. 3D Modelling of a Vectored Water Jet-Based Multi-Propeller Propulsion System for a Spherical Underwater Robot [J] . Xichuan Lin, Shuxiang Guo, Chunfeng Yue, International Journal of Advanced Robotic Systems . 2013,第1期

机译：基于矢量水射流的球形水下机器人多螺旋桨推进系统的3D建模
3. 3D Modelling of a Vectored Water Jet-Based Multi-Propeller Propulsion System for a Spherical Underwater Robot [J] . Lin Xichuan, Guo Shuxiang, Yue Chunfeng, International Journal of Advanced Robotic Systems . 2013,第期

机译：一种矢量化水射流多螺旋桨推进系统的3D建模球形水下机器人
4. An improved 3D modeling of water-jet propellers for a spherical underwater robot [C] . Liu Zhaoyi, Guo Shuxiang, Li Hui, International Conference on Mechatronics and Automation . 2011

机译：一种改进的水射流螺旋桨对球面水下机器人的3D建模
5. Design, characterization, and modeling of underwater robots for ethorobotics. [D] . Kopman, Vladislav. 2013

机译：水下机器人的设计，表征和建模。
6. Hydrodynamic Analysis-Based Modeling and Experimental Verification of a New Water-Jet Thruster for an Amphibious Spherical Robot [O] . Xihuan Hou, Shuxiang Guo, Liwei Shi, 2019

机译：基于水动力分析的两栖球形机器人新型喷水推进器建模与实验验证
7. 3D Modelling of a Vectored Water Jet-Based Multi-Propeller Propulsion System for a Spherical Underwater Robot [O] . Xichuan Lin, Shuxiang Guo, Chunfeng Yue, 2013

机译：基于矢量水射流的球形水下机器人多螺旋桨推进系统三维建模

An improved 3D modeling of water-jet propellers for a spherical underwater robot

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