Three-Dimensionally Maneuverable Robotic Fish Enabled by Servo Motor and Water Electrolyser

2019 International Conference on Robotics and Automation (ICRA) Pub Date : 2019-05-20 DOI:10.1109/ICRA.2019.8793870

Wenyu Zuo, A. Keow, Zheng Chen

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引用次数: 6

Abstract

Three-dimensionally (3D) maneuverable robotic fish are highly desirable due to their abilities to explore and survey the underwater environment. Existing depth control mechanism is focused on using compressed air or piston to generate volume change, which makes the system bulky and impractical in a small size underwater robot. In this paper, a small and compact 3D maneuverable robotic fish is developed. Instead of using a compressed air tank, the robot is equipped with an on-board water electrolyzer to generate the gases for depth change. The fabricated robotic fish shows fast diving and rising performance. A servo motor is used to generate asymmetric flapping motion on the caudal fin, which leads to a two-dimensionally (2D) planar motion. A 3D dynamic model is then derived for the fabricated robotic fish. Several open-loop control experiments have been conducted to validate the model as well as the design. It has been demonstrated in the experimental results that the robot is capable of generating 3D motion. The robot can achieve 0.13 m/s forward velocity, 30.6 degree/s turning rate, and it takes about 5.5 s to dive to 0.55 m and 10 s to rise.

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由伺服电机和电解器实现的三维可操作机器鱼

由于具有探索和调查水下环境的能力，三维(3D)机动机器鱼非常受欢迎。现有的深度控制机制主要是利用压缩空气或活塞来产生体积变化，这使得系统体积庞大，不适用于小型水下机器人。本文研制了一种小型紧凑的三维机动机器鱼。该机器人没有使用压缩空气罐，而是配备了一个车载电解器来产生用于深度变化的气体。制作的机器鱼具有快速潜水和上升的性能。利用伺服电机在尾鳍上产生非对称扑动，使尾鳍进行二维平面运动。建立了机器鱼的三维动力学模型。通过开环控制实验对模型和设计进行了验证。实验结果表明，该机器人能够产生三维运动。机器人的前进速度为0.13 m/s，转弯速度为30.6度/s，下潜至0.55 m需要5.5 s左右，上升需要10 s左右。

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2019 International Conference on Robotics and Automation (ICRA)

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