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基于Pixhawk与开源架构的ROV总体设计与运动控制

李行行朱发新廖煜铭董良雄王盛儿

水下无人系统学报2026，Vol.34Issue(1)：167-174,8.

水下无人系统学报2026，Vol.34Issue(1)：167-174,8.DOI:10.11993/j.issn.2096-3920.2025-0136

基于Pixhawk与开源架构的ROV总体设计与运动控制

Overall Design and Motion Control of an ROV Based on Pixhawk and Open-Source Architecture

李行行 ¹朱发新 ¹廖煜铭 ²董良雄 ²王盛儿³

作者信息

1. 浙江海洋大学船舶与海运学院,浙江舟山,316022
2. 广州航海学院航运学院,广东广州,510725
3. 中国船级社实业有限公司宁波分公司,浙江宁波,315000
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摘要

Abstract

To optimize the development cycle and project cost of undersea vehicles,this paper designed and implemented a remotely operated vehicle(ROV)system based on an open-source hardware and software platform.First,this paper utilized Fusion360 software for the three-dimensional(3D)modeling of the ROV and adopted 3D printing technology to achieve rapid prototyping.Second,a combined hierarchical control architecture of Pixhawk and Raspberry Pi(RPi)was designed and constructed.The upper layer used RPi as the decision-making unit to run robot operating system(ROS)nodes,process visual data,execute task planning,and conduct high-speed communication with the ground station.The lower layer used Pixhawk as the real-time motion control unit to calculate navigation attitude and drive thrusters.Data interaction between the upper and lower layers,as well as between the system and the remote ground station,was realized through the MAVLink communication protocol.Test results in a static water environment show that the ROV can stably receive and respond to control commands sent by the ground station,with a depth-keeping control accuracy within±0.3 m and a heading control deviation of less than±3°.The research indicates that the development path based on the open-source Pixhawk flight control platform and low-cost manufacturing technology is feasible.This scheme shortens the development cycle and reduces the cost of the undersea vehicle,and its hardware and software architecture is scalable,providing reusable technical references and practical experience for the rapid development of small and medium-sized underwater detection equipment.

关键词

遥控水下航行器/Pixhawk/开源架构/总体设计/运动控制

Key words

remotely operated vehicle/Pixhawk/open-source architecture/overall design/motion control

分类

军事科技

引用本文复制引用

李行行,朱发新,廖煜铭,董良雄,王盛儿..基于Pixhawk与开源架构的ROV总体设计与运动控制[J].水下无人系统学报,2026,34(1):167-174,8.

基金项目

2025浙江省大学生科技创新活动计划暨新苗人才计划(2025R411CO47) （2025R411CO47）

2024年教育部供需对接就业育人项目(2024103088623) （2024103088623）

2022年浙江省优秀研究生课程(2022YXKC0235) （2022YXKC0235）

2022年浙江省"十四五"研究生教育改革项目(2022KCSZ0236). （2022KCSZ0236）

水下无人系统学报

ISSN：2096-3920

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