University of Tasmania
Browse

File(s) under permanent embargo

Modelling of a surface vessel from free running test using low cost sensors

Version 2 2024-09-18, 23:40
Version 1 2023-05-23, 12:45
conference contribution
posted on 2024-09-18, 23:40 authored by Y Wang, Shuhong ChaiShuhong Chai, Hung NguyenHung Nguyen
Identification of hydrodynamic coefficients and accessibility of accurate mathematical model to predict actual responses of vessels has practical significance to design computer-based simulators and apply new control algorithms, thus effective methods and proper devices should be investigated to do the modelling. The aim of this study was to estimate hydrodynamic coefficients of a surface vessel from the free running test using an experimental modelling method. Working as the embedded platform and data acquisition card, myRIO was utilized to control the scaled model, namely 'P&O Nedlloyd Hoorn', and measure her motion states using low cost sensors including a Global Positioning System (GPS) receiver, accelerometer, gyroscope and digital compass. System identification was conducted utilizing the processed experimental data with Kalman filter to estimate the hydrodynamic coefficients of a mathematical model in four degree of freedom (DOF) including surge, sway, yaw and roll. The developed mathematical model of the scaled model was validated through the comparison between the experimental data and simulation results. It has demonstrated that the proposed low cost hardware and system identification algorithm is capable of estimating hydrodynamic coefficients of the proposed mathematical model of the scaled surface vessel.

History

Publication title

Proceedings of the 3rd International Conference on Control, Automation and Robotics (ICCAR 2017)

Volume

199

Pagination

299-303

ISBN

978-1-5090-6088-7

Department/School

National Centre for Maritime Engineering and Hydrodynamics

Publisher

Institute of Electrical and Electronics Engineers, Inc.

Publication status

  • Published

Place of publication

USA

Event title

2017 3rd International Conference on Control, Automation and Robotics (ICCAR)

Event Venue

Nagoya, Japan

Date of Event (Start Date)

2017-04-24

Date of Event (End Date)

2017-04-26

Rights statement

Copyright 2017 IEEE

Socio-economic Objectives

241502 Automotive equipment

Usage metrics

    University Of Tasmania

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC