Design and development of a hull stabilization system for personnel carrier

Author

Srinontri, Paphat ; Chatchanayuenyong, Theerayuth ; Sombattheera, Chattrakul ; Suwannata, Nattawoot

Author_Institution

UAV & Mechatron. Res. Lab., Mahasarakham Univ., Mahasarakham, Thailand

fYear

2015

fDate

23-25 April 2015

Firstpage

147

Lastpage

152

Abstract

This paper presents a design and development of a hull stabilization system for personal carrier. A Sliding Mode Controller (SMC) was employed to control roll angle of the carrier, which is the most critical degree-of-freedom (DOF) to stabilize the carrier. Simulation results show good performance of the proposed controller, which can bring the roll angle to the setpoint quickly with a critical damp response. A comparison between open-loop and SMC was also conducted, the result of which ensures the effectiveness of the algorithm. A carrier testbed equipped with a digital gyroscope as the attitude sensor and trolling motors as the actuator, was constructed to test and validate the possibility and performance of the propose stabilization system.

Keywords

actuators; attitude control; damping; gyroscopes; marine vehicles; robust control; variable structure systems; SMC; actuator; attitude sensor; damp response; digital gyroscope; hull stabilization system design; marine vehicle; personnel carrier; robust control; roll angle; sliding mode controller; Gyroscopes; Mathematical model; Personnel; Sliding mode control; Switches; Vehicle dynamics; Vehicles; Marine Vehicle; Personnel Carrier; Robust Control; Sliding Mode Control; Stabilization System;

fLanguage

English

Publisher

ieee

Conference_Titel

Defence Technology (ACDT), 2015 Asian Conference on

Conference_Location

Hua Hin

Print_ISBN

978-1-4799-8166-3

Type

conf

DOI

10.1109/ACDT.2015.7111601

Filename

7111601