Title :
Smart ROVLATIS: Control architecture
Author :
Omerdic, E. ; Toal, D. ; Nolan, Sheila ; Ahmad, Harith
Author_Institution :
ECE Dept., Univ. of Limerick, Limerick, Ireland
Abstract :
This paper describes the control architecture of smart ROVLATIS. Smart ROVLATIS is a novel, multi-mode of operation marine robotics vehicle, developed at Mobile & Marine Robotics Research Centre (MMRRC), for operational flexibility in high-resolution near seabed survey from shallow inshore waters out to the continental shelf edge. The vehicle can operate in surface-tow mode, surface-thrusted mode and ROV operation mode. Special features of the system include: deployment interoperability for small inshore boats and larger research vessel; built-in auto-tuning of low-level controllers; fault tolerant thruster control in 6 DOF; onboard computer control enabling real-time disturbance reaction and topside augmented reality system support. The vehicle can be used as a target platform in various scenarios (research and scientific projects, inspections, seabed survey missions, vision experiments etc.).
Keywords :
augmented reality; autonomous underwater vehicles; control engineering computing; fault tolerance; marine engineering; mobile robots; open systems; path planning; MMRRC; Mobile & Marine Robotics Research Centre; ROV operation mode; autonomous underwater vehicles; built-in auto-tuning; control architecture; deployment interoperability; fault tolerant thruster control; onboard computer control; operation marine robotics vehicle; real-time disturbance reaction; smart ROVLATIS; surface-thrusted mode; surface-tow mode; topside augmented reality system support; augmented reality; control allocation; fault-tolerant control; smart ROV;
Conference_Titel :
Control 2010, UKACC International Conference on
Conference_Location :
Coventry
Electronic_ISBN :
978-1-84600-038-6
DOI :
10.1049/ic.2010.0381
