Modelling of a Remotely Operated Vehicle and Tuning for Its Robust and Optimal Dynamic Positioning Control
Abstract
A tuning approach for the robust and optimal dynamic positioning control of BlueROV2 subjected to currents with varying speeds and headings is presented. A 2D planar dynamic model of BlueROV2 is developed in Matlab/Simulink and used for the study. The surge, sway and yaw motions are controlled by individual PID controllers. An extensive sensitivity study is carried out on a total of nine cases with different current speeds, current headings and measurement noise levels. The results show that the tuning of a model solely using step responses from a linearized model might not produce optimal results. Further it is important to verify the system reponses in time domain after tuning. Finally, it is observed that re-tuning the controllers for each simulation case generally leads to better performance. However, it is also shown that the base case controller gains are sufficiently robust and lead to good performances for the other simulation cases.