A project for the modelling and control of the IQUA Robotics autonomous underwater vehicle called Sparus. This project is submitted as part of the evaluation of the Underwater Robotics course in the Marine and Maritime Intelligent Robotics Master, Université de Toulon.
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The Sparus autonomous underwater vehicle, developed by IQUA Robotics, is specialized for shallow waters up to 200 meters deep. It features a rear configuration with two horizontal thrusters and a central vertical thruster, enabling precise maneuverability. The vehicle is equipped with an antenna for wireless communication, a Doppler Velocity Log (DVL) and an Ultra-Short Baseline (USBL) system for accurate navigation, an Inertial Measurement Unit (IMU) for orientation, and depth sensors for depth measurement. The vehicle's modeling approach is tailored to optimize control by effectively utilizing its parameters, ensuring reliable and precise performance in its designated tasks underwater.
- Computation of the rigid-body general mass matrix (including the mass matrix and the inertia tensors) and the added-mass matrix.
- Drag Parameters Identification
- Coriolis Components Modelling
- Thruster Modelling
- Validating using a Simulink-based Simulator
The original simulator is in the SparusSim
folder (although there are a couple of problems in the original simulator which have been corrected in the SimSolution
folder) while the solutions from the modelling and testing are implemented in the SimSolution
folder. Tasks 1-3 are initially developped in the SparusIICalculations.mlx
file. While tasks 1-4 are implemented in the files: SimSolution/parameters.m
and SimSolution/RovModel.m
. The validation is evaluated by running the simulator in SimSolution/Sparus_3D_advance_model.mdl
while the data obtained are plotted using the codes in SimSolution/plotting.m
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- MATLAB
- Simulink
- Open the Simulink file in
SimSolution/Sparus_3D_advance_model.mdl
- Implement the command using
SimSolution/command.m
or the matrix input in the Simulink simulation. (Take note of the switch between both modes) - The plotting function is added as a stopFcn() to the Simulink simulation.
- Farooq Olanrewaju - olanrewajufarooq@yahoo.com, farooq-olanrewaju@etud.univ-tln.fr
- Nimra Jabeen - nimrajabeen246@gmail.com
For more information on the project analysis, check: Underwater_Robotics_Report.pdf
Supervisor: Dr. Mathieu Richier, Maitre Conference, Université de Toulon.