The Marine Systems Simulator (MSS) is a Matlab/Simulink library for marine systems. It includes models for ships, underwater vehicles, and floating structures. The library also contains guidance, navigation, and control (GNC) blocks for real-time simulation. Please include the following reference when you use the GNC and HYDRO toolboxes:
T. I. Fossen and T. Perez (2004). Marine Systems Simulator (MSS). URL: https://github.com/cybergalactic/MSS
Copy the folder /MSS to your Matlab folder and "add the path with subfolders" to Matlab. Then type:
help MSS
Basic libraries and system examples for guidance, navigation and control (GNC). The library contains:
- M-file functions (kinematics and kinetics) and Simulink examples for time-domain GNC applications.
- M-file library with vessels models, maneuvering trials, and dynamic simulation.
- User editable m-files for simulation and control of ships, rigs and underwater vehicles.
- Simulink toolbox for dynamic simulation of marine vessels and control systems. The Simulink library includes vessels models, autopilots, DP control systems, wave filters, guidance systems, actuator models and much more.
The toolbox reads output data files generated by hydrodynamic programs and processes the data for use in Matlab/Simulink. MSS Hydro includes several example vessels. In order to build your own model, you need a license for one of the following programs:
- 2D strip theory programs - ShipX (Veres) by SINTEF OCEAN AS
- 3D potential theory programs - WAMIT by WAMIT Inc.
The processed data can be used in real-time simulation of marine vessels in 6 DOF exposed to 1st- and 2nd-order wave loads (motion and force RAO transfer functions).
This is a stand-alone toolbox for identification of radiation-force models and fluid memory effects of marine structures such as marine craft and wave energy converters. Please include the following reference when you use the MSS FDI toolbox:
T. Perez and T. I. Fossen (2009). A Matlab Tool for Parametric Identification of Radiation-Force Models of Ships and Offshore Structures. Modelling, Identification and Control, MIC-30(1):1-15.