Diseño y simulación del seguimiento de trayectorias de un vehículo autónomo sumergible subactuado considerando retardos de tiempo

Abstract

The work presented in this report studies the design of a Sliding Mode Controller (SMC) based on a Smith Predictor for the control of an Unmanned Underwater Vehicle (UUV) with time delay compensation. The study is performed by simulation of a Remote Environmental Monitoring Unit (REMUS) type submarine torpedo. Different controllers are designed for trajectory tracking, showing the adverse effects of the time delay. In addition, the performance of the controllers is compared by means of the IAE (Integral of Absolute Error) and ISE (Integral of Squared Error) indices. Finally, the different results are shown in the V-REP simulator, which allows the creation of several simulation environments and supports the exchange of information with different programming languages through its external Application Programming Interface (API).