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  KEYWORD

Area Engineering

Experimental implementation of Robust Adaptive Model Predictive Control

Reference persons ELISA CAPELLO

External reference persons FALIERO FABIO, fabio.faliero@polito.it

Research Groups 08- Dinamica, controllo e simulazione del volo

Description This thesis explores Robust Adaptive Model Predictive Control (RAMPC) for a differential drive robot (DDR) using data-driven linear models. The research is structured in two phases. The first phase involves deriving a linear data-driven model of the DDR from experimental data, focusing on capturing parametric uncertainties that affect the model's accuracy. These uncertainties will be integrated into the model to formulate the RAMPC problem. The second phase entails the development and implementation of the RAMPC algorithm. The candidate is required to write code in Python or C++ and integrate it with ROS 2 for real-time control. The RAMPC algorithm will adapt the model continuously based on sensor feedback, ensuring robust performance despite uncertainties and external disturbances. The implementation will be validated on a physical DDR, demonstrating the RAMPC algorithm's ability to track some piecewise constant reference signals.

Required skills Knowledge of Matlab Simulink, Basic Knowledge of Python and C++, Basic Knowledge of Control Systems


Deadline 11/10/2025      PROPONI LA TUA CANDIDATURA