Title :
Data-Driven Design of Braking Control Systems
Author :
Formentin, Simone ; De Filippi, Pierpaolo ; Corno, Matteo ; Tanelli, Mara ; Savaresi, Sergio M.
Author_Institution :
Dipt. di Elettron. e Inf., Politec. di Milano, Milan, Italy
Abstract :
The spread of active braking controllers on vehicles with significant mechanical differences and on low-cost products asks for control design approaches which offer easy and fast calibration and re-tuning capabilities. This task is made difficult by the use of model-based control approaches which heavily rely on specific vehicle dynamics descriptions. To address these issues, this brief paper proposes a data-driven approach to active braking control design, grounded on the virtual reference feedback tuning (VRFT) approach complemented with a data-driven nonlinear compensator. The effectiveness of the proposed approach is assessed both on a full-fledged multibody simulator and on a tire-in-the-loop experimental facility.
Keywords :
braking; control system synthesis; feedback; nonlinear control systems; road vehicles; vehicle dynamics; VRFT; active braking control design; active braking controllers; braking control systems; control design approaches; data-driven design; data-driven nonlinear compensator; full-fledged multibody simulator; low-cost products; mechanical differences; model-based control approaches; tire-in-the-loop experimental facility; vehicle dynamics descriptions; virtual reference feedback tuning approach; Control systems; Mathematical model; Noise; Tuning; Vehicle dynamics; Vehicles; Wheels; Braking control; data-driven control; intelligent proportional-integral-derivative (PID); intelligent-PI; two-wheeled vehicles; vehicle dynamics; virtual reference feedback tuning;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2011.2171965
