Robust Static Output Feedback With Dynamic Disturbance Feed-Forward for Lateral Control of Long-Combination Vehicles at High Speeds
Journal article, 2023

A control strategy is proposed to improve the high-speed lateral performance of an A double (tractor-semitrailer-dolly-semitrailer) combination vehicle using active steering of the dolly axles. The strategy is realized as an H1-type static output feedback (SOFB) based on a previous work, combined with dynamic disturbance feed-forward (DDFF). In order to synthesize DDFF in a way to facilitate performance improvement in practical problems, the disturbance is accurately characterized with the use of a dynamic weighting filter. As a contribution to the existing literature, novel linear matrix inequality (LMI) conditions are derived for this case, which facilitate the synthesis of a robust DDFF controller when the plant depends on uncertain time-varying parameters. An alternative DDFF synthesis method is also provided based on an adaptation of a previous work. The proposed overall controller has a simple structure and is easy to implement from a practical point of view since it requires only the driver steering angle (for feed-forward) and just one articulation angle measurement (for feedback). Obtained using a high-fidelity vehicle model, the simulation results for an example synthesis confirm a significant reduction in the rearward amplifications of the yaw rate and the lateral acceleration as well as the high-speed transient off-tracking during sudden lane change maneuvers.

Author

Maliheh Sadeghi Kati

Volvo Group

Hakan Koroglu

University of Twente

Jonas Fredriksson

Chalmers, Electrical Engineering, Systems and control

Mohammad Manjurul Islam

Gen Motors

Journal of Dynamic Systems, Measurement and Control, Transactions of the ASME

0022-0434 (ISSN) 15289028 (eISSN)

Vol. 145 3 031004

Areas of Advance

Transport

Subject Categories

Vehicle Engineering

Control Engineering

Signal Processing

DOI

10.1115/1.4056441

More information

Latest update

3/17/2023