Robust predictive control design for optimal wet-clutch engagement

Author

Dutta, Arin ; De Keyser, Robin ; Ionescu, Clara Mihaela ; Stoev, J. ; Pinte, G. ; Symens, Wim

Author_Institution

Dept. of Electr. Energy, Syst. & Autom., Ghent Univ., Zwijnaarde, Belgium

fYear

2012

fDate

27-29 June 2012

Firstpage

4576

Lastpage

4581

Abstract

Modeling of hydraulic clutch transmissions is far from straightforward due to their nonlinear hybrid dynamics, i.e. switching between three dynamic phases. In this paper we identify a local linear model only for the constrained first phase, based on which a predictive controller is used to track a suitable engagement signal. The robustness of this controller in the latter two phases is guaranteed by making the constraints inactive and pre-tuning the control parameters based on its closed loop formulation and applying robust stability theorem. This controller is then implemented in real-time on a wet-clutch test setup and is shown to achieve optimal engagement.

Keywords

closed loop systems; clutches; control system synthesis; hydraulic systems; nonlinear dynamical systems; optimal control; power transmission (mechanical); predictive control; robust control; closed loop formulation; control parameter pretuning; engagement signal; hydraulic clutch transmission modelling; local linear model; nonlinear hybrid dynamics; optimal wet-clutch engagement; robust predictive control design; robust stability theorem; Friction; Pistons; Polynomials; Robust stability; Robustness; Torque; Uncertainty;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference (ACC), 2012

Conference_Location

Montreal, QC

ISSN

0743-1619

Print_ISBN

978-1-4577-1095-7

Electronic_ISBN

0743-1619

Type

conf

DOI

10.1109/ACC.2012.6315371

Filename

6315371