Title :
Idle speed control for SI engine using triple-step nonlinear method
Author :
Xun Gong ; Hong Chen ; Yanan Fan ; Yunfeng Hu
Author_Institution :
Dept. of Control Sci. & Eng., JiLin Univ., Changchun, China
Abstract :
Idle speed control is considered as one of the most important issues in engine control. In this paper, we develop a triple-step nonlinear method to solve the idle speed control problem based on a data-physics mixed engine model. Concerning about the implementation issue, the map-related derivative items in the controller deduction are elaborately pretreated in the modeling step. Then, the controller design procedure is introduced step by step and ultimately can be divided as a steady state control, a reference dynamic based feed-forward control and a feedback control. The gains of controller are state-dependent and parameter-varying. The structure of the proposed nonlinear controller is concise and is comparable to those widely used in modern automotive control. Simulation results show the effectiveness of the designed controller.
Keywords :
angular velocity control; control system synthesis; feedback; feedforward; internal combustion engines; nonlinear control systems; SI engine control; controller deduction; controller design procedure; data-physics mixed engine model; feedback control; idle speed control problem; map-related derivative items; nonlinear controller; reference dynamic based feed-forward control; state-dependent-parameter-varying controller gains; steady state control; triple-step nonlinear method; Atmospheric modeling; Automotive engineering; Engines; Load modeling; Steady-state; Torque; Velocity control; Data-physics mixed; Idle speed control; Nonlinear control; Triple-Step;
Conference_Titel :
Intelligent Control and Automation (WCICA), 2014 11th World Congress on
DOI :
10.1109/WCICA.2014.7053029
