Title :
Automotive engine diagnosis and control via nonlinear estimation
Author :
Kim, Yong-Wha ; Rizzoni, Giorgio ; Utkin, Vadim
Author_Institution :
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
The aim of this article is to explore a possible approach to the problem of designing control and diagnostic strategies for future generations of automotive engines. The work described focuses on the use of physical models to estimate unmeasured or unmeasurable variables and parameters, to be used for control and diagnostic purposes. We introduce the mean value engine model used, present a conceptual strategy for combined control and diagnosis focusing mainly on the problem of air fuel ratio control, review basic concepts related to estimation in nonlinear systems, and propose various forms of the estimators that serve different objectives. We illustrate estimation problems in the context of a simplified engine model, assuming both linear and nonlinear measurement of oxygen concentration in the exhaust. Some simulation and experimental results related to estimation-based control and diagnosis are shown
Keywords :
automobiles; fault diagnosis; flow control; internal combustion engines; nonlinear systems; parameter estimation; air fuel ratio control; automotive engine; engine control; engine diagnosis; exhaust; internal combustion engines; mean value engine model; nonlinear systems; oxygen concentration; parameter estimation; Automotive engineering; Control systems; Engines; Fuels; Ignition; Mechanical power transmission; Production systems; Temperature sensors; Timing; Valves;
Journal_Title :
Control Systems, IEEE
