Nonlinear Recurrent Neural Networks for Air Fuel Ratio Control in SI Engines

Ivan Arsie; Cesare Pianese; Marco Sorrentino

doi:10.4271/2004-01-1364

2004-03-08

Nonlinear Recurrent Neural Networks for Air Fuel Ratio Control in SI Engines 2004-01-1364

The paper deals with the use of Recurrent Neural Networks (RNNs) for the Air-Fuel Ratio (AFR) control in Spark Ignition (SI) engines. Because of their features, Neural Networks can perform an adaptive control more efficiently than classical techniques. In the paper, a review of the most useful control schemes based on Neural Networks is presented and the potential use in the field of engine control is analyzed.

A preliminary controller has been implemented making use of a Direct Inverse Modeling approach. The controller compensates for the wall wetting dynamics and estimates the right amount of fuel to be injected to meet the target AFR during engine transients.

The Direct Inverse Controller has been tested within an engine/vehicle simulator. The simulation tests have been performed by imposing a set of throttle transients at different engine speeds. The results show that the Inverse Model can satisfactorily bound the AFR excursions around the target value.

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Nonlinear Recurrent Neural Networks for Air Fuel Ratio Control in SI Engines 2004-01-1364

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