Title :
Common-rail pressure estimation using a Neuro-Fuzzy architecture with local Hammerstein models
Author :
Ioanas, Gelu Laurentiu ; Dragomir, Toma Leonida
Author_Institution :
Continental Automotive Timisoara, Powertrain Engine Syst., Timisoara, Romania
Abstract :
Hydraulic processes with turbulent flow are usually highly nonlinear and common rail (CR) systems make no exception. Since the performances of diesel CR engines are directly dependent on the rail pressure, and on its values used in control, a prediction model which can lead to better performances is presented. The prediction makes use of Hammerstein dynamic models integrated into a multilevel Neuro-Fuzzy structure. The process input space decomposition is performed axis orthogonal for a large region using Local Linear Model Tree (LOLIMOT) algorithm and the local dynamic models parameters are adapted using recursive last squares method. The practical final results are favorable.
Keywords :
diesel engines; fuzzy neural nets; hydraulic systems; least squares approximations; mechanical engineering computing; pressure; turbulence; Hammerstein dynamic models; LOLIMOT algorithm; common-rail pressure estimation; diesel CR engines; hydraulic process; large region using local linear model tree algorithm; neuro-fuzzy architecture; prediction model; process input space decomposition; rail pressure; recursive least squares method; turbulent flow; Adaptation models; Engines; Estimation; Fuels; Mathematical model; Predictive models; Rails;
Conference_Titel :
Applied Computational Intelligence and Informatics (SACI), 2013 IEEE 8th International Symposium on
Conference_Location :
Timisoara
Print_ISBN :
978-1-4673-6397-6
DOI :
10.1109/SACI.2013.6608983
