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In-Cylinder Pressure Estimation from Rotational Speed Measurements via Extended Kalman Filter

Renato Quartullo, Andrea Garulli, Antonio Giannitrapani, Ryota Minamino, Giovanni Vichi

2023Sensors13 citationsDOIOpen Access PDF

Abstract

Real-time estimation of the in-cylinder pressure of combustion engines is crucial to detect failures and improve the performance of the engine control system. A new estimation scheme is proposed based on the Extended Kalman Filter, which exploits measurements of the engine rotational speed provided by a standard phonic wheel sensor. The main novelty lies in a parameterization of the combustion pressure, which is generated by averaging experimental data collected in different operating points. The proposed approach is validated on real data from a turbocharged compression ignition engine, including both nominal and off-nominal working conditions. The experimental results show that the proposed technique accurately reconstructs the pressure profile, featuring a fit performance index exceeding 90% most of the time. Moreover, it can track changes in the engine operating conditions as well as detect the presence of cylinder-to-cylinder variations.

Topics & Concepts

TurbochargerKalman filterCylinderAutomotive engineeringRotational speedIgnition systemBack pressureMean effective pressureCombustionExtended Kalman filterIgnition timingComputer scienceControl theory (sociology)Compression ratioSimulationEngineeringInternal combustion engineMechanical engineeringArtificial intelligenceAerospace engineeringControl (management)ChemistryOrganic chemistryTurbineAdvanced Combustion Engine TechnologiesAdvanced Sensor Technologies ResearchAdvanced Measurement and Detection Methods