Modeling and Control of Engine Knock Using Gaussian Process Regression

Modeling and Control of Engine Knock Using Gaussian Process Regression

Knock limit control is necessary for high efficient operation of automotive engines. In this paper, we propose an identification and control method of the engine knock using a Gaussian process. Feedforward input is designed by the Gaussian process model approximating knock probability, and its model...

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Veröffentlicht in:Keisoku Jidō Seigyo Gakkai ronbunshū 2019, Vol.55(6), pp.418-424
Hauptverfasser: OYAMA, Hiroyuki, YAMAKITA, Masaki, SATA, Kota, MATSUNAGA, Akio
Format: Artikel
Sprache:eng ; jpn
Schlagworte:
automotive engine
Gaussian process
identification
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Zusammenfassung:Knock limit control is necessary for high efficient operation of automotive engines. In this paper, we propose an identification and control method of the engine knock using a Gaussian process. Feedforward input is designed by the Gaussian process model approximating knock probability, and its model is updated online by a feedback of the knock intensity value. As modeling methods using the Gaussian process, we apply a heteroscedastic Gaussian process and a recursive Gaussian process. The effectiveness of the proposed method is demonstrated by a numerical simulation.
ISSN:0453-4654
1883-8189
DOI:10.9746/sicetr.55.418