Optimization based mean value model of Turbocharged Diesel Engines

Stefan Puchner; Bernhard Winkler-Ebner; Daniel Alberer; Luigi del Re

Optimization based mean value model of Turbocharged Diesel Engines

Stefan Puchner, Bernhard Winkler-Ebner, Daniel Alberer, Luigi del Re

Institute of Design and Control of Mechatronical Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Model based control is generally seen as an indispensable tool to meet the coming challenges, but unfortunately models are difficult to determine. Available physical models are often too complex to be useful for control, and simplified models tend to be too imprecise. This paper proposes a mixed approach in which the model structure is determined by physical understanding, but the complexity of each block corresponds to its relevance for dynamical measurements and not to the physical complexity. Additionally, parameters are determined using standard measurements and optimization tools, and therefore do not rely on data from the producers of the components. This paper is focused on a nonlinear model for a turbo-charged Diesel engine with swirl valve and extends a previous work.

Original language	English
Title of host publication	Proceedings of the MATHMOD Conference 2009
Number of pages	8
Publication status	Published - Feb 2009

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202034 Control engineering
203027 Internal combustion engines
206001 Biomedical engineering
206002 Electro-medical engineering
207109 Pollutant emission

Cite this

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title = "Optimization based mean value model of Turbocharged Diesel Engines",

abstract = "Model based control is generally seen as an indispensable tool to meet the coming challenges, but unfortunately models are difficult to determine. Available physical models are often too complex to be useful for control, and simplified models tend to be too imprecise. This paper proposes a mixed approach in which the model structure is determined by physical understanding, but the complexity of each block corresponds to its relevance for dynamical measurements and not to the physical complexity. Additionally, parameters are determined using standard measurements and optimization tools, and therefore do not rely on data from the producers of the components. This paper is focused on a nonlinear model for a turbo-charged Diesel engine with swirl valve and extends a previous work.",

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AB - Model based control is generally seen as an indispensable tool to meet the coming challenges, but unfortunately models are difficult to determine. Available physical models are often too complex to be useful for control, and simplified models tend to be too imprecise. This paper proposes a mixed approach in which the model structure is determined by physical understanding, but the complexity of each block corresponds to its relevance for dynamical measurements and not to the physical complexity. Additionally, parameters are determined using standard measurements and optimization tools, and therefore do not rely on data from the producers of the components. This paper is focused on a nonlinear model for a turbo-charged Diesel engine with swirl valve and extends a previous work.

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