Automatic engine modeling for failure detection

Andreas Schrempf; Luigi del Re; Werner Groißböck; Edwin Lughofer; Erich Klement; Günther Frizberg

Automatic engine modeling for failure detection

Andreas Schrempf, Luigi del Re, Werner Groißböck, Edwin Lughofer, Erich Klement, Günther Frizberg

Institute of Design and Control of Mechatronical Systems

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

Abstract

Fast detection of abnormal plant operation is critical for many applications. Fault detection requires some kind of comparison between actual and normal behavior, which implies the use of models. Exact modeling of engine systems is probably impossible and even middle-complexity models is very timeconsuming. In some few cases, as for on board diagnostics, the very limited amount of cases to be treated and the usually large production volumes allow to develop models suitable to detect an abnormal behavior, but, in general, however, this approach cannot be followed. As fast detection of abnormal plant operation is often critical, alternative low-effort approaches are required. This paper presents a procedure suitable for engine fault detection based on parallel automatic modeling. It is shown that this approach yields a flexible and reliable tool for automatic modeling for this goal, while keeping the effort for the operator rather low.

Original language	English
Title of host publication	ASME International Mechanical Engineering Congress and Exposition
Publisher	American Society of Mechanical Engineers (ASME)
Pages	1-8
Number of pages	8
Volume	2
ISBN (Print)	0791819426
Publication status	Published - Nov 2001

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

@inproceedings{ade6ce1f6167401ebc6128551dd411d9,

title = "Automatic engine modeling for failure detection",

abstract = "Fast detection of abnormal plant operation is critical for many applications. Fault detection requires some kind of comparison between actual and normal behavior, which implies the use of models. Exact modeling of engine systems is probably impossible and even middle-complexity models is very timeconsuming. In some few cases, as for on board diagnostics, the very limited amount of cases to be treated and the usually large production volumes allow to develop models suitable to detect an abnormal behavior, but, in general, however, this approach cannot be followed. As fast detection of abnormal plant operation is often critical, alternative low-effort approaches are required. This paper presents a procedure suitable for engine fault detection based on parallel automatic modeling. It is shown that this approach yields a flexible and reliable tool for automatic modeling for this goal, while keeping the effort for the operator rather low.",

author = "Andreas Schrempf and \{del Re\}, Luigi and Werner Groi{\ss}b{\"o}ck and Edwin Lughofer and Erich Klement and G{\"u}nther Frizberg",

year = "2001",

month = nov,

language = "English",

isbn = "0791819426",

volume = "2",

pages = "1--8",

booktitle = "ASME International Mechanical Engineering Congress and Exposition",

publisher = "American Society of Mechanical Engineers (ASME)",

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TY - GEN

T1 - Automatic engine modeling for failure detection

AU - Schrempf, Andreas

AU - del Re, Luigi

AU - Groißböck, Werner

AU - Lughofer, Edwin

AU - Klement, Erich

AU - Frizberg, Günther

PY - 2001/11

Y1 - 2001/11

N2 - Fast detection of abnormal plant operation is critical for many applications. Fault detection requires some kind of comparison between actual and normal behavior, which implies the use of models. Exact modeling of engine systems is probably impossible and even middle-complexity models is very timeconsuming. In some few cases, as for on board diagnostics, the very limited amount of cases to be treated and the usually large production volumes allow to develop models suitable to detect an abnormal behavior, but, in general, however, this approach cannot be followed. As fast detection of abnormal plant operation is often critical, alternative low-effort approaches are required. This paper presents a procedure suitable for engine fault detection based on parallel automatic modeling. It is shown that this approach yields a flexible and reliable tool for automatic modeling for this goal, while keeping the effort for the operator rather low.

AB - Fast detection of abnormal plant operation is critical for many applications. Fault detection requires some kind of comparison between actual and normal behavior, which implies the use of models. Exact modeling of engine systems is probably impossible and even middle-complexity models is very timeconsuming. In some few cases, as for on board diagnostics, the very limited amount of cases to be treated and the usually large production volumes allow to develop models suitable to detect an abnormal behavior, but, in general, however, this approach cannot be followed. As fast detection of abnormal plant operation is often critical, alternative low-effort approaches are required. This paper presents a procedure suitable for engine fault detection based on parallel automatic modeling. It is shown that this approach yields a flexible and reliable tool for automatic modeling for this goal, while keeping the effort for the operator rather low.

M3 - Conference proceedings

SN - 0791819426

VL - 2

SP - 1

EP - 8

BT - ASME International Mechanical Engineering Congress and Exposition

PB - American Society of Mechanical Engineers (ASME)

ER -