LPV system identification and order reduction with application to turbocharged SI engines

Schulz, Erik

doi:10.15480/882.4302

LPV system identification and order reduction with application to turbocharged SI engines

Citation Link: https://doi.org/10.15480/882.4302

Publikationstyp

Doctoral Thesis

Date Issued

2022

Sprache

English

Author(s)

Schulz, Erik

Advisor

Werner, Herbert

Referee

Abbas, Hossam El-Din Mahmoud Seddik

Title Granting Institution

Technische Universität Hamburg

Place of Title Granting Institution

Hamburg

Examination Date

2021-05-14

Institut

Regelungstechnik E-14

TORE-DOI

10.15480/882.4302

TORE-URI

http://hdl.handle.net/11420/12345

Citation

Dr. Hut 978-3-8439-5051-0: (2022)

Publisher Link

https://www.dr.hut-verlag.de/9783843950510.html

Publisher

Dr. Hut

The basis for the model-based design of linear parameter-varying (LPV) controllers is a model of the controlled system. However, models that approximate the system behavior well are often missing in industrial applications. In this thesis, methods for the identification and order reduction of discrete-time LPV models are presented. They are applied to measurements from a real system, the air path of a turbocharged gasoline engine, and show improved computational efficiency and/or provide models of higher accuracy compared to existing methods. Furthermore, the resulting LPV models are suitable for established control design tools.

Subjects

Linear parameter-varying (LPV) systems

System identification

Order reduction

SI Engine

DDC Class

004: Informatik

600: Technik

Lizenz

http://rightsstatements.org/vocab/InC/1.0/

Name

Schulz_22_LPVSystemIdentificationAndOrderReduction.pdf

Size

1.84 MB

Format

Adobe PDF

Options

LPV system identification and order reduction with application to turbocharged SI engines