Nonlinear observer and output feedback design for a combustion engine test bench
Nonlinear observer and output feedback design for a combustion engine test bench
Combustion engine control depends strongly on the availability and the quality of the signals involving in the controller construction. In general, not all signals are available through measurement, and therefore an observer is necessary to realize the controller. This paper proposes an observer design for a combustion engine test bench. The observer is used to estimate the torque and the rotation angle of the engine, based on the measurement of the engine and the dynamometer speeds. The convergence of the observer is proved, and separation principle is also shown. The observer is then used to construct an output feedback controller for set point tracking of the test bench. Numerical simulations are performed, showing the performance of the observer and comparing the performance of the output feedback with the state feedback controller. Moreover, the effect of combustion oscillation which causes a vibration noise is taken into account, and the use of internal model based filter to handle the noise is presented
978-3-902661-00-5
3842-3847
International Federation of Automatic Control
Laila, Dina Shona
41aa5cf9-3ec2-4fdf-970d-a0a349bfd90c
Gruenbacher, Engelbert
235c4b75-943d-4ac5-9345-e30e1aa19abe
July 2008
Laila, Dina Shona
41aa5cf9-3ec2-4fdf-970d-a0a349bfd90c
Gruenbacher, Engelbert
235c4b75-943d-4ac5-9345-e30e1aa19abe
Laila, Dina Shona and Gruenbacher, Engelbert
(2008)
Nonlinear observer and output feedback design for a combustion engine test bench.
In Proceedings of Nonlinear Observer and Output Feedback Design for a Combustion Engine Test Bench World Congress.
International Federation of Automatic Control.
.
(doi:10.3182/20080706-5-KR-1001.00646).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Combustion engine control depends strongly on the availability and the quality of the signals involving in the controller construction. In general, not all signals are available through measurement, and therefore an observer is necessary to realize the controller. This paper proposes an observer design for a combustion engine test bench. The observer is used to estimate the torque and the rotation angle of the engine, based on the measurement of the engine and the dynamometer speeds. The convergence of the observer is proved, and separation principle is also shown. The observer is then used to construct an output feedback controller for set point tracking of the test bench. Numerical simulations are performed, showing the performance of the observer and comparing the performance of the output feedback with the state feedback controller. Moreover, the effect of combustion oscillation which causes a vibration noise is taken into account, and the use of internal model based filter to handle the noise is presented
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Published date: July 2008
Venue - Dates:
17th IFAC World Congress, 2008, Seoul, Korea, Republic of, 2008-07-06 - 2008-07-11
Organisations:
Mechatronics
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Local EPrints ID: 353756
URI: http://eprints.soton.ac.uk/id/eprint/353756
ISBN: 978-3-902661-00-5
PURE UUID: 09adf151-6a3c-4d38-bf0a-5342ddcf2b6a
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Date deposited: 17 Jun 2013 09:21
Last modified: 14 Mar 2024 14:09
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Author:
Dina Shona Laila
Author:
Engelbert Gruenbacher
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