Position Regulation of an EGR Valve Using Reset Control With Adaptive Feedforward

Francesco Saverio Panni; Harald Siegfried Waschl; Daniel Alberer; Luca Zaccarian

doi:10.1109/TCST.2014.2308915

Position Regulation of an EGR Valve Using Reset Control With Adaptive Feedforward

Francesco Saverio Panni, Harald Siegfried Waschl, Daniel Alberer, Luca Zaccarian

Institute of Design and Control of Mechatronical Systems

Research output: Contribution to journal › Article › peer-review

Abstract

We propose a hybrid control system performing set-point regulation of an exhaust gas recirculation valve of a Diesel engine. The control technique is based on a first-order reset element (FORE) embedded with an adaptive feedforward action whose aim is to provide asymptotic rejection of disturbances acting at the plant input. The feedforward action is adapted by suitable resetting laws occurring whenever the FORE is reset to zero. We first provide a formal analysis of the effectiveness of the adaptive reset system to guarantee asymptotic set-point regulation, and then, we illustrate how the adaptive feedforward can be parameterized for improved transient performance. We experimentally illustrate the proposed solution on a Diesel engine testbench, which reveals substantial position accuracy improvement during a standard driving cycle, as compared with the production standard solution.

Original language	English
Article number	6778034
Pages (from-to)	2424-2431
Number of pages	8
Journal	IEEE Transactions on Control Systems Technology
Volume	22
Issue number	6
DOIs	https://doi.org/10.1109/TCST.2014.2308915
Publication status	Published - Mar 2014

Fields of science

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

JKU Focus areas

Mechatronics and Information Processing

Access to Document

10.1109/TCST.2014.2308915

Cite this

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title = "Position Regulation of an EGR Valve Using Reset Control With Adaptive Feedforward",

abstract = "We propose a hybrid control system performing set-point regulation of an exhaust gas recirculation valve of a Diesel engine. The control technique is based on a first-order reset element (FORE) embedded with an adaptive feedforward action whose aim is to provide asymptotic rejection of disturbances acting at the plant input. The feedforward action is adapted by suitable resetting laws occurring whenever the FORE is reset to zero. We first provide a formal analysis of the effectiveness of the adaptive reset system to guarantee asymptotic set-point regulation, and then, we illustrate how the adaptive feedforward can be parameterized for improved transient performance. We experimentally illustrate the proposed solution on a Diesel engine testbench, which reveals substantial position accuracy improvement during a standard driving cycle, as compared with the production standard solution.",

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AU - Panni, Francesco Saverio

AU - Waschl, Harald Siegfried

AU - Alberer, Daniel

AU - Zaccarian, Luca

PY - 2014/3

Y1 - 2014/3

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AB - We propose a hybrid control system performing set-point regulation of an exhaust gas recirculation valve of a Diesel engine. The control technique is based on a first-order reset element (FORE) embedded with an adaptive feedforward action whose aim is to provide asymptotic rejection of disturbances acting at the plant input. The feedforward action is adapted by suitable resetting laws occurring whenever the FORE is reset to zero. We first provide a formal analysis of the effectiveness of the adaptive reset system to guarantee asymptotic set-point regulation, and then, we illustrate how the adaptive feedforward can be parameterized for improved transient performance. We experimentally illustrate the proposed solution on a Diesel engine testbench, which reveals substantial position accuracy improvement during a standard driving cycle, as compared with the production standard solution.

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JF - IEEE Transactions on Control Systems Technology

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