Implementation of AFR Controller in an Event-driven Real Time Language

Implementation of AFR Controller in an Event-driven Real Time Language
Arkadeb Ghosal, Carlos Zavala, Marco Sanvido, Karl Hedrick

Citation
Arkadeb Ghosal, Carlos Zavala, Marco Sanvido, Karl Hedrick. "Implementation of AFR Controller in an Event-driven Real Time Language". 2005 American Control Conference, June, 2005.

Abstract
The control of emissions has been addressed in the past to comply with environmental regulations. In particular air-to-fuel ratio control is key to reach the allowed pollution levels. The aim of this work is to present an alternative approach which allows for more flexibility to account for the type of signals and requirements of automotive applications, specifically, handling of time and event triggered tasks. An Air-Fuel Ratio nonlinear controller is developed for an automobile engine. The controller is then implemented using the event-driven real-time programming language xGiotto on the OSEK platform provided by WindRiver. Special attention is given to show the advantage that can be gained from using an event driven paradigm for implementing automotive controllers.

Electronic downloads

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Citation formats

HTML

Arkadeb Ghosal, Carlos Zavala, Marco Sanvido, Karl Hedrick.
<a
href="http://chess.eecs.berkeley.edu/pubs/125.html"
>Implementation of AFR Controller in an Event-driven Real
Time Language</a>, 2005 American Control Conference,
June, 2005.

Plain text

Arkadeb Ghosal, Carlos Zavala, Marco Sanvido, Karl Hedrick.
"Implementation of AFR Controller in an Event-driven
Real Time Language". 2005 American Control Conference,
June, 2005.

BibTeX

@inproceedings{GhosalZavalaSanvidoHedrick05_ImplementationOfAFRControllerInEventdrivenRealTimeLanguage,
    author = {Arkadeb Ghosal and Carlos Zavala and Marco Sanvido
              and Karl Hedrick},
    title = {Implementation of AFR Controller in an
              Event-driven Real Time Language},
    booktitle = {2005 American Control Conference},
    month = {June},
    year = {2005},
    abstract = {The control of emissions has been addressed in the
              past to comply with environmental regulations. In
              particular air-to-fuel ratio control is key to
              reach the allowed pollution levels. The aim of
              this work is to present an alternative approach
              which allows for more flexibility to account for
              the type of signals and requirements of automotive
              applications, specifically, handling of time and
              event triggered tasks. An Air-Fuel Ratio nonlinear
              controller is developed for an automobile engine.
              The controller is then implemented using the
              event-driven real-time programming language
              xGiotto on the OSEK platform provided by
              WindRiver. Special attention is given to show the
              advantage that can be gained from using an event
              driven paradigm for implementing automotive
              controllers.},
    URL = {http://chess.eecs.berkeley.edu/pubs/125.html}
}

Posted by Jose Carlos Zavala Jurado on 15 May 2006.
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