Enhancing Model-Based Control for Automotive Cold Start Emissions

Enhancing Model-Based Control for Automotive Cold Start Emissions
Selina Pan, Andreas Hansen, Kyle Edelberg, Karl Hedrick

Citation
Selina Pan, Andreas Hansen, Kyle Edelberg, Karl Hedrick. "Enhancing Model-Based Control for Automotive Cold Start Emissions". Talk or presentation, 13, February, 2014; Poster presented at the 2014 BEARS conference.

Abstract
The increasing complexity of modern automotive powertrain systems is creating challenges in the control design and implementation process. This work presents two model-based approaches to overcome these challenges, the goal being more sophisticated control designs that yield reduced development effort: (1) The Verification & Validation (V&V) protocol is employed such that the early design phase mitigates potential issues to save time and cost before the hardware implementation phase. Given a set of control targets, a series of control strategies for uncertainty mitigation have been developed to track ideal desired engine states recommended by Toyota Motor Corporation. These control strategies employ sliding mode control, discrete control, error incorporation, and adaptive control. (2) The high-level modeling (HLM) tool was developed by Toyota to facilitate a mechatronic design, where controller and engine are developed simultaneously. This methodology focuses on framing the model in terms of the laws of conservation, and therefore emphasizes physical relations over empirical ones in order to reduce dependency on test data. Using the HLM approach a cold-start model is derived and model simplification techniques are utilized to obtain a model description that is suitable for symbolic derivation of control laws. For evaluating our research paths experimental testing on a Toyota 2AZ-FE test engine during cold start is performed.

Electronic downloads

CHESSOverview_BEARS2014_PosterPanHansenEdelbergHedrick.pdf · application/pdf · 753 kbytes

Citation formats

HTML

Selina Pan, Andreas Hansen, Kyle Edelberg, Karl Hedrick.
<a
href="http://chess.eecs.berkeley.edu/pubs/1057.html"
><i>Enhancing Model-Based Control for Automotive
Cold Start Emissions</i></a>, Talk or
presentation,  13, February, 2014; Poster presented at the
2014 BEARS conference.

Plain text

Selina Pan, Andreas Hansen, Kyle Edelberg, Karl Hedrick.
"Enhancing Model-Based Control for Automotive Cold
Start Emissions". Talk or presentation,  13, February,
2014; Poster presented at the 2014 BEARS conference.

BibTeX

@presentation{PanHansenEdelbergHedrick14_EnhancingModelBasedControlForAutomotiveColdStartEmissions,
    author = {Selina Pan and Andreas Hansen and Kyle Edelberg
              and Karl Hedrick},
    title = {Enhancing Model-Based Control for Automotive Cold
              Start Emissions},
    day = {13},
    month = {February},
    year = {2014},
    note = {Poster presented at the 2014 BEARS conference.},
    abstract = {The increasing complexity of modern automotive
              powertrain systems is creating challenges in the
              control design and implementation process. This
              work presents two model-based approaches to
              overcome these challenges, the goal being more
              sophisticated control designs that yield reduced
              development effort: (1) The Verification \&
              Validation (V\&V) protocol is employed such that
              the early design phase mitigates potential issues
              to save time and cost before the hardware
              implementation phase. Given a set of control
              targets, a series of control strategies for
              uncertainty mitigation have been developed to
              track ideal desired engine states recommended by
              Toyota Motor Corporation. These control strategies
              employ sliding mode control, discrete control,
              error incorporation, and adaptive control. (2) The
              high-level modeling (HLM) tool was developed by
              Toyota to facilitate a mechatronic design, where
              controller and engine are developed
              simultaneously. This methodology focuses on
              framing the model in terms of the laws of
              conservation, and therefore emphasizes physical
              relations over empirical ones in order to reduce
              dependency on test data. Using the HLM approach a
              cold-start model is derived and model
              simplification techniques are utilized to obtain a
              model description that is suitable for symbolic
              derivation of control laws. For evaluating our
              research paths experimental testing on a Toyota
              2AZ-FE test engine during cold start is performed.},
    URL = {http://chess.eecs.berkeley.edu/pubs/1057.html}
}

Posted by Christopher Brooks on 20 Feb 2014.
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