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Original Articles

Automotive engine hybrid modelling and control for reduction of hydrocarbon emissions

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Pages 449-464 | Received 29 Jun 2005, Accepted 24 Nov 2005, Published online: 20 Feb 2007
 

Abstract

Automotive engine models vary in their complexity depending on the intended application. Pre-prototype performance prediction models can be very complex in order to make accurate predictions. Controller design models need to be as simple as possible since model-based controllers must operate in real time. This paper develops hybrid models for engine control that incorporate time and events in their formulation. The resulting hybrid controllers have the capability of switching between two alternative control modes. The first mode is designed to reduce the raw hydrocarbon (HC) emissions while the second mode tries to increase the temperature of the catalytic converter as rapidly as possible during the initial transient or “cold start” period. Reachability, as a tool for system analysis, is used to verify the properties of the closed loop system.

Acknowledgements

Authors acknowledge the financial support provided by the National Science Foundation (under by NSF Cooperative Agreement No. CCR-0225610), Toyota Motor Corporation and CONACYT (Consejo Nacional de Ciencia y Technologa de Mexico). The authors would like to thank Prof. Shankar Sastry, Prof. Ian Mitchell, Dr. Jonathan Sprinkle and Prof. Claire Tomlin for their help. We would like to acknowledge in particular the effort and time put in by Prof. Mitchell in assisting us with the reachability analysis. We would also like to thank the reviewers of this paper for their useful suggestions and comments.

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