A predictive energy management for hybrid vehicles based on optimal control theory

Author

Boehme, Thomas J. ; Schori, Markus ; Frank, Benjamin ; Schultalbers, M. ; Drewelow, Wolfgang

Author_Institution

Dept. of Gasoline Engine Syst., IAV Automotive Eng., Gifhorn, Germany

fYear

2013

fDate

17-19 June 2013

Firstpage

5984

Lastpage

5989

Abstract

In this paper we propose a predictive energy management for a hybrid electric vehicle with compound power-split powertrain configuration. The strategy relies on information on the future driving trip provided by modern navigation systems. Based on this information a simplified optimal control problem is solved via an indirect variation of extremals algorithm to determine a feasible start value of the adjungated variable. The powertrain controls are then determined from offline calculated maps using the value of the adjungated variables, the current vehicle speed and the requested wheel-torque. The strategy is implemented into a model-based simulation environment and has shown fuel savings on real world driving cycles. It has proven to be real-time applicable and very robust against low accuracy of the predicted driving trip.

Keywords

energy management systems; hybrid electric vehicles; optimal control; power transmission (mechanical); adjungated variable; compound power-split powertrain configuration; extremals algorithm indirect variation; fuel savings; future driving trip information; hybrid electric vehicle; model-based simulation environment; navigation systems; optimal control theory; powertrain controls; predictive energy management; real world driving cycles; vehicle speed; wheel-torque; Fuels; Ice; Mathematical model; Mechanical power transmission; Optimal control; System-on-chip; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference (ACC), 2013

Conference_Location

Washington, DC

ISSN

0743-1619

Print_ISBN

978-1-4799-0177-7

Type

conf

DOI

10.1109/ACC.2013.6580777

Filename

6580777