Title :
Torque-Assist Hybrid Electric Powertrain Sizing: From Optimal Control Towards a Sizing Law
Author :
Sundström, Olle ; Guzzella, Lino ; Soltic, Patrik
fDate :
7/1/2010 12:00:00 AM
Abstract :
In this study a novel method is proposed with which the optimal hybridization ratio of a torque-assist hybrid electric powertrain can be found with very little computational effort. The objective is to minimize the total CO2 emissions of the vehicle, while maintaining its drivability at a constant level. The starting point is an analysis in which the optimal driving strategy is found for eight typical driving cycles using dynamic programming. Analyzing these results, a simple yet powerful rule-based method is proposed that allows to choose the sizes of the combustion engine and of the electric motor such that the CO2 emissions are very close to the minimum value, i.e., with a deviation of less than 1% for most driving cycles.
Keywords :
dynamic programming; electric motors; fuel optimal control; hybrid electric vehicles; power transmission (mechanical); road vehicles; torque; CO2 emissions; combustion engine; dynamic programming; electric motor; optimal control; optimal driving strategy; rule-based method; sizing law; torque-assist hybrid electric powertrain sizing; Fuel optimal control; optimization methods; road vehicle propulsion;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2009.2030173
