Title :
Optimal Equivalent Fuel Consumption for Hybrid Electric Vehicles
Author :
Kim, Namwook ; Cha, Suk Won ; Peng, Huei
fDate :
5/1/2012 12:00:00 AM
Abstract :
In this brief, we show that using Pontryagin´s minimum principle (PMP) can be a good alternative which achieves near-optimal solutions when the future driving schedule can be known in real-time. The control concept can be solved forward in time when a constant costate value is decided. The constant costate can be interpreted as an equivalent ratio linking fuel usage and electric energy consumption. If the fuel economy is the only objective function to minimize, the control concept based on PMP is near global optimal when the final is close to a desired value. In this brief, a method to calculate the proper costate to sustain the within a reasonable range is suggested. In this method, two parameters, and , which depend on the driving patterns, are used to link the driving cycle to the optimal costate. Simulation results show that we can achieve near optimal control, in which 86% of final values stay within 4% of the desired final value for tested city driving schedules.
Keywords :
fuel economy; fuel optimal control; hybrid electric vehicles; power consumption; PMP; Pontryagin minimum principle; SOC; constant costate value; driving cycle; driving pattern; electric energy consumption; equivalent ratio; fuel economy; fuel usage; hybrid electric vehicles; near optimal control; objective function; optimal costate; optimal equivalent fuel consumption; state of charge; tested city driving schedule; Batteries; Boundary conditions; Fuels; Hybrid electric vehicles; Optimal control; Trajectory; Dynamic programming; hybrid vehicle control; optimal control; pontryagin maximum principle;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2011.2123099
