论文信息 - Design and optimization of a fuzzy-rule based hybrid electric vehicle controller

Design and optimization of a fuzzy-rule based hybrid electric vehicle controller

The economical and regulatory pressures place on the automotive industry to develop vehicles with increased fuel efficiency will continue to grow over the coming decade. Hybrid electric vehicles (HEVs) represent a solution which has received a large degree of interest from government, academia, and automotive manufacturers. This paper studies the potential of using a fuzzy logic controller to optimize the control and calibration of a HEV. Competitive control strategies were reviewed and a fuzzy controller was identified as a strong candidate for reducing fuel consumption. A fuzzy controller was developed and implemented in a MATLAB/Simulink-based simulation platform. The controller was calibrated to optimize the fuel efficiency and emissions of a Toyota Prius power-split hybrid. The results were analyzed and compared against reported data from the actual vehicle.

C. Mi | T.A. Anderson | J.M. Barkman

[1] Li-Xin Wang,et al. A Course In Fuzzy Systems and Control , 1996 .

[2] Serge Boverie,et al. Contribution of fuzzy logic control to the improvement of modern car performances , 1993 .

[3] Jacek S. Stecki,et al. Modeling and Simulation of a Fuzzy Logic Controller for a Hydraulic-Hybrid Powertrain for Use in Heavy Commercial Vehicles , 2003 .

[4] Michael Duoba,et al. Integrating Data, Performing Quality Assurance, and Validating the Vehicle Model for the 2004 Prius Using PSAT , 2006 .

[5] Feng An,et al. Integration of a Modal Energy and Emissions Model into a PNGV Vehicle Simulation Model, PSAT , 2001 .

[6] Makoto Yamazaki,et al. Development of New-Generation Hybrid System THS II - Drastic Improvement of Power Performance and Fuel Economy , 2004 .