The aim of this paper is to propose a power control strategy for hybrid electrical vehicles. This strategy uses a fuel consumption criterion with battery charge sustaining. It is based on an instantaneous minimization of the equivalent fuel flow. Two comparisons are performed to evaluate the proposed strategy. The first one uses the loss minimization strategy of Seiler and Schroder, which appears to be realistic and efficient for real-time control. This strategy is also based on an instantaneous optimization and allows the battery state of charge to be taken into account. The second comparison is made with an optimal solution found for a given driving schedule. Although not realistic for real-time control, this solution is derived through a global optimization algorithm, the well-known simulated annealing method.
Simulation and assessment of power control strategies for a parallel hybrid car
2000
13 Seiten, 11 Quellen
Article (Journal)
English
Simulation and assessment of power control strategies for a parallel hybrid car
SAGE Publications | 2000
|Simulation and assessment of power control strategies for a parallel hybrid car
Online Contents | 2000
|Simulation and assessment of power control strategies for a parallel hybrid car
Automotive engineering | 2000
|Power flow control strategies in parallel hybrid electric vehicles
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