Paper Info
Title
Torque Setpoint Tracking for Parallel Hybrid Electric Vehicles Using Dynamic Input Allocation.
Abstract
This paper addresses the coordinated control of the internal combustion engine and the electric motor in a parallel hybrid electric vehicle, when both of them are running. In deciding how much torque each motor contributes, both long term energy oriented and short term drivability goals must be considered. The first contribution in this paper consists of proposing an architecture in which three main functional blocks are present, namely a steady-state performance generator, providing an energy oriented torque contribution, a transient performance generator providing a drivability oriented torque contribution, and a dynamic input allocator blending the outputs of the other two blocks in such a way as to satisfy both the short and the long term goals. The second contribution consists in showing how the input allocator must be designed. The other two blocks can be designed following any of several recipes already described in the literature. Experimental validation of the proposed approach confirms the relevance of accounting for the different motor dynamics in the allocator design.
Year
DOI
Venue
2014
10.1109/TCST.2013.2293179
Control Systems Technology, IEEE Transactions  
Keywords
Field
DocType
Hybrid electric vehicles,Dynamic scheduling,Ice,Torque,Vehicle dynamics,Steady-state,Transient analysis
Internal combustion engine,Automotive engineering,Torque,Control theory,Electric vehicle,Setpoint,Motor dynamics,Control engineering,Allocator,Mathematics,Electric motor
Journal
Volume
Issue
ISSN
22
5
1063-6536
Citations 
PageRank 
References 
5
0.55
14
Authors
5
Name
Order
Citations
PageRank
Stefano Cordiner191.04
Sergio Galeani239842.86
Francesco Mecocci350.55
Vincenzo Mulone491.04
Luca Zaccarian580889.60