Implementation of an optimal control energy management strategy in a hybrid truck
conference paper
Energy Management Strategies for hybrid powertrains control the power split, between the engine and electric motor, of a hybrid vehicle, with fuel consumption or emission minimization as objective. Optimal control theory can be applied to rewrite the optimization problem to an optimization independent of time. Estimation of the Lagrange parameter, e.g., by feedback on the battery State-Of-Charge (SOC), can be used to arrive at a real-time implementable strategy. Nevertheless, it is still required to solve a nonconvex optimization problem with limited onboard computational power. This paper suggests to solve this optimization problem, offline, for different values of the Lagrange parameter, crankshaft rotational speed, and torque request. The resulting strategy is evaluated with simulations of a hybrid distribution truck on two different velocity trajectories. The influence of several control parameters is investigated also. © 2010 IFAC.
Topics
Drive trainEnergy ManagementHybrid configurationComputational powerControl parametersEnergy management strategiesHybrid trucksHybrid vehiclesLagrangeNonconvex optimization problemOptimal control theoryOptimization problemsPower splitsRotational speedState-of-chargeVelocity trajectoriesCrankshaftsEnergy managementLagrange multipliersState feedbackTrucks
TNO Identifier
436053
ISSN
14746670
ISBN
9783902661722
Source title
6th IFAC Symposium Advances in Automotive Control, AAC 2010, 12-14 July 2010, Munich, Germany
Collation
6 p.
Pages
61-66
Files
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