Energy Conversion and Management, Vol.95, 281-296, 2015
A comparative analysis of meta-heuristic methods for power management of a dual energy storage system for electric vehicles
This work is focused on the performance evaluation of two meta-heuristic approaches, simulated annealing and particle swarm optimization, to deal with power management of a dual energy storage system for electric vehicles. The proposed strategy is based on a global energy management system with two layers: long-term (energy) and short-term (power) management. A rule-based system deals with the long-term (strategic) layer and for the short-term (action) layer meta-heuristic techniques are developed to define optimized online energy sharing mechanisms. Simulations have been made for several driving cycles to validate the proposed strategy. A comparative analysis for ARTEMIS driving cycle is presented evaluating three performance indicators (computation time, final value of battery state of charge, and minimum value of supercapacitors state of charge) as a function of input parameters. The results show the effectiveness of an implementation based on a double-layer management system using meta-heuristic methods for online power management supported by a rule set that restricts the search space. (C) 2015 Elsevier Ltd. All rights reserved.
Keywords:Electric vehicles;Multiple energy storage systems;Energy management system;Simulated annealing;Particle swarm optimization;Online implementation