Mathematics (Nov 2021)

Performance of Gradient-Based Optimizer on Charging Station Placement Problem

  • Essam H. Houssein,
  • Sanchari Deb,
  • Diego Oliva,
  • Hegazy Rezk,
  • Hesham Alhumade,
  • Mokhtar Said

DOI
https://doi.org/10.3390/math9212821
Journal volume & issue
Vol. 9, no. 21
p. 2821

Abstract

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The electrification of transportation is necessary due to the expanded fuel cost and change in climate. The management of charging stations and their easy accessibility are the main concerns for receipting and accepting Electric Vehicles (EVs). The distribution network reliability, voltage stability and power loss are the main factors in designing the optimum placement and management strategy of a charging station. The planning of a charging stations is a complicated problem involving roads and power grids. The Gradient-based optimizer (GBO) used for solving the charger placement problem is tested in this work. A good balance between exploitation and exploration is achieved by the GBO. Furthermore, the likelihood of becoming stuck in premature convergence and local optima is rare in a GBO. Simulation results establish the efficacy and robustness of the GBO in solving the charger placement problem as compared to other metaheuristics such as a genetic algorithm, differential evaluation and practical swarm optimizer.

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