Energies (Jul 2017)

Stochastic Navigation in Smart Cities

  • Rubén Martín García,
  • Francisco Prieto-Castrillo,
  • Gabriel Villarrubia González,
  • Javier Prieto Tejedor,
  • Juan Manuel Corchado

DOI
https://doi.org/10.3390/en10070929
Journal volume & issue
Vol. 10, no. 7
p. 929

Abstract

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In this work we show how a simple model based on chemical signaling can reduce the exploration times in urban environments. The problem is relevant for smart city navigation where electric vehicles try to find recharging stations with unknown locations. To this end we have adapted the classical ant foraging swarm algorithm to urban morphologies. A perturbed Markov chain model is shown to qualitatively reproduce the observed behaviour. This consists of perturbing the lattice random walk with a set of perturbing sources. As the number of sources increases the exploration times decrease consistently with the swarm algorithm. This model provides a better understanding of underlying process dynamics. An experimental campaign with real prototypes provided experimental validation of our models. This enables us to extrapolate conclusions to optimize electric vehicle routing in real city topologies.

Keywords