Aurélien Froger
François Rabelais University
17 Papers
58 Citations
Aurélien Froger is an academic researcher from François Rabelais University. The author has contributed to research in topics: Electric vehicle & Integer programming. The author has an hindex of 7, co-authored 14 publications. Previous affiliations of Aurélien Froger include Catholic University of the West.
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Papers
Improved formulations and algorithmic components for the electric vehicle routing problem with nonlinear charging functions
TL;DR: A new model, a heuristic, and an exact labeling algorithm for the problem of finding the optimal charging decisions for a given route, and introduces a path-based model which outperforms the classical models in experiments.
191
Maintenance scheduling in the electricity industry: A literature review
TL;DR: The literature contains a sound body of work focused on improving decision making in generating units and transmission lines maintenance scheduling, and some important features such as network considerations, fuel management, and data uncertainty are explored.
174
A Matheuristic for the Electric Vehicle Routing Problem with Capacitated Charging Stations
Aurélien Froger,Jorge E. Mendoza,Ola Jabali,Gilbert Laporte +3 more
- 01 Jun 2017
TL;DR: In this paper, a route-first assemble-second matheuristic was proposed to solve the E-VRP-NL problem with nonlinear charging function with capacitated CSs.
86
The electric vehicle routing problem with capacitated charging stations
Aurélien Froger,Ola Jabali,Jorge E. Mendoza,Gilbert Laporte +3 more
- 15 Feb 2021
TL;DR: In this paper, the authors considered the E-VRP with non-linear charging functions, multiple charging technologies, en route charging, and variable charging quantities, while explicitly accounting for the capacity of CSs expressed in the number of chargers.
43
A branch-and-check approach for a wind turbine maintenance scheduling problem
TL;DR: This paper introduces two integer linear programming formulations of the maintenance scheduling problem arising in the onshore wind power industry and proposes a branch-and-check (B&C) approach that uses both generic Benders cuts and cuts specially crafted for the problem.
23