A flexible adaptive memory-based algorithm for real-life transportation operations: Two case studies from dairy and construction sector |
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Authors: | C.D. Tarantilis C.T. Kiranoudis |
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Affiliation: | 1. Department of Management Science and Technology, Athens University of Economics and Business, 47A Evelpidon Street/33 Lefkados Street, Athens 113-62, Greece;2. Department of Systems Analysis, Design and Development, National Technical University of Athens, Athens 157-80, Greece |
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Abstract: | Effective routing of vehicles remains a focal goal of all modern enterprises, thriving for excellence in project management with minimal investment and operational costs. This paper proposes a metaheuristic methodology for solving a practical variant of the well-known Vehicle Routing Problem, called Heterogeneous Fixed Fleet VRP (HFFVRP). Using a two-phase construction heuristic, called GEneralized ROute Construction Algorithm (GEROCA), the proposed metaheuristic approach enhances its flexibility to easily adopt various operational constraints. Via this approach, two real-life distribution problems faced by a dairy and a construction company were tackled and formulated as HFFVRP. Computational results on the aforementioned case studies show that the proposed metaheuristic approach (a) consistently outperforms previous published metaheuristic approaches we have developed to solve the HFFVRP, and (b) substantially improves upon the current practice of the company. The key result that impressed both companies’ management was the improvement over the bi-objective character of their problems: the minimization of the total distribution cost as well as the minimization of the number of the given heterogeneous number of vehicles used. |
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Keywords: | Metaheuristics Vehicle routing system Industrial logistics Construction project management |
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