the VRP-MPCD The following parameters and decision variables are used
Download scientific diagram | the VRP-MPCD The following parameters and decision variables are used in the VRP-MPCD mathematical model. Parameters: í µí± í µí±í µí± ′ distance between nodes i to j (í µí±, í µí± ∈ {í µí° ¶ ∪ 0}) í µí± í µí±í µí± ′′ distance between nodes i to j (í µí±, í µí± ∈ {í µí± ∪ 0}) í µí±¡ í µí±í µí± ′ traveling time between nodes i to j (í µí±, í µí± ∈ {í µí° ¶ ∪ 0}) í µí±¡ í µí±í µí± ′′ from publication: Vehicle Routing Problem for Multi-Product Cross-Docking | Cross-docking is a logistic technique that can reduce costs occurred in a supply chain network while increasing the flow of goods, thus shortening the shipping cycle. Inside a cross-dock facility, the goods are directly transferred from incoming vehicles to outgoing vehicles | Vehicle Routing Problem, CPLEX and AMPL | ResearchGate, the professional network for scientists.
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PDF) Vehicle Routing Problem for Multi-Product Cross-Docking
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PDF) Scheduling the truck holdover recurrent dock cross-dock problem using robust meta-heuristics
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PDF) Cross-Docking Operations for Supply Chain Logistics in JIT Production and Distribution Systems
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PDF) Cross-Docking Operations for Supply Chain Logistics in JIT Production and Distribution Systems
PDF) Vehicle Routing Problem for Multi-Product Cross-Docking
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PDF) Scheduling the truck holdover recurrent dock cross-dock problem using robust meta-heuristics
