Leonardo Junqueira scite author profile

In this paper, we present an integer linear programming model for the vehicle routing problem that considers real-world three-dimensional (3D) loading constraints. In this problem, a set of customers make requests of goods that are wrapped up in boxes, and the objective is to find minimum cost delivery routes for a set of identical vehicles that, departing from a depot, visit all customers only once and return to the depot. Apart from the usual 3D container loading constraints that ensure the boxes are packed completely inside the vehicles and the boxes do not overlap each other in each vehicle, the problem also takes into account constraints related to the vertical stability of the cargo, multidrop situations, and load-bearing strength of the boxes (including fragility). Computational tests with the proposed model were performed using an optimization solver embedded into a modeling language. The results validate the model and show that it is only able to handle problems of a moderate size. However, this model will be useful to motivate other researchers to explore approximate solution approaches to solve this problem, such as decomposition methods, relaxation methods, heuristics, among others, as well as to treat other variants of the problem, such as when time windows or a heterogeneous fleet are present, among others.

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Three-dimensional container loading models with cargo stability and load bearing constraints

Junqueira

Morábito

Yamashita

2012

Computers & Operations Research

157

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MIP-based approaches for the container loading problem with multi-drop constraints

2011

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Practical constraints in the container loading problem: Comprehensive formulations and exact algorithm

Nascimento

Queiroz

Junqueira

2021

Computers & Operations Research

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Heuristic algorithms for a three-dimensional loading capacitated vehicle routing problem in a carrier

Junqueira

Morábito

2015

Computers & Industrial Engineering

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