Routing problems with loading constraints

Iori, Manuel; Martello, Silvano

doi:10.1007/s11750-010-0144-x

Cited by 192 publications

(107 citation statements)

References 80 publications

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“…Also, they used two heuristic methods to check the loading constraints. More information on VRP with two-dimensional loading constraints can be found in Iori and Martello (2010) and Iori and Martello (2013).…”

Section: Review Of the Literaturementioning

confidence: 99%

A bi-objective mathematical model for two-dimensional loading time-dependent vehicle routing problem

Alinaghian

Zamanlou

Sabbagh

2017

Journal of the Operational Research Society

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This paper introduces two-dimensional loading time-dependent vehicle routing problem and proposes a biobjective mathematical model. This problem assesses the process of distributing the rectangular-shaped demanded items over an urban environment; it does not, however, allow items to be loaded on top of each other. In addition to the above assumptions, the presented model also satisfies the first-in-first-out property in the timedependent vehicle routing problem. Given the NP-hard nature of the problem, a method called elitist nondominated sorting local search is developed to obtain its solutions. To evaluate the performance of the proposed algorithm, the solutions of this algorithm for small-scale problem instances are compared with the results of an exact method. For the medium-scale problem instances, results of NSGA-II and SPEA2 are used as the basis of comparison. The computational results demonstrate the good performance of the proposed method.

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Section: Review Of the Literaturementioning

confidence: 99%

A bi-objective mathematical model for two-dimensional loading time-dependent vehicle routing problem

Alinaghian

Zamanlou

Sabbagh

2017

Journal of the Operational Research Society

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“… VRPs with loading constraints, reviewed in (Iori and Martello, 2010): loading constraints that have been analysed include two and three-dimensional loading constraints, as well as some special variants such as multi-pile loading, taking into account order of loading, etc. ; again, the water tank delivery problem has special characteristics that have not been studied anywhere else, to our knowledge, such as the possibility of bundling and the necessity of visiting special intermediate locations where unbundling can take place;…”

Section: Vehicle Routing Problemsmentioning

confidence: 99%

Combining vehicle routing and packing for optimal delivery schedules of water tanks

Stolk¹,

Mann²,

Mohais³

et al. 2013

OR Insight

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“…In 3L-CVRP, every customer requires transporting one or a few parallelepipeds (or boxes) where each one is represented by a 3D rectangular loading space and its weight (in contrast to the traditional CVRP, where an only weight is given). Surveys [5] and [6] show a recent state of the art for solving the integrated vehicle routing and loading problems.…”

Section: Introductionmentioning

confidence: 99%

An Heuristic Approach to Solving the one-to-one Pickup and Delivery Problem with Threedimensional Loading Constraints

Dupas

Grebennik²,

Lytvynenko³

et al. 2017

IJITCS

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Abstract-A mathematical model and a solving strategy for the Pickup and Delivery Problem with threedimensional loading constraints regarding a combinatorial configuration instead of a traditional approach that utilizes Boolean variables is proposed. A traditional one-to-one Pickup and Delivery Problem in a combination with a problem of packing transported items into vehicles by means of the proposed combinatorial generation algorithm is solved.

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Routing problems with loading constraints

Cited by 192 publications

References 80 publications

A bi-objective mathematical model for two-dimensional loading time-dependent vehicle routing problem

A bi-objective mathematical model for two-dimensional loading time-dependent vehicle routing problem

Combining vehicle routing and packing for optimal delivery schedules of water tanks

An Heuristic Approach to Solving the one-to-one Pickup and Delivery Problem with Threedimensional Loading Constraints

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