Multiple vehicle synchronisation in a full truck-load pickup and delivery problem: A case-study in the biomass supply chain

dc.contributor.author Pedro Amorim en
dc.contributor.author Ricardo Ferreira Soares en
dc.contributor.other 5964 en
dc.contributor.other 6917 en
dc.date.accessioned 2024-07-01T14:58:34Z
dc.date.available 2024-07-01T14:58:34Z
dc.date.issued 2019 en
dc.description.abstract The search for higher efficiency in transportation planning processes in real life applications is challenging. The synchronisation of different vehicles performing interrelated operations can enforce a better use of vehicle fleets and decrease travelled distances and non-productive times, leading to a reduction of logistics costs. In this work, the full truck-load pickup and delivery problem with multiple vehicle synchronisation (FT-PDP-mVS) is presented. This problem is motivated by a real-life application in the biomass supply chain "hot-system", where it is necessary to simultaneously perform chipping and transportation operations at the forest roadside. The FT-PDP-mVS consists in determining the integrated routes for three distinct types of vehicles, which need to perform interrelated operations with minimum logistics costs. We extend existing studies in synchronisation of multiple routes by acknowledging several synchronisation aspects, such as operations and movement synchronisation. A novel mixed integer programming model (MIP) is presented, along with valid inequalities to tighten the formulation. A solution method approach is developed based on the fix-and-optimise principles under a variable neighbourhood decomposition search. Results of its application to 19 instances based on a real-world case-study demonstrate its performance. For a baseline instance, the synchronisation aspects tackled in this problem allowed for significant gains when compared to the company's current planning approach. Furthermore, the proposed approach can enhance planning and decision making processes by providing valuable insights about the impact of key parameters of biomass logistics over the routing results. en
dc.identifier P-00Q-620 en
dc.identifier.uri https://repositorio.inesctec.pt/handle/123456789/15059
dc.language eng en
dc.rights info:eu-repo/semantics/openAccess en
dc.title Multiple vehicle synchronisation in a full truck-load pickup and delivery problem: A case-study in the biomass supply chain en
dc.type en
dc.type Publication en
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