A blockchain‐based framework to optimize shipping container flows in the hinterland

We address two interrelated issues affecting the hinterland portion of the maritime container supply chain: reducing the movement of empty containers and reducing empty trips by trucks carrying these containers. In this paper, we show that empty container flow optimization can be implemented via a b...

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Veröffentlicht in:	International transactions in operational research 2024-11, Vol.31 (6), p.3808-3841
Hauptverfasser:	Mhiri, Mariem, Al‐Yafi, Karim, Legros, Benjamin, Jouini, Oualid, Haouari, Mohamed
Format:	Artikel
Sprache:	eng
Schlagworte:	Blockchain Cargo containers Computer Science container supply chain Containers Operations Research Optimization prize collecting vehicle routing problem proof of useful work Routing Supply chains Trucks
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container_title	International transactions in operational research
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creator	Mhiri, Mariem Al‐Yafi, Karim Legros, Benjamin Jouini, Oualid Haouari, Mohamed
description	We address two interrelated issues affecting the hinterland portion of the maritime container supply chain: reducing the movement of empty containers and reducing empty trips by trucks carrying these containers. In this paper, we show that empty container flow optimization can be implemented via a blockchain based on the proof‐of‐useful‐work concept where the proof of work requires the solution of an NP$\mathcal{NP}$‐hard optimization problem whose solution benefits the blockchain participants. Accordingly, we propose that anonymous miners compete to solve the container truck routing problem, which seeks to find the most efficient routes for trucks. We show that this problem is NP$\mathcal{NP}$‐hard. Miners must also solve the problem of optimally matching consignees and shippers, which will reduce transportation and storage costs for empty containers. In essence, the proposed framework turns blockchain into a massive optimization engine that directly benefits the hinterland container supply chain ecosystem.
doi_str_mv	10.1111/itor.13319
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subjects	Blockchain Cargo containers Computer Science container supply chain Containers Operations Research Optimization prize collecting vehicle routing problem proof of useful work Routing Supply chains Trucks
title	A blockchain‐based framework to optimize shipping container flows in the hinterland
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