An Integrated Inventory-Routing System for Multi-item Joint Replenishment with Limited Vehicle Capacity

In this paper, we develop a mathematical programming approach for coordinating inventory and transportation decisions in an inbound commodity collection system. In particular, we consider a system that consists of a set of geographically dispersed suppliers that manufacture one or more non-identical...

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Published in:Journal of global optimization 2005-05, Vol.32 (1), p.93-118
Main Authors: Sindhuchao, Sombat, Romeijn, H. Edwin, Akçali, Elif, Boondiskulchok, Rein
Format: Article
Language:English
Subjects:
Algorithms
Cost control
Heuristic
Inventory
Inventory control
Mathematical programming
Neighborhoods
Optimization
Order quantity
Routing
Studies
Suppliers
Vehicles
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cited_by cdi_FETCH-LOGICAL-c272t-2e50e7ede7c848e32bf9eb8319a071bce156cc690f26373a9c5c14f0bcbefe8c3
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container_title Journal of global optimization
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creator Sindhuchao, Sombat
Romeijn, H. Edwin
Akçali, Elif
Boondiskulchok, Rein
description In this paper, we develop a mathematical programming approach for coordinating inventory and transportation decisions in an inbound commodity collection system. In particular, we consider a system that consists of a set of geographically dispersed suppliers that manufacture one or more non-identical items, and a central warehouse that stocks these items. The warehouse faces a constant and deterministic demand for the items from outside retailers. The items are collected by a fleet of vehicles that are dispatched from the central warehouse. The vehicles are capacitated, and must also satisfy a frequency constraint. Adopting a policy in which each vehicle always collects the same set of items, we formulate the inventory-routing problem of minimizing the long-run average inventory and transportation costs as a set partitioning problem. We employ a column generation approach to determine a lower bound on the total costs, and develop a branch-and-price algorithm that finds the optimal assignment of items to vehicles. We also propose greedy constructive heuristics, and develop a very large-scale neighborhood (VLSN) search algorithm to find near-optimal solutions for the problem. Computational tests are performed on a set of randomly generated problem instances. [PUBLICATION ABSTRACT]
doi_str_mv 10.1007/s10898-004-5908-0
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subjects Algorithms
Cost control
Heuristic
Inventory
Inventory control
Mathematical programming
Neighborhoods
Optimization
Order quantity
Routing
Studies
Suppliers
Vehicles
title An Integrated Inventory-Routing System for Multi-item Joint Replenishment with Limited Vehicle Capacity
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