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Optimizing Liner Shipping Fleet Repositioning Plans Hardcover - 2015
by Tierney, Kevin (Author)
- New
- Hardcover
Description
Standard delivery: 14 to 21 days
Details
- Title Optimizing Liner Shipping Fleet Repositioning Plans
- Author Tierney, Kevin (Author)
- Binding Hardcover
- Condition New
- Pages 182
- Volumes 1
- Language ENG
- Publisher Springer
- Date 2015
- Bookseller's Inventory # x-3319176641
- ISBN 9783319176642 / 3319176641
- Weight 0.99 lbs (0.45 kg)
- Dimensions 9.21 x 6.14 x 0.5 in (23.39 x 15.60 x 1.27 cm)
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Themes
- Aspects (Academic): Economic
- Dewey Decimal Code 337
About Revaluation Books Devon, United Kingdom
General bookseller of both fiction and non-fiction.
From the rear cover
This monograph addresses several critical problems to the operations of shipping lines and ports, and provides algorithms and mathematical models for use by shipping lines and port authorities for decision support. One of these problems is the repositioning of container ships in a liner shipping network in order to adjust the network to seasonal shifts in demand or changes in the world economy. We provide the first problem description and mathematical model of repositioning and define the liner shipping fleet repositioning problem (LSFRP). The LSFRP is characterized by chains of interacting activities with a multi-commodity flow over paths defined by the activities chosen. We first model the problem without cargo flows with a variety of well-known optimization techniques, as well as using a novel method called linear temporal optimization planning that combines linear programming with partial-order planning in a branch-and-bound framework. We then model the LSFRP with cargo flows, using several different mathematical models as well as two heuristic approaches. We evaluate our techniques on a real-world dataset that includes a scenario from our industrial collaborator. We show that our approaches scale to the size of problems faced by industry, and are also able to improve the profit on the reference scenario by over US$14 million.