Çağatay Iris scite author profile

Most of the operational problems in container terminals are strongly interconnected. In this paper, we study the integrated berth allocation and quay crane assignment problem in seaport container terminals. We will extend the current stateof-the-art by proposing novel set partitioning models. To improve the performance of the set partitioning formulations, a number of variable reduction techniques are proposed. Furthermore, we analyze the eects of dierent discretization schemes and the impact of using a time-variant/invariant quay crane allocation policy. Computational experiments show that the proposed models signicantly improve the benchmark solutions of the current state-of-art optimal approaches.

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A review of China’s municipal solid waste (MSW) and comparison with international regions: Management and technologies in treatment and resource utilization

Yin

Zhao

Liu

et al. 2021

Journal of Cleaner Production

373

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Recoverable robustness in weekly berth and quay crane planning

Iris

Lam

2019

Transportation Research Part B: Methodological

103

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The multi-port berth allocation problem with speed optimization and emission considerations

Venturini

Iris

Kontovas

et al. 2017

Transportation Research Part D: Transport and Environment

158

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The multi-port berth allocation problem with speed optimization and emission considerations http://researchonline.ljmu.ac.uk/id/eprint/6580/ Article LJMU has developed LJMU Research Online for users to access the research output of the University more effectively. AbstractThe container shipping industry faces many interrelated challenges and opportunities, as its role in the global trading system has become increasingly important over the last decades. On the one side, collaboration between port terminals and shipping liners can lead to costs savings and help achieve a sustainable supply chain, and on the other side, the optimization of operations and sailing times leads to reductions in bunker consumption and, thus, to fuel cost and air emissions reductions. To that effect, there is an increasing need to address the integration opportunities and environmental issues related to container shipping through optimization. This paper focuses on the well known Berth Allocation Problem (BAP), an optimization problem assigning berthing times and positions to vessels in container terminals. We introduce a novel mathematical formulation that extends the classical BAP to cover multiple ports in a shipping network under the assumption of strong cooperation between shipping lines and terminals. Speed is optimized on all sailing legs between ports, demonstrating the effect of speed optimization in reducing the total time of the operation, as well as total fuel consumption and emissions. Furthermore, the model implementation shows that an accurate speed discretization can result in far better economic and environmental results.

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Çağatay Iris

A review of energy efficiency in ports: Operational strategies, technologies and energy management systems

Integrated Berth Allocation and Quay Crane Assignment Problem: Set partitioning models and computational results

A review of China’s municipal solid waste (MSW) and comparison with international regions: Management and technologies in treatment and resource utilization

Recoverable robustness in weekly berth and quay crane planning

The multi-port berth allocation problem with speed optimization and emission considerations

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