Global logistics intermodal network simulation modeling by incremental assignment and corridor development simulations in Myanmar

Asian Transport Studies Pub Date : 2023-01-01 DOI:10.1016/j.eastsj.2023.100114

Takuya Yamaguchi, Koki Kawachi, Keigo Shibuya, Masataka Hagiwara, Ryuichi Shibasaki

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引用次数: 1

Abstract

This study develops a more stable model to simulate the global container cargo flows in the intermodal network with link capacities by improving the existing model with incremental assignment and parallel computing. The developed model is validated by comparing it with the observed port cargo throughputs and sensitivity analyses. Subsequently, the model is applied to the ASEAN region and China to examine the impact of logistics corridor development policies. Specifically, the scenarios improving borders between ASEAN and China confirm that improvements in Myanmar borders would shift cargo from other ASEAN countries, while improvements across ASEAN would increase the region-wide land transit cargo. The scenarios improving borders in the East–West Corridor (EWC) of the Greater Mekong Subregion confirm that the EWC is in competitive and complementary relationships with Thilawa port. Finally, the scenarios adding liner services suggest stimulating the demand by improving Myanmar's domestic logistics network than encouraging border crossings.

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基于增量分配和缅甸走廊开发模拟的全球物流多式联运网络仿真建模

本研究通过改进现有的增量分配和并行计算模型，开发了一个更稳定的模型来模拟具有链路容量的多式联运网络中的全球集装箱货物流。通过与观测到的港口货物吞吐量和敏感性分析进行比较，验证了所开发的模型。随后，将该模型应用于东盟地区和中国，考察物流走廊发展政策的影响。具体而言，改善东盟和中国边境的情景证实，缅甸边境的改善将转移来自其他东盟国家的货物，而整个东盟的改善将增加整个地区的陆路过境货物。改善大湄公河次区域东西走廊（EWC）边界的情景证实了EWC与Thilawa港之间存在竞争和互补关系。最后，增加班轮服务的情景表明，通过改善缅甸国内物流网络而不是鼓励过境来刺激需求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Asian Transport Studies

CiteScore

2.10

自引率

0.00%

发文量