Multimodal Transport System Coevolution Model Based on Synergetic Theory

Fenling Feng,Qingya Zhang

doi:10.1155/2015/108926

Fenling Feng, Qingya Zhang

Open Access

https://doi.org/10.1155/2015/108926

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Abstract

This study investigates multimodal transport system evolution law with the consideration of synergetic theory. Compared with previous studies, this paper focuses on understanding influencing factors of system collaborative development. In particular, we have applied a multimodal system order parameter model to obtain the order parameter. Based on order parameters, the coevolution equations of the multimodal transport system are constructed with consideration of cooperation and competitive relationship between the subsystems. We set out the multimodal system followed the coevolution law of the freight system and dominated by the combined effects of order parameter line length and freight density. The results show that the coordination effects between railway, road, and water subsystems are stronger than aviation subsystem; the railway system is the short plank of the system. Some functional implications from this study are also discussed. Finally the results indicate that expansion of railway system capacity and mutual cooperation within the subsystems are required to reach an optimal multimodal transport system.

Highlights

Multimodal transport combines the railway transport, water transport, road transport, aviation, and other traditional modes of transport
Multimodal transport is a freight transport mode featured with high efficiency and high potency
It is a systematic combination of railway, road, and water transport, aviation, and other traditional transport modes that can take advantages of each individual transport mode and achieve higher efficiency

Summary

Introduction

Multimodal transport combines the railway transport, water transport, road transport, aviation, and other traditional modes of transport. Feng et al [16] built a synergy evolutionary model of the collecting, distributing, and transporting system of railway heavy haul transport by introducing synergy-related concepts and applying the synergy evolutionary theory. He et al [17] analyzed the model of road express transport system evolution. One is the mathematical method which provides a comprehensive and objective model for multimodal transport system evolution This method includes establishing coevolution equation and order parameter model. This paper puts forward the two dimensions of time and space to analyze the freight transport system evolutionary development. This paper utilizes China multimodal transport system as an example, and this coevolution model is calculated and analyzed

Problem Descriptions

Order Parameter Model of Multimodal System Coevolution

Assumptions

Analysis of Multimodal Transport System Coevolution in China

Findings

Conclusions