A Spatio-Temporal Autowave Model of Shanghai Territory Development

Natalia Levashova,Anna Semina,Mingkang Ni,Alla Sidorova

doi:10.3390/su11133658

Natalia Levashova, Anna Semina + Show 2 more

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https://doi.org/10.3390/su11133658

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Abstract

A spatio-temporal model of megacity development that treats the megacity as an active medium is presented. From our point of view, it is advisable to consider the process of urban ecosystem development from the standpoint of the theory of autowave self-organization in active media. According to this concept, the urban ecosystem is considered as interacting with each other’s natural and anthropogenic subsystems with significant heterogeneity of areas affected by human intervention and urban geobiocoenoses. The model is based on the general principles of active medium dynamics; therefore, it is universal for any object to be considered an active medium. The only difference when using the model to predict the development of urban ecosystems in countries with different socio-economic and political prerequisites is the variety of parameters included in the model, i.e., the activation parameter, the autowave process inhibitors, and the characteristic scales of the activator and inhibitor. The model was tested on the example of Moscow expansion in the period of 1952–1968 and showed good agreement with the map data. By means of the model, a prediction of Shanghai and surrounding territory development until 2030 was made.

Highlights

In the context of the historical dynamics of Homo sapiens, structural spatial heterogeneity gradually developed in the anthroposphere due to the formation of cities and related adjacent territories (urban ecosystems (UES))
Much better results are shown by modern models based on the theory of cellular automata [6,7,8,9,10,11]
Urban ecosystems (UES) are considered to be interacting with each other natural and anthropogenic subsystems with significant heterogeneity of areas affected by human intervention and urban geobiocoenoses

Summary

Introduction

In the context of the historical dynamics of Homo sapiens, structural spatial heterogeneity gradually developed in the anthroposphere due to the formation of cities and related adjacent territories (urban ecosystems (UES)). These systems are characterized by high-speed population growth and the concentration of residential, industrial, commercial, and other facilities, as well as communications. Much better results are shown by modern models based on the theory of cellular automata [6,7,8,9,10,11] By means of these models, it became possible to simulate the growth processes of different cities all over the world and to offer forecasts of their development [12,13,14]. Economics-based models like the hedonic pricing model are to be mentioned [15]

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