Abstract
Recent studies have characterized the structures of air transport network in different countries and regions using complex network metrics. These studies coincided with the trend of increasingly available large empirical flight datasets that enable researchers to investigate the dynamics of the system, such as the propagation of flight delay. However, linking network structure with network dynamics remains a challenging task. In this paper, we proposed a method to construct flight delay networks from operational data. We provided a detailed comparison of the key structural properties of the flight delay networks in the United States and China. The comparisons of betweenness centrality of delay networks and flight networks show the advantage of the proposed method. We further found that airports in similar geographical locations do exhibit similar delay patterns in both countries. To explore the underlying mechanisms, the Multifractal Detrended Fluctuation Analysis (MF-DFA) is applied to the flights’ delay time series at both the airport level and network level. Singularity spectra analyses reveal the fundamental characteristics of the airport systems and air transportation system. Our findings contribute to the understanding of structure and dynamics of air transportation systems.
Highlights
Air traffic is an integral part of intermodal transportation in both developing and developed countries, playing a critical role in the global economy and our daily life. e last decade has witnessed the improvement of the air transportation systems in safety, capacity, and efficiency
It can be clearly seen that both cumulative degree distributions have two affine components with the transition point being k 54 (China) and k 49 (USA), respectively
In the field of air transportation, airport networks have been investigated from different perspectives. e analytical results depend on how the network is constructed, but there has been little study of this dependency
Summary
Air traffic is an integral part of intermodal transportation in both developing and developed countries, playing a critical role in the global economy and our daily life. e last decade has witnessed the improvement of the air transportation systems in safety, capacity, and efficiency. E last decade has witnessed the improvement of the air transportation systems in safety, capacity, and efficiency. E understanding of the airport network structure has improved considerably over the past few years as is evident from numerous studies that revealed important characteristics of airport networks in different countries and regions around the world [3,4,5,6]. Networks under study are constructed from flights data. A growing corpus of empirical analyses have revealed the fundamental properties of airport networks in a region or worldwide, such as small-world and scale-free, contributing to the understanding of the structure of human-made complex systems. Great efforts have been devoted to the study of flight delays
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