TY - JOUR
T1 - A Data-Driven Air Transportation Delay Propagation Model Using Epidemic Process Models
AU - Baspinar, B.
AU - Koyuncu, E.
N1 - Publisher Copyright:
© 2016 B. Baspinar and E. Koyuncu.
PY - 2016
Y1 - 2016
N2 - In air transport network management, in addition to defining the performance behavior of the system's components, identification of their interaction dynamics is a delicate issue in both strategic and tactical decision-making process so as to decide which elements of the system are "controlled" and how. This paper introduces a novel delay propagation model utilizing epidemic spreading process, which enables the definition of novel performance indicators and interaction rates of the elements of the air transportation network. In order to understand the behavior of the delay propagation over the network at different levels, we have constructed two different data-driven epidemic models approximating the dynamics of the system: (a) flight-based epidemic model and (b) airport-based epidemic model. The flight-based epidemic model utilizing SIS epidemic model focuses on the individual flights where each flight can be in susceptible or infected states. The airport-centric epidemic model, in addition to the flight-to-flight interactions, allows us to define the collective behavior of the airports, which are modeled as metapopulations. In network model construction, we have utilized historical flight-track data of Europe and performed analysis for certain days involving certain disturbances. Through this effort, we have validated the proposed delay propagation models under disruptive events.
AB - In air transport network management, in addition to defining the performance behavior of the system's components, identification of their interaction dynamics is a delicate issue in both strategic and tactical decision-making process so as to decide which elements of the system are "controlled" and how. This paper introduces a novel delay propagation model utilizing epidemic spreading process, which enables the definition of novel performance indicators and interaction rates of the elements of the air transportation network. In order to understand the behavior of the delay propagation over the network at different levels, we have constructed two different data-driven epidemic models approximating the dynamics of the system: (a) flight-based epidemic model and (b) airport-based epidemic model. The flight-based epidemic model utilizing SIS epidemic model focuses on the individual flights where each flight can be in susceptible or infected states. The airport-centric epidemic model, in addition to the flight-to-flight interactions, allows us to define the collective behavior of the airports, which are modeled as metapopulations. In network model construction, we have utilized historical flight-track data of Europe and performed analysis for certain days involving certain disturbances. Through this effort, we have validated the proposed delay propagation models under disruptive events.
UR - http://www.scopus.com/inward/record.url?scp=84987909281&partnerID=8YFLogxK
U2 - 10.1155/2016/4836260
DO - 10.1155/2016/4836260
M3 - Article
AN - SCOPUS:84987909281
SN - 1687-5966
VL - 2016
JO - International Journal of Aerospace Engineering
JF - International Journal of Aerospace Engineering
M1 - 4836260
ER -