Abstract
We propose an agent-based model for predicting individual flight delays in an entire air traffic network. In contrast to previous work, more detailed parameter estimation methods were incorporated into the agent-based model, acting on the state transitions of agents. Specifically, a conditional probability model was proposed for modifying the expected departure time, which was used to indicate whether a flight had experienced the necessary waiting due to Ground Delay Programs (GDPs) or carrier-related reasons. Additionally, two random forest regression models were presented for estimating the turnaround time and the elapsed time of flight agents in the agent-based delay prediction model. The parameter models were trained and fitted using the flight data for 2017 in the United States. The performance of the delay prediction model was tested for thirty days with three types of delay levels (low, medium, and high), which were randomly selected from 2018. The experimental results showed that the average absolute error in the test days was 6.8 min, and the classification accuracy with a 15 min threshold for a two-hour forecast horizon was 89.5%. The performance of our model outperformed that of existing research. Additionally, the positive effect of introducing parameter models and the negative impact of increasing the prediction horizon on the prediction performance were further studied.
Highlights
The possible flight delay time is becoming a significant reference for passengers when they plan their itineraries due to the frequency of flight delays
Flight delays have an unfriendly impact on the environment, which is mainly reflected in the occurrence of airborne delays that undoubtedly consume more fuel and increase the emissions of gases, such as carbon dioxide, [2]
It is difficult to apply these studies to flight delay prediction in the tactical phase
Summary
The possible flight delay time is becoming a significant reference for passengers when they plan their itineraries due to the frequency of flight delays. In order to fill these gaps, we developed an agent-based model to predict flight delay for the level of an entire air traffic network, and its critical time-varying parameters were acquired by data mining algorithms. Running a model for an ATM system defined at a microscopic level and the consideration of details (such as aircraft approaches, runways, taxiways, aircraft movements, bus movements, and passenger behavior during check-in) typically requires several hours [20] This kind of agent-based model does not meet the needs of tactical delay prediction (the future flight delay information should be given several hours in advance) due to the lack of necessary real-time information inputting.
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