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Feasibility Study of Free routing Airspace Operation over the North Pacific Airspace

Paper ID

ATM-2021-023

Conference

USA/Europe ATM R&D Seminar

Year

2021

Theme

ATM Performance Measurement and Management

Project Name

Keywords:

Air Traffic Management, airspace design, clustering, flexible tracks, free route airspace, Machine learning, oceanic air traffic control

Authors

Hiroko Hirabayashi, Noboru Takeichi and Mark Brown

DOI

Project Number

Abstract

A fast-time simulation study was conducted to examine the expansion of flexible track operations into the area occupied by the five NOPAC (North PACific) Air Traffic Service (ATS) routes, an area of high traffic demand. In this study, User-preferred routes (UPR) were created in a proposed NOPAC Free Route Airspace (FRA) area, in which airspace users (AU) may design routes with few constraints, and compared with current fixed NOPAC route structure by fast-time simulation. To reflect the effect of daily and seasonal wind variations, a clustering analysis approach was applied to select representative wind conditions for flight route generation. Fuel burn was used to evaluate the effect of the NOPAC FRA on the efficiency of flight operations, and Potential Loss of Separation (PLOS) was examined for three minimum lateral separations to evaluate the effects of Communication, Navigation and Surveillance (CNS) performance on airspace capacity and Air Traffic Control (ATC) workload. The simulation results show a trend of increased efficiency of individual NOPAC FRA flight routes and reduced overall PLOS time. This indicates that a NOPAC FRA could improve capacity and efficiency while maintaining or increasing safety.