A collision risk assessment method for runway threshold management : a case study of Singapore Changi Airport
Airports are indispensable infrastructures in an air transportation system with runways being the most critical com- ponent serving departures and arrivals. With constant increase in demand of air traffic, much effort has been made to manage the runway capacity to improve the throughput of airpo...
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| Main Authors: | , , |
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| Other Authors: | |
| Format: | Conference or Workshop Item |
| Language: | English |
| Published: |
2021
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| Subjects: | |
| Online Access: | http://www.icrat.org/icrat/upcoming-conference/ https://hdl.handle.net/10356/152381 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Airports are indispensable infrastructures in an air
transportation system with runways being the most critical com-
ponent serving departures and arrivals. With constant increase
in demand of air traffic, much effort has been made to manage
the runway capacity to improve the throughput of airports.
Apart from operational changes, there is a significant investment
in runway infrastructure improvements such as new runway
development/extension. However, many runways suffer from long
runway thresholds due to safety constraints in face of approach
path obstacles, which leads to reduction in Landing Distance
Available (LDA), thereby reducing runway capacity. This paper
proposes a method to manage the runway threshold by computing
and assessing the collision risk of a given flight approach path
with an obstacle profile. To do so, we develop the arrival flight
profile along with the altitude distribution the landing aircraft
using ADS-B data. We then factor in the height of obstacles
with reference to the obstacle surface profile. The convolution
of two distribution is then used to assess the collision risk
between the aircraft on approach path and the obstacle for better
management of runway threshold. The proposed model is applied
at Singapore Changi Airport, which has a long runway threshold
due to the ship movements in the Strait of Singapore, which are
considered as safety risks to the landing aircraft. Results suggest
that, for CAT I/II approaches, with aircraft having aerodrome
reference code 3/4, the runway threshold for runway Singapore
Changi Airport 20R can safely be reduced by approximately 100
meters, while meeting the safety requirements. This increases the
Landing Distance available and may lead to an increase runway
capacity. |
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