For higher density operation in terminal manoeuvring area, Airborne Surveillance Application System (ASAS) is seen as a promising option in the future air traffic management (ATM). One idea of recent interest in ASAS application is Interval Management (IM), which is expected to support energy-saving arrivals, commonly referred as Continuous Descent Approach (CDA). The questions are how the IM application achieves safety and capacity in the CDA environment, and how to identify any potential emergent behaviour that should be taken into account in the operation design. The motivation for this study is the need to properly understand the nominal and non-nominal behaviour of many aircraft when the ASAS application is applied to the CDA environment.
For this purpose, this study has conducted a preliminary safety assessment of the ASAS speed control for multiple trailing aircraft in CDA operation. This article focuses on ASAS surveillance failure as one of the critical events during flight. Using Stochastically and Dynamically Coloured Petri Net (SDCPN), ASAS core components and their interactions are modelled. Through Monte Carlo simulation via the SDCPN models, the impact of the ASAS surveillance failure on the airborne-based CDA operation is assessed.
Effects of surveillance failure on airborne-based continuous descent approach
2012-11-01
11 pages
Article (Journal)
Electronic Resource
Unknown
Effects of surveillance failure on airborne-based continuous descent approach
Online Contents | 2012
|British Library Conference Proceedings | 2010
|Speed Control for Airborne Separation Assistance in Continuous Descent Arrivals
British Library Conference Proceedings | 2009
|