Preliminary Feasibility Study of the Ad Hoc Separation Operational Concept

Author:

Serrano-Mira Lidia1ORCID,Sanz Luis Pérez1ORCID,Pérez-Castán Javier A.1ORCID,Netjasov Fedja2ORCID,Moreno Irene García1,Ayra Eduardo S.13

Affiliation:

1. ETSI Aeronáutica y del Espacio, Universidad Politécnica de Madrid, Plaza del Cardenal Cisneros, 3, 28040 Madrid, Spain

2. Division of Airports and Air Traffic Safety, Faculty of Transport and Traffic Engineering, University of Belgrade, Vojvode Stepe 305, 11000 Belgrade, Serbia

3. Iberia Airlines, Calle de Martínez Villergas, 49, 28027 Madrid, Spain

Abstract

The expected growth of air traffic in the coming decades demands an increase in airspace capacity, which is already close to saturation in many scenarios. One of the limiting factors of this capacity is the separation minima. At present, the separation standards that apply in a given volume of airspace are fixed, and their values were determined decades ago. Therefore, in order to increase airspace capacity, this is an area in which improvement is sought, namely through the implementation of new operational concepts, which include the redefinition of separation minima and the way they are applied. A key issue in this redefinition of separation minima is the question of the possibility of reducing the current standards. However, a reduction in the separation to a fixed value may not be a valid solution, as not all aircraft and ways of operation are the same. In this paper, the authors propose a new operational concept, the Ad Hoc or Variable separation minima. Ad Hoc separation refers to the application of different separation minima values in the same volume of airspace, depending on a set of factors, e.g., aircraft model and encounter geometry, among others. In this research, the factors that define these Ad Hoc separation minima and their relationships are discussed. A model for their determination is presented. Simulations are performed to analyze the operational feasibility of the Ad Hoc separation minima. The results show that the application of this concept is operationally feasible.

Publisher

MDPI AG

Subject

Aerospace Engineering

Reference47 articles.

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2. Reynolds, T.G., and Hansman, R.J. (2000, January 13–16). Analysis of separation minima using a surveillance state vector approach. Proceedings of the 3rd USA/Europe Air Traffic Management R&D Seminar, Napoli, Italy.

3. EUROCONTROL (2022, November 30). Guidelines for the Application of the ECAC Radar Separation Minima. Available online: http://www.eurocontrol.int/sites/default/files/publication/content/documents/nm/ecac_radar_sep_min.pdf.

4. Maroto, M.P., García-Heras, J., Sanz, L.P., Serrano-Mira, L., and Pérez-Castán, J.A. (2022). Performance Impact Assessment of Reducing Separation Minima for En-Route Operations. Aerospace, 9.

5. EUROCONTROL (2022, October 10). ‘RECAT-EU’ European Wake Turbulence Categorisation and Separation Minima on Approach and Departure Edition Number: 1.2 Edition. Available online: https://www.eurocontrol.int/sites/default/files/2021-07/recat-eu-released-september-2018.pdf.

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