In this paper we study the issue of characterizing the complexity of air traffic to support Air Traffic Management (ATM) operations. We discuss, in particular, the features of a complexity metric that are relevant for application to future ATM systems where part of the responsibility for separation assurance and trajectory management operations is distributed on board of the aircraft. We then describe a probabilistic complexity metric that meets all those features and is amenable for supporting onboard conflict detection and resolution and trajectory management operations. A numerical example illustrates its possible use in a fully automated self-separation context
To alleviate the workload of air traffic controllers, part of the air traffic may be handled by a fu...
At present, decision-making in ATM is fragmented between different stakeholders who have different o...
Tactical monitoring and controlling of air traffic is becoming increasingly difficult to manage for ...
In this paper we study the issue of characterizing the complexity of air traffic to support Air Traf...
A metric is proposed to characterize airspace complexity with respect to an automated separation ass...
A metric is proposed to characterize airspace complexity with respect to an automated separation ass...
In this paper, a complexity indicator for 4D flight trajectories is developed based on conflict prob...
Air traffic management (ATM) comprises a highly complex socio-technical system that keeps air traffi...
International audienceThis paper presents a new air traffic complexity metric based on linear dynami...
This paper describes a novel approach for defining an air traffic complexity indicator, aimed at imp...
One of the main missions of air traffic management is to guarantee en route safety. This safety is q...
Today, aircraft demand is exceeding the capacity of the Air Traffic Control (ATC) system. As a resul...
In order to address the flight delays and risks associated with the forecasted increase in air traff...
Abstract — The growing demand for air travel is increasing the need for mitigation of air traffic co...
The future of air traffic management moving to 4D trajectory-based operations will require the devel...
To alleviate the workload of air traffic controllers, part of the air traffic may be handled by a fu...
At present, decision-making in ATM is fragmented between different stakeholders who have different o...
Tactical monitoring and controlling of air traffic is becoming increasingly difficult to manage for ...
In this paper we study the issue of characterizing the complexity of air traffic to support Air Traf...
A metric is proposed to characterize airspace complexity with respect to an automated separation ass...
A metric is proposed to characterize airspace complexity with respect to an automated separation ass...
In this paper, a complexity indicator for 4D flight trajectories is developed based on conflict prob...
Air traffic management (ATM) comprises a highly complex socio-technical system that keeps air traffi...
International audienceThis paper presents a new air traffic complexity metric based on linear dynami...
This paper describes a novel approach for defining an air traffic complexity indicator, aimed at imp...
One of the main missions of air traffic management is to guarantee en route safety. This safety is q...
Today, aircraft demand is exceeding the capacity of the Air Traffic Control (ATC) system. As a resul...
In order to address the flight delays and risks associated with the forecasted increase in air traff...
Abstract — The growing demand for air travel is increasing the need for mitigation of air traffic co...
The future of air traffic management moving to 4D trajectory-based operations will require the devel...
To alleviate the workload of air traffic controllers, part of the air traffic may be handled by a fu...
At present, decision-making in ATM is fragmented between different stakeholders who have different o...
Tactical monitoring and controlling of air traffic is becoming increasingly difficult to manage for ...