Add to ORKGIn this paper, we develop and formally verify practical algorithms for recovery from loss of separation. The formal verification is performed in the context of a criteria-based framework. This framework provides rigorous definitions of horizontal and vertical maneuver correctness that guarantee divergence and achieve horizontal and vertical separation. The algorithms are shown to be independently correct, that is, separation is achieved when only one aircraft maneuvers, and implicitly coordinated, that is, separation is also achieved when both aircraft maneuver. In this paper we improve the horizontal criteria over our previous work. An important benefit of the criteria approach is that different aircraft can execute different algorithms an...
Criteria and recommended practices for designing and testing flight separation mechanism
NASA is currently investigating a new concept of operations for the National Airspace System, design...
Aircraft need to be separated from other aircraft by either a minimum vertical distance of 1000ft or...
Our previous work presented an approach for developing high confidence algorithms for recovering air...
This paper proposes a mathematical definition of an aircraft-separation criterion for kinematic-base...
This paper presents an algorithm for determining the direction an aircraft should maneuver in the ev...
In air traffic management, a pairwise conflict is a predicted loss of separation between two aircraf...
The Chorus software is designed to investigate near-term, tactical conflict and loss of separation d...
In earlier research projects, the depiction of airspace in which a loss of separation is predicted t...
Automated separation assurance algorithms are envisioned to play an integral role in accommodating t...
In this paper we introduce Stratway, a modular approach to finding long-term strategic resolutions t...
In air traffic management, conflict detection algorithms are used to determine whether or not aircra...
NASA has developed the Autonomous Operations Planner (AOP) airborne decision support tool to explore...
AbstractIn air traffic management, a pairwise conflict is a predicted loss of separation between two...
The air traffic control system in the United States has a great track-record for safety. As more air...
Criteria and recommended practices for designing and testing flight separation mechanism
NASA is currently investigating a new concept of operations for the National Airspace System, design...
Aircraft need to be separated from other aircraft by either a minimum vertical distance of 1000ft or...
Our previous work presented an approach for developing high confidence algorithms for recovering air...
This paper proposes a mathematical definition of an aircraft-separation criterion for kinematic-base...
This paper presents an algorithm for determining the direction an aircraft should maneuver in the ev...
In air traffic management, a pairwise conflict is a predicted loss of separation between two aircraf...
The Chorus software is designed to investigate near-term, tactical conflict and loss of separation d...
In earlier research projects, the depiction of airspace in which a loss of separation is predicted t...
Automated separation assurance algorithms are envisioned to play an integral role in accommodating t...
In this paper we introduce Stratway, a modular approach to finding long-term strategic resolutions t...
In air traffic management, conflict detection algorithms are used to determine whether or not aircra...
NASA has developed the Autonomous Operations Planner (AOP) airborne decision support tool to explore...
AbstractIn air traffic management, a pairwise conflict is a predicted loss of separation between two...
The air traffic control system in the United States has a great track-record for safety. As more air...
Criteria and recommended practices for designing and testing flight separation mechanism
NASA is currently investigating a new concept of operations for the National Airspace System, design...
Aircraft need to be separated from other aircraft by either a minimum vertical distance of 1000ft or...