UAV collision avoidance based on geometric approach

A method of collision avoidance is described by using simple geometric approach. Two UAVs are dealt with and considered as point masses with constant velocity. This paper discusses en route aircraft which are assumed to be linked by real time data bases like ADS-B. With this data base, all UAVs share the information each other. Calculating PCA (point of closest approach), we can evaluate the worst conflict condition between two UAVs. This paper proposes one resolution maneuvering logic, which can be called dasiavector sharing resolutionpsila. In case of conflict, using miss distance vector in PCA, we can decide the directions for two UAVs to share the conflict region. With these directions, UAVs are going to maneuver cooperatively. First of all, this paper describes some dasia2Dpsila conflict scenarios and then extends to dasia3Dpsila conflict scenarios.

[1]  James K. Kuchar,et al.  Prototype Conflict Alerting System for Free Flight , 1997 .

[2]  H. Erzberger,et al.  Design of a conflict detection algorithm for the Center/TRACON automation system , 1997, 16th DASC. AIAA/IEEE Digital Avionics Systems Conference. Reflections to the Future. Proceedings.

[3]  W. E. Kelly Conflict detection and alerting for separation assurance systems , 1999, Gateway to the New Millennium. 18th Digital Avionics Systems Conference. Proceedings (Cat. No.99CH37033).

[4]  A. W. Merz Maximum-miss aircraft collision avoidance , 1991 .

[5]  Mark Peters,et al.  Conflict Detection and Resolution for Free Flight , 1997 .

[6]  Mark Peters,et al.  Strategic conflict detection and resolution for free flight , 1997, Proceedings of the 36th IEEE Conference on Decision and Control.