DocumentCode
3680572
Title
DAIDALUS: Detect and Avoid Alerting Logic for Unmanned Systems
Author
César Muñoz;Anthony Narkawicz;George Hagen;Jason Upchurch;Aaron Dutle;María Consiglio;James Chamberlain
Author_Institution
NASA Langley Research Center, Hampton, VA, USA
fYear
2015
Abstract
This paper presents DAIDALUS (Detect and Avoid Alerting Logic for Unmanned Systems), a reference implementation of a detect and avoid concept intended to support the integration of Unmanned Aircraft Systems into civil airspace. DAIDALUS consists of self-separation and alerting algorithms that provide situational awareness to UAS remote pilots. These algorithms have been formally specified in a mathematical notation and verified for correctness in an interactive theorem prover. The software implementation has been verified against the formal models and validated against multiple stressing cases jointly developed by the US Air Force Research Laboratory, MIT Lincoln Laboratory, and NASA. The DAIDALUS reference implementation is currently under consideration for inclusion in the appendices to the Minimum Operational Performance Standards for Unmanned Aircraft Systems presently being developed by RTCA Special Committee 228.
Keywords
"Aircraft","Air traffic control","Unmanned aerial vehicles","NASA","Standards","Prediction algorithms","Trajectory"
Publisher
ieee
Conference_Titel
Digital Avionics Systems Conference (DASC), 2015 IEEE/AIAA 34th
ISSN
2155-7195
Electronic_ISBN
2155-7209
Type
conf
DOI
10.1109/DASC.2015.7311421
Filename
7311421
Link To Document