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Distributed Sensor Fusion of Ground and Air Nodes Using Vision and Radar Modalities for Tracking Multirotor Small Uncrewed Air Systems and BirdsHigh-density airspace operations with multiple aircraft type and potentially noncooperative aircraft require distributed sensor detection and tracking systems to monitor airspace for safe, autonomous flight operations for advanced air mobility, urban air mobility, and high density small uncrewed air systems (SUAS) flight concepts. This work collected data using a distributed radar and camera sensor framework during the NASA Advanced Air Mobility High Density Vertiplex project SUAS flight operation. Node locations include on an onboard SUAS, affixed to the Landing and Impact Research Facility with approximate 200ft elevation, on a tripod on first-floor roof with an approximate elevation of 20 ft, and on a tripod on a concrete pad that is approximately 4 ft above sea level. Each node includes camera, radar, and GPS.
Document ID
20230017650
Acquisition Source
Langley Research Center
Document Type
Conference Paper
Authors
Chester V Dolph (Langley Research Center Hampton, United States)
Thomas Lombaerts ORCID(KBR (United States) Houston, Texas, United States)
Corey Ippolito (Ames Research Center Mountain View, United States)
Vahram Stepanyan (KBR (United States) Houston, Texas, United States)
Evan Kawamura (Ames Research Center Mountain View, United States)
Keerthana Kannan (KBR (United States) Houston, Texas, United States)
Bryan Petty (Langley Research Center Hampton, United States)
George Szatkowski (Langley Research Center Hampton, United States)
Todd Ferrante (Analytical Mechanics Associates (United States) Hampton, Virginia, United States)
Chris Morris (Langley Research Center Hampton, United States)
Federica Vitiello ORCID(University of Naples Federico II Naples, Campania, Italy)
Flavia Causa ORCID(University of Naples Federico II Naples, Campania, Italy)
Roberto Opromolla ORCID(University of Naples Federico II Naples, Campania, Italy)
Giancarmine Fasano ORCID(University of Naples Federico II Naples, Campania, Italy)
Date Acquired
December 4, 2023
Publication Date
January 4, 2024
Publication Information
Publication: AIAA SCITECH 2024 Forum
Publisher: American Institute of Aeronautics and Astronautics
e-ISBN: 9781624107115
DOI: 10.2514/6.2024-1781
Subject Category
Avionics and Aircraft Instrumentation
Report/Patent Number
AIAA-2024-1781
Meeting Information
Meeting: AIAA SciTech Forum
Location: Orlando, FL
Country: US
Start Date: January 8, 2024
End Date: January 12, 2024
Sponsors: American Institute of Aeronautics and Astronautics
Funding Number(s)
CONTRACT_GRANT: 80ARC020D0010
WBS: 109492.02.07.07.07.06
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Keywords
Beyond Visual Line of Sight
Onboard Navigation System
Autonomous Flight
Multirotor
NASA
Aircraft Operations
Airspace
Advanced Air Mobility
Radar Detection
Distributed Sensing

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