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Cleared To Land: Pilot Visual Detection Of Small Unmanned Aircraft During Final Approach, Ryan J. Wallace, Samuel M. Vance, Jon M. Loffi, Jamey Jacob, Jared C. Dunlap, Taylor A. Mitchell, Robert Thomas, Seabrook R. Whyte
Cleared To Land: Pilot Visual Detection Of Small Unmanned Aircraft During Final Approach, Ryan J. Wallace, Samuel M. Vance, Jon M. Loffi, Jamey Jacob, Jared C. Dunlap, Taylor A. Mitchell, Robert Thomas, Seabrook R. Whyte
International Journal of Aviation, Aeronautics, and Aerospace
Sighting reports of unmanned aircraft systems (UAS) by pilots, air traffic controllers, and other aviation stakeholders have continued to rise since the Federal Aviation Administration (FAA) began tracking in 2014. In 2018, the FAA received 2,307 such reports, with 22.8% (n = 526) occurring during the final approach phase of flight. The threat of a midair collision between a manned aircraft and UAS is heightened during the final approach phase of flight, as the aircraft transitions from higher-altitude airspace to the low-altitude arena, now shared with drones. Absent UAS sense and avoid systems, pilots are forced to rely on …
Building Evidence The Federal Aviation Administration's Uas Safety Strategy Needs Improvement, Ryan J. Wallace, Tom Haritos, John Robbins
Building Evidence The Federal Aviation Administration's Uas Safety Strategy Needs Improvement, Ryan J. Wallace, Tom Haritos, John Robbins
International Journal of Aviation, Aeronautics, and Aerospace
The growth of unmanned aircraft operations within the National Airspace System (NAS) reveal an uptick of alarming safety indicators that suggest unmanned aircraft system (UAS) regulatory policy may require adjustment. Recent reports of aircraft collisions with UAS, an increase in pilot-reported near-misses, and research findings that indicate UAS platforms are capable of causing structural damage to aircraft suggest safe and effective UAS integration may not be proceeding as planned. The authors examine several safety indicators within the context of Heinrich’s Triangle to reveal the UAS industry’s susceptibility to evolving safety-related problems.