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NASA NTRS · Conference Paper
Urban Air Mobility Airspace Dynamic Density
Attribution
This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Ames Research Center.
Abstract
Verbatim from NASA NTRS. Not paraphrased, not summarized.
Airspace safety must be assured for Urban Air Mobility (UAM) to become reality. Emerging operations need to safely integrate with existing and future air traffic. UAM is anticipated to evolve in stages. Early stages, characterized by low-density operations, may be accommodated by traditional air traffic management approaches. However, to enable the scale of UAM operations necessary to reach ubiquitous integration into daily life, new paradigms that utilize collaborative and automated systems are being considered. Correspondingly, traditional approaches for determining a safe number of simultaneous operations in an airspace must be adapted to suit evolving traffic management paradigms. In this paper, we examine dynamic density as an approach to determine when an airspace is excessively populated, and safety may become compromised. We review previous work on dynamic density as it relates to air traffic controller workload and propose factors that may be more fitting for UAMs. Rather than considering controller workload, we propose factors that suggest increased likelihood of loss of separation and may lead to conflicts that require tactical avoidance maneuvers. In addition to monitoring dynamic density for tactical decision making, we endeavor to predict airspace dynamic density with adequate look-ahead to allow for strategic route selection.
Authors
- Liljana Spirkovska Ames Research Center
- Chetan S Kulkarni Wyle (United States)
- Jason Watkins Wyle (United States)
- Lynne Martin Ames Research Center
Keywords
- UAM
- Airspace Dynamic Density
- Airspace Safety
Citation: Liljana Spirkovska, Chetan S Kulkarni, Jason Watkins , et al. (2022). Urban Air Mobility Airspace Dynamic Density. Ames Research Center. NASA NTRS ID 20210024185. https://ntrs.nasa.gov/citations/20210024185 ↗