Skip to content

Atlas / Learn / Papers / 20210015266

NASA NTRS · Accepted Manuscript (Version with final changes)

Decentralized Control Synthesis for Air Traffic Management in Urban Air Mobility

Published 2021-02-16 From Langley Research Center 4 authors

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 Langley Research Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Urban air mobility (UAM) refers to air transportation services within an urban area, often in an on-demand fashion. We study air traffic management (ATM) for vehicles in a UAM fleet, while guaranteeing system safety requirements such as traffic separation. Existing ATM methods for unmanned aerial systems, such as UAS traffic management, utilize alternative approaches which do not provide strict safety guarantees. No established infrastructure exists for providing ATM at scale for UAM. We provide a decentralized, hierarchical approach for UAM ATM that allows for scalability to high traffic densities as well as providing theoretical guarantees of correctness with respect to user-provided safety specifications. Our main contributions are two-fold. First, we propose a novel UAM ATM architecture that divides the control authority between vertihubs that are each in charge of all UAM vehicles in their local airspace. Each vertihub also contains a number of vertiports that are in charge of UAM vehicle takeoffs and landings. The resulting architecture is decentralized and hierarchical, which not only enables scalability, but also robustness in the event of any individual vertihub or vertiport no longer being operational. Second, we provide a contract-based correct-by-construction reactive synthesis approach that provably guarantees safety properties with respect to user-provided specifications in linear temporal logic. We demonstrate the approach on large-volume UAM air traffic data.

Authors

  • Suda Bharadwaj The University of Texas at Austin
  • Steven Carr The University of Texas at Austin
  • Natasha Neogi Langley Research Center
  • Ufuk Topcu The University of Texas at Austin

Keywords

  • Urban Air Mobility
  • Air Traffic Management
  • Controller Synthesis

Citation: Suda Bharadwaj, Steven Carr, Natasha Neogi , et al. (2021). Decentralized Control Synthesis for Air Traffic Management in Urban Air Mobility. Langley Research Center. NASA NTRS ID 20210015266. https://ntrs.nasa.gov/citations/20210015266 ↗