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The High Density Vertiplex Advanced Onboard Automation Overview

Louis J. Glaab, Marcus Johnson, Robert G. McSwain, Steven Geuther, Quang V Dao, Jeffrey Homola

20222022 IEEE/AIAA 41st Digital Avionics Systems Conference (DASC)22 citationsDOI

Abstract

While many studies have been performed examining Urban Air Mobility (UAM) operations from UAM Maturity Level (UML) UML-1 to UML-4, [1], [2] some uncertainty exists regarding the integration and role of onboard autonomous systems, airspace management systems, ground control and fleet management systems, and how they integrate with vertiport automation systems to ensure safe high-density future operations. One thrust of the Advanced Air Mobility (AAM) High Density Vertiplex (HDV) sub-project is to perform rapid prototyping and assessment of an Urban Air Mobility (UAM) Ecosystem within the terminal operational area to help inform future research investments and technology development. Another thrust within HDV is to perform integration, testing, and safety risk assessments required to acquire operational credit for several NASA small Unmanned Aerial Systems (sUAS) beyond visual line of sight (BVLOS) enabling technologies to expand test capabilities and to expedite technology transfer and ultimate effective usage. Both thrusts leverage sUAS to serve as surrogates for the highly-technologically-similar envisioned UAM aircraft as well as to provide significant contributions to sUAS Part-135 operators. This report provides an overview of the activities accomplished within the Advanced Onboard Automation (AOA) schedule work package of HDV.

Topics & Concepts

AutomationSystems engineeringUnified Modeling LanguageComputer scienceScheduleLeverage (statistics)EngineeringSoftwareOperating systemMachine learningMechanical engineeringAir Traffic Management and OptimizationAerospace and Aviation TechnologyAutonomous Vehicle Technology and Safety
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