Next Generation Air Transportation System (NextGen) has begun the modernization of the nation's air transportation system (NAS), with goals to improve system safety, increase operation efficiency and capacity, provide enhanced predictability, resilience and robustness [1]. The overall objective of the Air Traffic Management-eXploration (ATM-X) project is to facilitate the goals of NextGen by conducting research to enable the growing demand of new, mission variant, air vehicles with safe access to the NAS. The implementation and utilization of new and burgeoning technologies that are both flexible, scalable, and systematically user-focused are requisite for ATM-X to achieve its intention of NAS safe entry [2]. Researchers from NASA Langley's Flight Deck Integration Team have developed a system architecture that would allow ATM-X to leverage the necessary capabilities of an Increasingly Autonomous System (IAS), machine-agent that will promote the safe access and operation of air vehicles within what has become the byproduct of NextGen modernization, a Net-Centric airspace architecture and an Urban Air Mobility (UAM) community. Conducting flight operations within this type of architecture constrains the human-agent's natural ability to data manage. When the massive volume of data, its types, and the acquisition speed at which the data is ingested is observed it becomes evident that the human-agent will be functioning at an operational disadvantage. Therefore, the development and integration of intelligent machine-agents into the flight deck are a necessary implementation to achieve ATM-X overall objective of safe access and operation in the NAS.
[1]
Timothy D. Imler,et al.
Natural language processing accurately categorizes findings from colonoscopy and pathology reports.
,
2013,
Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association.
[2]
The Role of Metadata in Machine Learning for Technology Assisted
,
2015
.
[3]
Mary S. Reveley,et al.
Analysis of Aviation Safety Reporting System Incident Data Associated with the Technical Challenges of the System-Wide Safety and Assurance Technologies Project
,
2015
.
[4]
Randall E. Bailey,et al.
Performance Evaluation of Speech Recognition Systems as a Next-Generation Pilot-Vehicle Interface Technology
,
2016
.
[5]
Vincent E. Houston,et al.
Autonomous System Technologies for Resilient Airspace Operations
,
2017
.
[6]
Lillian Gipson.
Air Traffic Management – eXploration (ATM-X)
,
2018
.
[7]
Vincent E. Houston,et al.
Machine Learning Algorithms To Improve Model Accuracy and Latency, and Human-Autonomy Teaming
,
2018
.
[8]
Bryan E. Barmore,et al.
Overview of NASA's Air Traffic Management - eXploration (ATM-X) Project
,
2018
.
[9]
Vincent E. Houston,et al.
Correction: Advancing Aircraft Operations in a Net-Centric Environment with the Incorporation of Increasingly Autonomous Systems and Human Teaming
,
2019
.