Evaluating VTOL Corridors for Advanced Air Mobility in the Pittsburgh Region
Is this project an undergraduate, graduate, or faculty project?
Undergraduate
individual
What campus are you from?
Daytona Beach
Authors' Class Standing
Alexandra Moraca, Junior
Lead Presenter's Name
Alexandra Moraca
Faculty Mentor Name
Dr. Victor Fraticelli
Abstract
This research proposal, conducted under the mentorship of Dr. Victor Fraticelli, aims to evaluate corridors for vertical takeoff and landing (VTOL) aircraft in the Pittsburgh area. The study begins by reviewing current air traffic patterns, assessing the complexities and challenges of existing flight paths, and exploring how the introduction of VTOL aircraft could influence the development of the advanced air mobility (AAM) corridors, particularly in congested airspace. By examining real-world constraints such as regulatory requirements, infrastructure limitations, and safety considerations, and applying advanced design principles, the project seeks to develop innovative strategies for the safe and efficient navigation of VTOL aircraft. Through observations and analysis, the research will identify best practices for integrating emerging aviation technologies into established air traffic management systems. This hands-on experience not only deepens my understanding of air navigation, air traffic management, regulatory issues, and operational challenges but also my ability to contribute to the ongoing assessment of AAM integration.
Did this research project receive funding support from the Office of Undergraduate Research.
No
Evaluating VTOL Corridors for Advanced Air Mobility in the Pittsburgh Region
This research proposal, conducted under the mentorship of Dr. Victor Fraticelli, aims to evaluate corridors for vertical takeoff and landing (VTOL) aircraft in the Pittsburgh area. The study begins by reviewing current air traffic patterns, assessing the complexities and challenges of existing flight paths, and exploring how the introduction of VTOL aircraft could influence the development of the advanced air mobility (AAM) corridors, particularly in congested airspace. By examining real-world constraints such as regulatory requirements, infrastructure limitations, and safety considerations, and applying advanced design principles, the project seeks to develop innovative strategies for the safe and efficient navigation of VTOL aircraft. Through observations and analysis, the research will identify best practices for integrating emerging aviation technologies into established air traffic management systems. This hands-on experience not only deepens my understanding of air navigation, air traffic management, regulatory issues, and operational challenges but also my ability to contribute to the ongoing assessment of AAM integration.