Urban air mobility

Urban air mobility (UAM)[1][2] is the use of small, highly automated aircraft to carry passengers or cargo at lower altitudes in urban and suburban areas which have been developed in response to traffic congestion.[2] It usually refers to existing and emerging technologies such as traditional helicopters, vertical-takeoff-and-landing aircraft (VTOL), electrically propelled vertical-takeoff-and-landing aircraft (eVTOL), and unmanned aerial vehicles (UAVs).[3] These aircraft are characterized by the use of multiple electric-powered rotors or fans for lift and propulsion, along with fly-by-wire systems to control them.[4] Inventors have explored urban air mobility concepts since the early days of powered flight. However, advances in materials, computerized flight controls, batteries and electric motors improved innovation and designs beginning in the late 2010s. Most UAM proponents envision that the aircraft will be owned and operated by professional operators, as with taxis, rather than by private individuals.[5][6]

Urban air mobility is a subset of a broader advanced air mobility (AAM) concept that includes other use cases than intracity passenger transport;[1] NASA describes advanced air mobility as including small drones, electric aircraft, and automated air traffic management among other technologies to perform a wide variety of missions including cargo and logistics.[7] This is also supported by the drone market consulting firm Drone Industry Insights, who also includes vertiports into the definition of AAM and UAM.[8]

  1. ^ a b "Urban Air Mobility and Advanced Air Mobility". Federal Aviation Administration. United States Department of Transportation. Retrieved 20 July 2021.
  2. ^ a b "Urban Air Mobility (UAM)". eu-smartcities.eu. Retrieved Aug 20, 2019.
  3. ^ Cohen, Adam P.; Shaheen, Susan A.; Farrar, Emily M. (2021). "Urban Air Mobility: History, Ecosystem, Market Potential, and Challenges". IEEE Transactions on Intelligent Transportation Systems. 22 (9): 6074–6087. doi:10.1109/TITS.2021.3082767.
  4. ^ "Positioning Helicopters in the Urban Air Mobility Ecosystem". asd-europe.org. Retrieved 2021-12-16.
  5. ^ Thurber, Matt. "Eco Helicopters Launching Urban Air Mobility Operations". Aviation International News. Retrieved 2021-12-16.
  6. ^ Vascik, Parker D. (Parker Denys Neff) (2020). Systems analysis of urban air mobility operational scaling (Thesis thesis). Massachusetts Institute of Technology. hdl:1721.1/128057.
  7. ^ Hill, Brian (2 December 2020). "UAM Vision Concept of Operations (ConOps) UAM Maturity Level (UML) 4". NASA Technical Reports Server. NASA. Retrieved 29 June 2021.
  8. ^ Alvarado, Ed (2023-02-03). "The Vision of Advanced Air Mobility (AAM) | Droneii.com 2023". Drone Industry Insights. Retrieved 2023-02-09.