Document Type

Article

Publication Title

Interservice/Industry Training, Simulation, and Education Conference (I/ITSEC)

Abstract

Advanced air mobility (AAM), of which urban air mobility (UAM) is a subset, signifies an exciting and advanced mode of air transportation that combines novel aircraft configurations with progressive levels of automation to offer convenient and efficient modes of air transportation (Mitchell et al., 2021). The design of these innovative aircraft will utilize advanced autonomous systems and are proposed to minimize pilot training requirements and scale operations (Mathur et al., 2019; Thipphavong, 2018). Further, the operational context of UAM will be characterized by low-altitude flights, single pilot operations, unique weather phenomena such as mechanical turbulence, and novel propulsion systems. Early phases of UAM will involve manned flights (FAA, 2023) and as the industry plans for a new era of UAM pilots, there are several considerations for development of training procedures that have distinct differences from traditional aviation contexts. For example, the aircraft being proposed utilize higher levels of automation than current commercial aircraft. While it is being suggested that this will decrease the amount of training required, pilots will need to develop an understanding of the automation functions, which will impact training requirements. Further, the aircraft being proposed have novel technology such as battery-powered propulsion systems. This change from fuel management to battery power management will have implications for training. There will also be changes to various aspects of operations, such as extremely repetitive, short-haul flights, within single-pilot operations with changes to communication with air traffic control. In this paper we will examine key differences between proposed UAM and traditional aviation contexts that have implications for training related to four key areas: (1) automation, (2) the pilot interface, (3) operations, and (4) pilot characteristics. We will highlight key differences between these two aviation contexts, identify implications for how these changes may impact training, and provide considerations for future training research and development.

Publication Date

2023

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