AUTHOR=Pradeep Priyank , Chatterji Gano B. , Lauderdale Todd A. , Sheth Kapil , Lai Chok Fung , Erzberger Heinz , Sridhar Banavar TITLE=Wind-optimal lateral trajectories for a multirotor aircraft in urban air mobility JOURNAL=Frontiers in Aerospace Engineering VOLUME=1 YEAR=2022 URL=https://www.frontiersin.org/journals/aerospace-engineering/articles/10.3389/fpace.2022.1064142 DOI=10.3389/fpace.2022.1064142 ISSN=2813-2831 ABSTRACT=

The primary motivation for this paper is to quantify the operational benefits (energy consumption and flight duration) of flying wind-optimal lateral trajectories for short flights (less than 60 miles) anticipated in the urban environment. The optimal control model presented includes a wind model for quantifying the effect of wind on the lateral trajectory. The optimal control problem is numerically solved using the direct collocation method. Energy consumption and flight duration flying wind-optimal lateral trajectories are compared with corresponding values obtained flying great-circle paths between the same origin and destination pairs to determine the operational benefits of wind-optimal routing for short flights. The flight duration results for different scenarios are validated using a simulation tool designed and developed at NASA for exploring advanced air traffic management concepts. This research study suggests that for short flights in an urban environment, operational benefits of the wind-optimal lateral trajectories over the corresponding great-circle trajectories in terms of energy consumption and flight duration per flight are dependent on: i) wind field’s spatial variability, ii) wind magnitude, iii) the direction of route relative to the wind field, and iv) cruise segment length. The operational benefits observed in realistic flyable wind scenarios are less than 2.5%; these could be translated to an equivalent of a maximum of 2 min of cruise flight duration savings in the urban air mobility environment. As expected, headwinds and tailwinds along the flight route most significantly impact energy consumption and flight duration.