Development of an urban air mobility vehicle family concept by system of systems aircraft design and assessment

The concept of urban air mobility promises a modern air taxi transport solution providing on-demand air mobility and hence time savings compared to congested terrestrial transportation in major cities and metropolitan areas. To make it a reality, vehicles, infrastructure, services, and operations mu...

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Veröffentlicht in:	Journal of physics. Conference series 2023-06, Vol.2526 (1), p.12043
Hauptverfasser:	Ratei, Patrick, Naeem, Nabih, Prakasha, Prajwal Shiva
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Sprache:	eng
Schlagworte:	Aircraft Aircraft design Configuration management Design analysis Energy consumption Metropolitan areas Physics System of systems Systems simulation Transportation networks Urban air mobility Vehicles Vertical takeoff aircraft
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creator	Ratei, Patrick Naeem, Nabih Prakasha, Prajwal Shiva
description	The concept of urban air mobility promises a modern air taxi transport solution providing on-demand air mobility and hence time savings compared to congested terrestrial transportation in major cities and metropolitan areas. To make it a reality, vehicles, infrastructure, services, and operations must be developed simultaneously and cross-linked. These interconnections and interactions of the multitude of systems involved necessitate a system of systems approach, which is accounted for and implemented through agent-based simulations. Accordingly, the system of systems simulation framework is tuned to vehicle architecture as well as fleet design and assessment, thus allows to expand the aircraft design process by fleet operations and transport network perspectives. In this paper, the top level aircraft requirements of electric vertical take-off and landing vehicles are investigated by a fleet-centric approach. Herein, two disparate configurations, i.e. multirotor and tiltrotor, are modelled to depict representative wingless and winged configurations. The optimal design points are found and traded off by formulating different measures of effectiveness accounting for conversion of passenger requests, fleet energy consumption, and vehicle load factor. In summary, this study demonstrates the need for system of systems simulations to derive market-and operations-tailored vehicles and fleets. Furthermore, work on heterogeneous fleet compositions is required.
doi_str_mv	10.1088/1742-6596/2526/1/012043
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subjects	Aircraft Aircraft design Configuration management Design analysis Energy consumption Metropolitan areas Physics System of systems Systems simulation Transportation networks Urban air mobility Vehicles Vertical takeoff aircraft
title	Development of an urban air mobility vehicle family concept by system of systems aircraft design and assessment
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