2020
DOI: 10.3390/aerospace7050050
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A Collaborative Approach for an Integrated Modeling of Urban Air Transportation Systems

Abstract: The current push in automation, communication, and electrical energy storage technologies has the potential to lift urban mobility into the sky. As several urban air mobility (UAM) concepts are conceivable, all relevant physical effects as well as mutual interrelations of the UAM system have to be addressed and evaluated at a sufficient level of fidelity before implementation. Therefore, a collaborative system of systems modeling approach for UAM is presented. To quickly identify physical effects and cross-dis… Show more

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Cited by 27 publications
(17 citation statements)
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References 31 publications
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“…A collaborative simulation approach is proposed by [104], in order to analyze a UAM network inside the metropolitan area of Hamburg (Germany). It follows the objective of defining low-fidelity analysis components such as demand, vertiport design, vertiport integration, routing, scheduling and setting them into relation in order to analyze interdependencies.…”
Section: Holistic Uam Network Approachesmentioning
confidence: 99%
See 1 more Smart Citation
“…A collaborative simulation approach is proposed by [104], in order to analyze a UAM network inside the metropolitan area of Hamburg (Germany). It follows the objective of defining low-fidelity analysis components such as demand, vertiport design, vertiport integration, routing, scheduling and setting them into relation in order to analyze interdependencies.…”
Section: Holistic Uam Network Approachesmentioning
confidence: 99%
“…Early contributions of [131] on the ratio between gates and pads have found the ratio to strongly depend on the turnaround time at the gates, which in turn depends on passenger boarding and vehicle charging. Ratios that are being put forth range from 2 to 8 gates per pad [104,132] and are therefore a novelty compared to today's heliports operations, which concerns itself almost exclusively with pad operations. Most publications place all elements on a two dimensional plane.…”
Section: Airfield Layout and Capacitymentioning
confidence: 99%
“…Many users already rely on RCE in their daily work and appreciate its capabilities. [13][14][15][16] In addition to DLR-external projects, there are many research projects at DLR itself in which RCE is used that contain concrete use cases. These use cases are in application domains covering both the domain of aerospace as well as in the domains of traffic and energy.…”
Section: Concrete Use Casesmentioning
confidence: 99%
“…The lowest flight altitude represents the minimum safety altitude for VFR flights over cities [20]. Separations from 200 ft vertical and 2000 ft lateral between ATs are applied based on the assumption that two ATs flying towards each other, with the assumed velocity, need approximately ten seconds for collision avoidance manoeuvres [21]. Additionally, wake turbulence separations are used between ATs and conventional aircraft.…”
Section: Model Componentsmentioning
confidence: 99%