An RRT Based Method for Dynamic Mission Balancing for Urban Air Mobility Under Uncertain Operational Conditions
Urban air mobility provides an enabling technology towards on-demand and flexible operations for passenger and cargo transportation in metropolitan areas. Electric vertical-takeoff and landing (eVTOL) concept is a potential candidate for urban air mobility platform because of its lower carbon emissi...
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| Published in | IEEE/AIAA Digital Avionics Systems Conference pp. 1 - 10 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
03.10.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2155-7209 |
| DOI | 10.1109/DASC52595.2021.9594424 |
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| Abstract | Urban air mobility provides an enabling technology towards on-demand and flexible operations for passenger and cargo transportation in metropolitan areas. Electric vertical-takeoff and landing (eVTOL) concept is a potential candidate for urban air mobility platform because of its lower carbon emissions, lower noise generations and potentially lower operational costs. However, such a transportation model is subject to numerous complicated environmental and urban design factors including buildings, dynamic obstacles and micro-weather patterns. In addition, communication, navigation and surveillance quality-of-service and availability would be affected on the overall system performance and resilience. Some social factors such as privacy, noise and visual pollution should also be considered to provide a seamless integration of the urban air mobility applications into the daily life. This paper describes an integrated RRT* based approach for designing and executing flight trajectories for urban airspace subject to operating constraints, mission constraints, and environmental conditions. The generated path is energy-efficient and enables aerial vehicle to perform mid-flight landing for battery changing or emergency situations. Moreover, this paper proposes another approach that allows on-the-fly path re-planning under dynamic constraints such as geofences or micro-weather patterns. As such, the approach also provides a method toward contingency operations such as emergency landing on the fly. |
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| AbstractList | Urban air mobility provides an enabling technology towards on-demand and flexible operations for passenger and cargo transportation in metropolitan areas. Electric vertical-takeoff and landing (eVTOL) concept is a potential candidate for urban air mobility platform because of its lower carbon emissions, lower noise generations and potentially lower operational costs. However, such a transportation model is subject to numerous complicated environmental and urban design factors including buildings, dynamic obstacles and micro-weather patterns. In addition, communication, navigation and surveillance quality-of-service and availability would be affected on the overall system performance and resilience. Some social factors such as privacy, noise and visual pollution should also be considered to provide a seamless integration of the urban air mobility applications into the daily life. This paper describes an integrated RRT* based approach for designing and executing flight trajectories for urban airspace subject to operating constraints, mission constraints, and environmental conditions. The generated path is energy-efficient and enables aerial vehicle to perform mid-flight landing for battery changing or emergency situations. Moreover, this paper proposes another approach that allows on-the-fly path re-planning under dynamic constraints such as geofences or micro-weather patterns. As such, the approach also provides a method toward contingency operations such as emergency landing on the fly. |
| Author | Inalhan, Gokhan Tsourdos, Antonios Lou, Junlin Yuksek, Burak |
| Author_xml | – sequence: 1 givenname: Junlin surname: Lou fullname: Lou, Junlin email: junlin.lou@cranfield.ac.uk organization: Transport and Manufacturing Cranfield University,School of Aerospace,UK – sequence: 2 givenname: Burak surname: Yuksek fullname: Yuksek, Burak email: burak.yuksek@cranfield.ac.uk organization: Transport and Manufacturing Cranfield University,School of Aerospace,UK – sequence: 3 givenname: Gokhan surname: Inalhan fullname: Inalhan, Gokhan email: inalhan@cranfield.ac.uk organization: Transport and Manufacturing Cranfield University,School of Aerospace,UK – sequence: 4 givenname: Antonios surname: Tsourdos fullname: Tsourdos, Antonios email: a.tsourdos@cranfield.ac.uk organization: Transport and Manufacturing Cranfield University,School of Aerospace,UK |
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| Snippet | Urban air mobility provides an enabling technology towards on-demand and flexible operations for passenger and cargo transportation in metropolitan areas.... |
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| SubjectTerms | Energy efficiency Energy-efficient path Pollution Privacy Quality of service Re-planning RRT Transportation Uncertain conditions Urban air mobility Urban areas Visualization |
| Title | An RRT Based Method for Dynamic Mission Balancing for Urban Air Mobility Under Uncertain Operational Conditions |
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