Requirements and Technologies Towards UAM: Communication, Navigation, and Surveillance
Urban air mobility (UAM) is a concept for creating an airborne transportation system that operates in urban settings with an on-board pilot and/or remote pilot in command (RPIC), or with a fully autonomous architecture. Although the passenger traffic will be mostly in and near urban environments, UA...
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| creator | Erturk, M. Cenk Hosseini, Nozhan Jamal, Hosseinali Sahin, Alphan Matolak, David Haque, Jamal |
| description | Urban air mobility (UAM) is a concept for creating an airborne transportation
system that operates in urban settings with an on-board pilot and/or remote
pilot in command (RPIC), or with a fully autonomous architecture. Although the
passenger traffic will be mostly in and near urban environments, UAM is also
being considered for air cargo, perhaps between cities. Such capability is
pushing the current communication, navigation and surveillance (CNS) / air
traffic management (ATM) systems that were not designed to support these types
of aviation scenarios. The UAM aircraft will be operating in a congested
environment, where CNS and ATM systems need to provide integrity, robustness,
security, and very high availability for safety of UAM operations while
evolving. As UAM is under research by academia and government agencies, the
industry is driving technology towards aircraft prototypes. Critical UAM
requirements are derived from command and control (C2) (particularly for RPIC
scenario), data connectivity for passengers and flight systems, unmanned
aircraft systems (UAS) to UAS communication to avoid collision, and data
exchange for positioning and surveillance. In this paper, we study connectivity
challenges and present requirements towards a robust UAM architecture through
its concept of operations. In addition, we review the existing/potential CNS
technologies towards UAM, i.e., 3rd generation partnership project (3GPP) fifth
generation (5G) new radio (NR), navigation detect & avoid (DAA), and satellite
systems and present conclusions on a future road-map for UAM CNS architecture. |
| doi_str_mv | 10.48550/arxiv.2004.12555 |
| format | Article |
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system that operates in urban settings with an on-board pilot and/or remote
pilot in command (RPIC), or with a fully autonomous architecture. Although the
passenger traffic will be mostly in and near urban environments, UAM is also
being considered for air cargo, perhaps between cities. Such capability is
pushing the current communication, navigation and surveillance (CNS) / air
traffic management (ATM) systems that were not designed to support these types
of aviation scenarios. The UAM aircraft will be operating in a congested
environment, where CNS and ATM systems need to provide integrity, robustness,
security, and very high availability for safety of UAM operations while
evolving. As UAM is under research by academia and government agencies, the
industry is driving technology towards aircraft prototypes. Critical UAM
requirements are derived from command and control (C2) (particularly for RPIC
scenario), data connectivity for passengers and flight systems, unmanned
aircraft systems (UAS) to UAS communication to avoid collision, and data
exchange for positioning and surveillance. In this paper, we study connectivity
challenges and present requirements towards a robust UAM architecture through
its concept of operations. In addition, we review the existing/potential CNS
technologies towards UAM, i.e., 3rd generation partnership project (3GPP) fifth
generation (5G) new radio (NR), navigation detect & avoid (DAA), and satellite
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system that operates in urban settings with an on-board pilot and/or remote
pilot in command (RPIC), or with a fully autonomous architecture. Although the
passenger traffic will be mostly in and near urban environments, UAM is also
being considered for air cargo, perhaps between cities. Such capability is
pushing the current communication, navigation and surveillance (CNS) / air
traffic management (ATM) systems that were not designed to support these types
of aviation scenarios. The UAM aircraft will be operating in a congested
environment, where CNS and ATM systems need to provide integrity, robustness,
security, and very high availability for safety of UAM operations while
evolving. As UAM is under research by academia and government agencies, the
industry is driving technology towards aircraft prototypes. Critical UAM
requirements are derived from command and control (C2) (particularly for RPIC
scenario), data connectivity for passengers and flight systems, unmanned
aircraft systems (UAS) to UAS communication to avoid collision, and data
exchange for positioning and surveillance. In this paper, we study connectivity
challenges and present requirements towards a robust UAM architecture through
its concept of operations. In addition, we review the existing/potential CNS
technologies towards UAM, i.e., 3rd generation partnership project (3GPP) fifth
generation (5G) new radio (NR), navigation detect & avoid (DAA), and satellite
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system that operates in urban settings with an on-board pilot and/or remote
pilot in command (RPIC), or with a fully autonomous architecture. Although the
passenger traffic will be mostly in and near urban environments, UAM is also
being considered for air cargo, perhaps between cities. Such capability is
pushing the current communication, navigation and surveillance (CNS) / air
traffic management (ATM) systems that were not designed to support these types
of aviation scenarios. The UAM aircraft will be operating in a congested
environment, where CNS and ATM systems need to provide integrity, robustness,
security, and very high availability for safety of UAM operations while
evolving. As UAM is under research by academia and government agencies, the
industry is driving technology towards aircraft prototypes. Critical UAM
requirements are derived from command and control (C2) (particularly for RPIC
scenario), data connectivity for passengers and flight systems, unmanned
aircraft systems (UAS) to UAS communication to avoid collision, and data
exchange for positioning and surveillance. In this paper, we study connectivity
challenges and present requirements towards a robust UAM architecture through
its concept of operations. In addition, we review the existing/potential CNS
technologies towards UAM, i.e., 3rd generation partnership project (3GPP) fifth
generation (5G) new radio (NR), navigation detect & avoid (DAA), and satellite
systems and present conclusions on a future road-map for UAM CNS architecture.</abstract><doi>10.48550/arxiv.2004.12555</doi><oa>free_for_read</oa></addata></record> |
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| title | Requirements and Technologies Towards UAM: Communication, Navigation, and Surveillance |
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