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Hauptverfasser: Luo, Guiyang, Li, Jinglin, Zhang, Qixun, Feng, Zhiyong, Yuan, Quan, Lin, Yijing, Zhang, Hui, Cheng, Nan, Zhang, Ping
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.08579
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author Luo, Guiyang
Li, Jinglin
Zhang, Qixun
Feng, Zhiyong
Yuan, Quan
Lin, Yijing
Zhang, Hui
Cheng, Nan
Zhang, Ping
author_facet Luo, Guiyang
Li, Jinglin
Zhang, Qixun
Feng, Zhiyong
Yuan, Quan
Lin, Yijing
Zhang, Hui
Cheng, Nan
Zhang, Ping
contents The low-altitude economy (LAE) is rapidly advancing toward intelligence, connectivity, and coordination, bringing new challenges in dynamic airspace management, unmanned aerial vehicle (UAV) operation, and security management. Existing systems remain fragmented and lack effective coordination. To bridge these gaps, we propose UTICN (Ubiquitous and Trusted Intelligent Cellular-native Network) for LAE, a unified cellular-native architecture that integrates multi-domain sensing, high-precision positioning, intelligent aircraft-to-everything communication, dynamic airspace management, and UAV operational services. UTICN introduces key technologies such as integrated sensing and communication (ISAC), passive and active positioning, intelligent machine communication, swarm coordination, and control-data decoupled management frameworks. We demonstrate UTICN's feasibility through two use cases, i.e., a city-level LAE management platform and a multi-frequency collaborative ISAC system. This work provides a fundamental reference for building a unified operational foundation and airspace management architecture for the LAE.
format Preprint
id arxiv_https___arxiv_org_abs_2506_08579
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Toward Low-Altitude Airspace Management and UAV Operations: Requirements, Architecture and Enabling Technologies
Luo, Guiyang
Li, Jinglin
Zhang, Qixun
Feng, Zhiyong
Yuan, Quan
Lin, Yijing
Zhang, Hui
Cheng, Nan
Zhang, Ping
Systems and Control
The low-altitude economy (LAE) is rapidly advancing toward intelligence, connectivity, and coordination, bringing new challenges in dynamic airspace management, unmanned aerial vehicle (UAV) operation, and security management. Existing systems remain fragmented and lack effective coordination. To bridge these gaps, we propose UTICN (Ubiquitous and Trusted Intelligent Cellular-native Network) for LAE, a unified cellular-native architecture that integrates multi-domain sensing, high-precision positioning, intelligent aircraft-to-everything communication, dynamic airspace management, and UAV operational services. UTICN introduces key technologies such as integrated sensing and communication (ISAC), passive and active positioning, intelligent machine communication, swarm coordination, and control-data decoupled management frameworks. We demonstrate UTICN's feasibility through two use cases, i.e., a city-level LAE management platform and a multi-frequency collaborative ISAC system. This work provides a fundamental reference for building a unified operational foundation and airspace management architecture for the LAE.
title Toward Low-Altitude Airspace Management and UAV Operations: Requirements, Architecture and Enabling Technologies
topic Systems and Control
url https://arxiv.org/abs/2506.08579