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Low-altitude intelligent transportation: System architecture
This study provides a systematic framework and technical guidelines for the future development of low-altitude intelligent transportation, supporting continuous innovation, and
Toward Practical Low-Altitude Economy Networking:
Due to the high mobility of aerial vehicles and weather challenges, constructing the low-altitude wireless network presents significant challenges in standardization, technological
Chongqing''s Action Plan for Low-Altitude Airspace Management
Specifically, it seeks to establish a new model for integrated military, civil, and local management of low-altitude airspace, develop infrastructure systems based on BeiDou
Low-altitude economy is coming: How to develop new-type
Power system capacity planning for LAE: To support the growth of the LAE umption to consider the electricity demands arising from various LAE activities. These include the power
CMES | Free Full-Text | Low Altitude Satellite
This paper discusses the significance and prospects of low altitude small satellite aerial vehicles to ensure smooth aerial-ground communications
From Ground to Sky: Architectures, Applications, and
Abstract—In this article, we introduce a novel low-altitude wireless network (LAWN), which is a reconfigurable, three-dimensional (3D) layered architecture.
Base Station Deployment Scheme for Low-Altitude
Integrated sensing and communication (ISAC) is a key technology of future fifth-generation-advanced (5G-A) and sixth-generation (6G) mobile communication systems. The low-altitude
A Comprehensive Guide to Wind Farm Construction
Wind farm construction involves designing, building, and operationalizing a series of wind turbines to capture wind energy and convert
ZTE''s Integrated Sensing and Communication
Leveraging the networking characteristics of base stations, ZTE provides high-speed and reliable communication networks with stable,
[2412.04074] Integrated Sensing and Communications for Low-Altitude
To enable efficient learning in episode tasks, we develop a hierarchical experience replay mechanism, where the gist is to employ all experiences generated within each episode
UAV-BS Site Planning Based on Circular Coverage
Therefore, it has become an urgent problem to reasonably plan the location of UAV Base Stations (UAV-BSs), reduce communication power
Cell Coverage Analysis of a Low Altitude Aerial Base Station in
In this paper, cell coverage of a low altitude UAV is investigated for supporting such networks.
ZTE''s Integrated Sensing and Communication Solution Helps Low-altitude
Leveraging the networking characteristics of base stations, ZTE provides high-speed and reliable communication networks with stable, continuous, seamless coverage for
From Ground to Sky: Architectures, Applications, and
At the same time, the civil aviation administration of China (CAAC) made advanced air-mobility and "low-altitude economy" a national plan, charting a phased roadmap for
A Low-Altitude Network Base Station Planning Model Based on
To address these challenges, we propose a novel low-altitude network base station planning model based on the Proximal Policy Optimization (PPO) algorithm. Our approach involves
Cell Coverage Analysis of a Low Altitude Aerial Base Station
Abstract—The use of Unmanned Aerial Vehicles (UAVs) as Aerial Base Station (ABSs) is emerging as an effective technique to provide high capacity wireless networks to ground
P-1241 Low Altitude Radio Communication System Towers for
Special construction challenges include complex construction sequencing and phasing subject to: 1) availability of heavy lift helicopters during the construction period; 2)
Low-Altitude Unmanned Aerial Vehicles-Based Internet of
Low-Altitude Unmanned Aerial Vehicles-Based Internet of Things Services: Comprehensive Survey and Future Perspectives Naser Hossein Motlagh, Student Member, IEEE, Tarik Taleb,
Generative AI-enabled Wireless Communications for Robust
Low-Altitude Communication: LAENets can address the limitations of traditional communication systems in remote and rural areas. For instance, Telia Company has deployed drones
High-Altitude Platform Stations
Apart from the difficulties related to the construction and operation of the platforms, operating a communications payload in the stratosphere is a
(PDF) LoRa-Based Low-Cost Nanosatellite for Emerging Communication
At present, the use of LoRa modulation in satellite radio communications and the construction of a CubeSat constellation for the satellite Internet of Things based on LoRa
Cell Coverage Analysis of a Low Altitude Aerial Base Station in Wind
In this paper, cell coverage of a low altitude UAV is investigated for supporting such networks.
Integrated Sensing and Communication for Low
The aircraft-assisted sensing and communication functionalities for LAE are further reviewed, including terrestrial and non-terrestrial target
Iterative construction of low-altitude UAV air route
It proposes the future trend of China''s development of low-altitude air route networks. Research on low-altitude air routes at home and abroad focus on the construction of the "road".
[2412.04074] Integrated Sensing and Communications for Low
To enable efficient learning in episode tasks, we develop a hierarchical experience replay mechanism, where the gist is to employ all experiences generated within each episode
Integrated Sensing and Communication for Low Altitude Economy
The aircraft-assisted sensing and communication functionalities for LAE are further reviewed, including terrestrial and non-terrestrial target sensing, ubiquitous coverage, relaying,
Shenzhen Unveils Low-Altitude Infrastructure Plan
On 5 November, Shenzhen''s Development and Reform Commission, Industry and Information Technology Bureau and Transport Bureau jointly issued a Low-altitude Infrastructure High
Cell_Coverage_Analysis_by_Low_Altitude_Aerial_Base_Station_in_Wind
Abstract—The use of Unmanned Aerial Vehicles (UAVs) as Aerial Base Station (ABSs) is emerging as an effective technique to provide high capacity wireless networks to ground
FAQs 6
What is a low-altitude network base station planning model?
To address these challenges, we propose a novel low-altitude network base station planning model based on the Proximal Policy Optimization (PPO) algorithm. Our approach involves calculating the low-altitude coverage capabilities of different base station types using ray tracing techniques.
Why do we need a low-altitude wireless network?
Due to the high mobility of aerial vehicles and weather challenges, constructing the low-altitude wireless network presents significant challenges in standardization, technological innovation, testbeds, and practical deployments.
Why do low-altitude transportation systems need interconnected networks?
In low-altitude transportation systems, connecting aircraft, infrastructure, monitoring devices, and user terminals into a highly interconnected network facilitates real-time sharing and processing of information. This ensures flight safety and makes system operations more efficient and secure .
How can a low-altitude transportation system be a sustainable CPS?
Integrating advanced technologies such as artificial intelligence (AI), cloud computing, the Internet of Things, and 6G networks with low-altitude transportation systems can create highly intelligent, autonomous, interconnected, and sustainable CPS, such as LAIT [32, 33].
Can cellular networks support low-altitude unmanned aerial vehicles?
Abstract: The rapid development of low-altitude unmanned aerial vehicles (UAVs) has led to significant communication demands. Leveraging cellular networks to support low-altitude UAV communication offers cost advantages. However, existing cellular networks suffer from inadequate aerial coverage and the complexity of urban terrestrial channels.
Why do we need communication base stations?
Communication base stations or other auxiliary facilities are needed to improve the accuracy of perception and positioning. For low-altitude navigation, high-frequency and high-density low-altitude activities require a more digital and refined aircraft navigation mode.
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