Low-Altitude Sensing Model: Analysis Leveraging
Based on this, an innovative 3D sensing model for ISAC single base stations was proposed, defining the sensing boundaries and
Joint Communication and Positioning of UAV with Multiple Base
It delves into UAV communication and location collaboration technology oriented towards base station sensing, with a primary focus on the communication-sensing issues of
Physical-Environment-Map-Aided 3-D Deployment
Abstract: This article considers deploying a dual-functional unmanned aerial vehicle (UAV) as both an aerial data collector and aerial anchor node (AN) to assist the ground base stations in
3D Deployment of Multiple UAV-Mounted Base Stations for UAV Communications
This article investigates a communication system assisted by multiple UAV-mounted base stations (BSs), aiming to minimize the number of required UAVs and to improve the coverage rate by...
The First Experimental Validation of a
In this paper, we investigated the observation and performance for millimeter-level ground deformation detection based on
3D Deployment of Multiple UAV-Mounted Base Stations for UAV
This article investigates a communication system assisted by multiple UAV-mounted base stations (BSs), aiming to minimize the number of required UAVs and to improve the coverage rate by...
Low-Altitude Sensing Model: Analysis Leveraging ISAC in Real
Based on this, an innovative 3D sensing model for ISAC single base stations was proposed, defining the sensing boundaries and providing a foundation for designing the key
3D deployment of UAV-mounted base stations for
Recently, unmanned aerial vehicles (UAVs) have been reported a lot as aerial base stations (BSs) to assist wireless communication in Internet of Things (IoT). However, most
Efficient three‐dimensional deployment of multiple unmanned
Our presented method enables the ground base station (GBS) to collaborate with many UAVs while optimizing the number of served users and considering the influence of
3-D Positioning and Resource Allocation for Multi-UAV Base
Abstract: In this paper, we propose to deploy multiple unmanned aerial vehicle (UAV) mounted base stations to serve ground users in outdoor environments with obstacles.
The First Experimental Validation of a Communication Base Station
In this paper, we investigated the observation and performance for millimeter-level ground deformation detection based on the CBS with Differential InSAR (D-InSAR) for the first
3-D Positioning and Resource Allocation for Multi-UAV Base
In this section, we provide simulation results to evaluate the performance of the proposed joint 3-D positioning and resource allocation scheme for multi-UAV communication networks aided by
Efficient three‐dimensional deployment of multiple
Our presented method enables the ground base station (GBS) to collaborate with many UAVs while optimizing the number of served
Integrated Sensing and Communication enabled Multiple
Contradiction between the signals of sensing and communication: There is a contradiction between the random communication signal and the structural sensing signal, which brings
Joint Communication and Positioning of UAV with Multiple Base Stations
It delves into UAV communication and location collaboration technology oriented towards base station sensing, with a primary focus on the communication-sensing issues of
3-D Positioning and Resource Allocation for Multi-UAV Base Stations
Abstract: In this paper, we propose to deploy multiple unmanned aerial vehicle (UAV) mounted base stations to serve ground users in outdoor environments with obstacles.