Validation of Large-Scale Propagation Characteristics for UAVs within Urban Environment

Bucur, Madalina; Sørensen, Troels B.; Amorim, Rafhael; Lopez, Melisa; Kovács, István Z.; Mogensen, Preben

doi:10.1109/vtcfall.2019.8891422

Cited by 13 publications

(4 citation statements)

References 7 publications

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“…Regarding A2G channel measurements, the authors of [179], [181] derive a model with pathloss exponent and shadow fading in urban scenarios for the altitudes up to 40 m. The results show that the paths between the UAV and the BSs become more clear as the altitude of the UAV increases and the shadow fading is uncorrelated to the altitude. They further extend these studies by evaluating the feasibility of ray tracing models to predict the variations in the shadow fading [180].…”

Section: A Direct Air-to-ground Communicationmentioning

confidence: 99%

“…Network Services eMBB-baased A2G network design and performance evaluation [170]- [173] Feasibility of MBB for A2G connectivity of helicopters/eVTOLs [174] Evaluation of (e)MBB for CNPC via UAV field measurements [5], [171], [175]- [178] A2G channel measurements and modeling for UAV CNPC [179]- [181] Evaluation of MBB for UAV-based video streaming [182], [183] Suitability of MBB for UTM-UAV connectivity [184], [185] uRLLC Multi-operator connectivity to improve communication reliability [186], [187] Coordinated Multipoint (CoMP) to improve aerial coverage [188], [189] Technology Network Softwarization SDN-based networking framework to support UAVs [190], [191] Performance evaluation of network slicing for UAVs [185] mmWave Beamforming and beamtracking to improve UAV A2G channel quality [192], [193] MEC MEC for end-to-end latency optimization [194], [195] MEC for the optimization of energy consumption of UAVs [195], [196] Issues and Challenges…”

Section: Cellular Domain Subject Referencesmentioning

confidence: 99%

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A Survey of Wireless Networks for Future Aerial COMmunications (FACOM)

Baltaci,

Dinc,

Ozger

et al. 2021

Preprint

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Electrification turned over a new leaf in aviation by introducing new types of aerial vehicles along with new means of transportation. Addressing a plethora of use cases, drones are gaining attention in the industry and increasingly appear in the sky. Emerging concepts of flying taxi enable passengers to be transported over several tens of kilometers. Therefore, unmanned traffic management systems are under development to cope with the complexity of future airspace, thereby resulting in unprecedented communication needs. Moreover, the long-term increase in the number of commercial airplanes pushes the limits of voice-oriented communications, and future options such as single-pilot operations demand robust connectivity. In this survey, we provide a comprehensive review and vision for enabling the connectivity applications of aerial vehicles utilizing current and future communication technologies. We begin by categorizing the connectivity use cases per aerial vehicle and analyzing their connectivity requirements. By reviewing more than 500 related studies, we aim for a comprehensive approach to cover wireless communication technologies, and provide an overview of recent findings from the literature toward the possibilities and challenges of employing the wireless communication standards. After analyzing the proposed network architectures, we list the open-source testbed platforms to facilitate future investigations by researchers. This study helped us observe that while numerous works focused on cellular technologies to enable connectivity for aerial platforms, a single wireless technology is not sufficient to meet the stringent connectivity demands of the aerial use cases, especially for the piloting operations. We identified the need of further investigations on multi-technology heterogeneous network architectures to enable robust and real-time connectivity in the sky. Future works should consider suitable technology combinations to develop unified aerial networks that can meet the diverse quality of service demands of the aerial use cases.

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Section: A Direct Air-to-ground Communicationmentioning

confidence: 99%

Section: Cellular Domain Subject Referencesmentioning

confidence: 99%

A Survey of Wireless Networks for Future Aerial COMmunications (FACOM)

Baltaci,

Dinc,

Ozger

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…As communication traffic increases, the use of small autonomous unmanned aerial vehicles (UAVs) is attracting attention [12]. Experimental evaluation reports that when a UAV flying over buildings communicates with base stations using microwaves, the propagation loss approaches the square of the transmitted distance in proportion to the flight altitude [13]. According to the conventional propagation model, the propagation loss increases in proportion to the 3rd-4th power of the transmitted distance in an outdoor environment, assuming it is an urban area [14].…”

Section: Introductionmentioning

confidence: 99%

Novel Unmanned Aerial Vehicle-Based Line-of-Sight MIMO Configuration Independent of Transmitted Distance Using Millimeter Wave

et al. 2020

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Recently, the millimeter-wave band has been used in outdoor wireless communications to improve the frequency utilization efficiency. In this study, we propose a method to realize line-of-sight multiple-input multiple-output (LOS-MIMO) transmission independent of the transmitted distance using a two-dimensional (2-D) fixed antenna element arrangement, assuming millimeter-wave-band communication by small autonomous unmanned aerial vehicles. In conventional LOS-MIMO transmission with uniformly spaced antenna elements, the theoretical upper bound of the channel capacity is obtained, which decreases at a certain transmitted distance. Therefore, we focus on the fact that the propagation channel characteristics in pure LOS are geometrically determined by the transmitted distance, and consider the optimization of the arrangement of antenna elements. The element arrangement is fixed without using antenna selection from the viewpoint of system simplification. In addition, from the viewpoint of array size, we study the optimization corresponding to a 2-D element arrangement. The proposed method approximates the optimal arrangement from a vast number of 2-D element arrangements using a genetic algorithm. We evaluate the channel capacity characteristics of the proposed method by computer simulation and show that the characteristic degradation due to change in the transmitted distance in conventional LOS-MIMO transmission is improved. In addition, we evaluate a 4 × 4 MIMO transmission in an outdoor environment. The 4 × 4 MIMO propagation channel is also measured by an actual measurement equipment in the 66-GHz band and it is shown that the measured and calculated results agree with each other. INDEX TERMS Millimeter wave, unmanned aerial vehicle, line-of-sight multiple-input multiple-output, non-uniform antenna array, genetic algorithm.

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“…Only a few studies have targeted A2G propagation in actual urban areas, probably due to the inherent difficulties in getting authorizations to fly on densely populated zones and/or close them to the public during measurements [13]- [17]. In some cases, the investigation has been limited to air-to-base-station propagation [9], [16], [17], which is an interesting but less challenging scenario, compared to communications from the UAV to users at street level. Moreover, in such studies, the analysis is mainly focused on large-scale parameters, such as path-loss, fading statistics, and spatial correlations, and is often limited to UHF or submillimeter-wave frequencies.…”

mentioning

confidence: 99%

An UAV-Based Experimental Setup for Propagation Characterization in Urban Environment

Fuschini

Barbiroli

Vitucci

et al. 2021

IEEE Trans. Instrum. Meas.

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A measurement setup, including millimeter-wave and ultrawideband transceivers mounted on both a customized unmanned aerial vehicle and a ground station and a measurement procedure for full 3-D wireless propagation analysis, is described in this work. The custom-made developed system represents a flexible solution for the characterization of wireless channels and especially of urban propagation, as the drone might be easily located almost anywhere from ground level to the buildings' rooftop and beyond. The double-directional properties of the channel can be achieved by rotating directive antennas at the link ends. Other possible applications in urban contexts include the study of outdoor-to-indoor penetration, line-of-sight to nonline-of-sight transition, 3-D scattering from buildings, and airto-ground channel characterization for drone-assisted wireless communications.

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Validation of Large-Scale Propagation Characteristics for UAVs within Urban Environment

Cited by 13 publications

References 7 publications

A Survey of Wireless Networks for Future Aerial COMmunications (FACOM)

A Survey of Wireless Networks for Future Aerial COMmunications (FACOM)

Novel Unmanned Aerial Vehicle-Based Line-of-Sight MIMO Configuration Independent of Transmitted Distance Using Millimeter Wave

An UAV-Based Experimental Setup for Propagation Characterization in Urban Environment

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