Backhaul-Aware Optimization of UAV Base Station Location and Bandwidth Allocation for Profit Maximization

Cicek, Cihan Tugrul; Gültekin, Hakan; Tavlı, Bülent; Yanıkömeroğlu, Halim

doi:10.1109/access.2020.3018861

Cited by 40 publications

(31 citation statements)

References 36 publications

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“…In [14], the achievable rate of the UAV-based mmWave wireless backhaul link is investigated and then, the authors analyzed the minimum cache hit probability to achieve a certain backhaul rate requirement. The UAV-BS location and bandwidth allocation problems is studied in [15] to maximize the throughput without exceeding the backhaul and access capacities. A novel spectrum management architecture for UAV-assisted mmWave networks is suggested in [16] to overcome the problem related to the spatio-temporal distribution of the wireless network traffic.…”

Section: B Literature Review and Motivationmentioning

confidence: 99%

Enabling Long mmWave Aerial Backhaul Links via Fixed-Wing UAVs: Performance and Design

Dabiri¹,

Hasna²,

Khattab³

2022

Preprint

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We propose a fixed wing unmanned aerial vehicles (UAV)-based millimeter wave (mmWave) backhaul links, that is offered as a cost effective and easy to deploy solution, to connect a disaster or remote area to the nearest core network. First, we fully characterize the single relay fixed-wing UAVbased communication system by taking into account the effects of realistic physical parameters, such as the UAV's circular path, critical points of the flight path, heights and positions of obstacles, flight altitude, tracking error, the severity of UAV's vibrations, the real 3D antenna pattern, mmWave atmospheric channel loss, temperature and air pressure. Second, we derive the distribution of the signal-to-noise ratio (SNR) metric, which is based on the sum of a series of Dirac delta functions. Using the SNR distribution, we derive closed-form expressions for the outage probability and the ergodic capacity of the considered system as a function of all system parameters. To provide an acceptable quality of service for longer link lengths, we extend the analytical expressions to a multi-relay system. The accuracy of the closed-form expressions are verified by Monte-Carlo simulations. Finally, by providing sufficient simulation results, we investigate the effects of key channel parameters such as antenna pattern gain and flight path on the performance of the considered system; and we carefully analyze the relationships between these parameters in order to maximize the average channel capacity.

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Section: B Literature Review and Motivationmentioning

confidence: 99%

Enabling Long mmWave Aerial Backhaul Links via Fixed-Wing UAVs: Performance and Design

Dabiri¹,

Hasna²,

Khattab³

2022

Preprint

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“…Simulation results showed that the proposed method can achieve robust performance under the impact of users' mobility. By defining a piecewise-linear function of gained transmission rate that captures the profit of mobile users, the authors in (Cicek et al, 2020) addressed the joint UAV-BS position and bandwidth allocation optimization problem. In order to maximize the total network profit, they proposed a heuristic algorithm to solve the formulated mixed-integer nonlinear programming problem.…”

Section: Unmanned Aerial Vehicle-assisted Iab Networkmentioning

confidence: 99%

A Survey on Integrated Access and Backhaul Networks

2021

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Benefiting from the usage of the high-frequency band, utilizing part of the large available bandwidth for wireless backhauling is feasible without considerable performance sacrifice. In this context, integrated access and backhaul (IAB) has been proposed by the Third Generation Partnership Project (3GPP) to reduce the expenses related to the deployment of fiber optics for 5G and beyond networks. In this paper, first, a brief introduction of IAB based on the 3GPP release is presented. Then, the existing research on IAB networks based on 3GPP specifications and possible non-3GPP research extensions are surveyed. The research on non-3GPP extensions includes the integration of IAB networks with other advanced techniques beyond the currently defined protocol stacks, such as the integration of IAB to cache-enabled, optical communication transport, and non-terrestrial networks. Finally, the challenges and opportunities related to the development and commercialization of the IAB networks are discussed.

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“…The authors also found the optimal 3D location of a UAV-BS to maximize the number of users whose Signal-to-Noise Ratio (SNR) requirement is met. In [14], the authors addressed the problem of finding the 3D location of one UAV and the bandwidth allocation for each user to maximize the profitability of the provided service. Since the problem was modeled as a Mixed Integer Non-Linear Programming problem, to overcome the complexity, a search algorithm was proposed.…”

Section: Introductionmentioning

confidence: 99%

An Efficient 3-D Positioning Approach to Minimize Required UAVs for IoT Network Coverage

Rahimi

Sobouti

Ghanbari

et al. 2022

IEEE Internet Things J.

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Using Unmanned Aerial Vehicles (UAVs) to cover users in wireless networks has increased in recent years. Deploying UAVs in appropriate positions is important to cover users and nodes properly. In this paper, we propose an efficient approach to determine the minimum number of required UAVs and their optimal positions. To this end, we use an iterative algorithm that updates the number of required UAVs at each iteration. To determine the optimal position for the UAVs, we present a mathematical model and solve it accurately after linearizing. One of the inputs of the mathematical model is a set of candidate points for UAV deployments in 2D space. The mathematical model selects a set of points among candidate points and determines the altitude of each UAV. To provide a suitable set of candidate points, we also propose a candidate point selection method: the MergeCells method. The simulation results show that the proposed approach performs better than the 3D P-median approach introduced in the literature. We also compare different candidate point selection approaches, and we show that the MergeCells method outperforms other methods in terms of the number of UAVs, user data rates, and simulation time.

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Backhaul-Aware Optimization of UAV Base Station Location and Bandwidth Allocation for Profit Maximization

Cited by 40 publications

References 36 publications

Enabling Long mmWave Aerial Backhaul Links via Fixed-Wing UAVs: Performance and Design

Enabling Long mmWave Aerial Backhaul Links via Fixed-Wing UAVs: Performance and Design

A Survey on Integrated Access and Backhaul Networks

An Efficient 3-D Positioning Approach to Minimize Required UAVs for IoT Network Coverage

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