Unmanned communication base station wind power design

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Can a UAV-enabled communication system be made possible under stochastic wind disturbance?

an be made possible in UAV-enabled communication systems under the stochastic wind disturbance.Motivated by the above, we consider a UAV-enabled downlink communication system subject to the stochastic wind in an urban area, and propose an energy-

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Is wireless communication with unmanned aerial vehicles a promising technology?

Wireless communication with unmanned aerial vehicles (UAVs) is a promising technology for future communication systems. In this paper, assuming that the UAV flies horizontally with a fixed altitude, we study energy-efficient UAV communication with a

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How does wind affect a UAV?

effect, the authors of proposed an energy-saving path design of a UAV to utilize the wind. In , the authors described the wind effect on a UAV by the horizontal angle deviation between its ground velocity and the wind direction, and minimized the propulsion energy consumption subject to

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Why is oboa design a good choice for a windless UAV?

ction, and can achieve a higher EE compared to the trajectory design in a windless environment. Furthermore, with online adaptive optimization, the proposed OBOA design makes the UAV adapt better to the changeable real-time wind by dynamically adjusting its instantaneous

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How can a UAV adapt to a changeable real-time wind?

zation.Online phase: During the flight, to make the UAV adapt to the changeable real-time wind6From , the proposed algorithm in the offline phase can be executed on a ground control center, w ich has enough computing capability and can exchange information and control signal to the

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Why does a UAV-BS need a ground station?

This is because, in both deployment scenarios, the UAV-BS still has to move from one hovering position or one LS to another which also requires communication and control from the ground station. In addition, we assume that the UAV-BS always maintains some amount of energy to reach the required LS.

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Energy Consumption Optimization for UAV Base Stations With

In this letter, an energy-efficient algorithm for positioning of unmanned aerial vehicle-based base stations (UAV-BSs) is presented. The objective is to reduce the propulsion power consumption

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Energy Consumption Optimization for UAV Base Stations

In real-world outdoor applications of the UAV-BSs, a wind is always present and a mutual relation of directions of the wind and of the UAV-BS’s movement influence notably the propulsion

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Energy-Efﬁcient UAV Communications in the Presence of

In the following sections, we describe the two phases of the proposed OBOA design, including the offline design based on the given wind distribution and the OBOA design with real-time wind

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Coverage and throughput analysis of an energy efficient UAV

The considerable energy consumption overhead involved in flying or hovering UAVs makes them less appealing for green wireless communications. Therefore, in this work, we

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Energy-Efficient UAV Communications in the Presence of Wind:

In this paper, we first derive a three-dimensional (3D) generalised propulsion energy consumption model (GPECM) for rotary-wing UAVs under the consideration of stochastic wind

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What are the wind power algorithms for communication base

In this paper, an open dataset consisting of data collected from on-site renewable energy stations, including six wind farms and eight solar stations in China, is provided. Why is accurate solar

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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

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