Long-Range and Broadband Aerial Communication Using Directional Antennas (ACDA): Design and Implementation

Chen, Jienan; Xie, Junfei; Gu, Yixin; Li, Songwei; Fu, Shengli; Wan, Yan; Lu, Kejie

doi:10.1109/tvt.2017.2723802

Cited by 53 publications

(23 citation statements)

References 26 publications

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“…Blockage probability according to vehicle density and speed is shown from the model. In [32], authors show design and implementation of a long-range and broadband aerial communication system with directional antennas (ACDA), which enables unmanned aerial vehicle (UAV) to extend communication range, increase throughput, and reduce interference. In the testbed, the ACDA achieves 48 Mbps throughput at a distance of 300 m and 2 Mbps at 5000 m, promising long-distance Wi-Fi aerial communication.…”

Section: Related Workmentioning

confidence: 99%

MC‐GiV2V: Multichannel Allocation in mmWave‐Based Vehicular Ad Hoc Networks

Kim

2018

Wireless Communications and Mobile Computing

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During last several years, mobile communications using mmWave spectrum have been intensively researched for 5G wireless networks. Now the mmWave wireless technologies are evolved into direct device-to-device communications for a single or multihop communication via Giga-bit links. Vehicular ad hoc networks (VANETs) are one of the most attractive areas to apply the direct mmWave communications. In this paper, we propose a Giga-V2V (GiV2V) network, in which vehicles query and deliver high quality video and sensor data of smart and self-driving cars using mmWave communications instead of current dedicated short-range communications (DSRC). In the GiV2V networks, vehicles probably form a grid topology along lanes of a road, which leads to align mmWave beams of the vehicles and cause mutual interference among them. As channel diversity can resolve effectively the interference between mmWave beams, we propose several heuristic algorithms for channel assignment of each beam in the GiV2V networks. We investigate the proposed algorithms using simulation and compare performance with well-known metaheuristic algorithms for this NP-Hard problem.

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Section: Related Workmentioning

confidence: 99%

MC‐GiV2V: Multichannel Allocation in mmWave‐Based Vehicular Ad Hoc Networks

Kim

2018

Wireless Communications and Mobile Computing

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“…In the past few years, we developed several solutions using UAV-carried directional antennas to realise the on-demand broadband and long-distance UAV-to-UAV communication (see Fig. 1), called the aerial communication using directional antennas (ACDA) system [1,2,[12][13][14]. When the ground devices are of non-line of sight (NLOS), the UAVs dispatched to the air serve as relays to establish communication between the ground devices and solve the NLOS challenge.…”

Section: Introductionmentioning

confidence: 99%

Design and implementation of aerial communication using directional antennas: learning control in unknown communication environments

Liu

et al. 2019

IET Control Theory & Appl

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“…A received signal strength indicator with decentralized initial algorithm is implementing to establish the connection between the unmanned aerial vehicles. The ACDA framework is used to address routing, protocol and other networking related issues for aerial networks [6]. The Energy -Aware cooperative content distribution over wireless networks with mobile to mobile cooperation is assumed as numbers of mobile terminals (MTs) are connected close to each other.…”

Section: Introductionmentioning

confidence: 99%

Implementation of Software Controlled Radio for Long Range Communication with High Data Rate and Optimal Capacity

Kumar¹,

Jaya²,

Swaminathan³

2019

IJITEE

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In the recent past, the software controlled radio (SCR) plays major role in wireless communication for long range communication. The wireless communication based SCR has communicated the information for a short distance due to the low data rate and poor capacity of frequency modulation scheme. The OFDM technology has adapted the SCR for providing elimination of error due to the communication of information for long range. The synchronization error is highly reduced by applying the matched filter between transmitter and receiver antennas. The distributed antenna system is implemented with OFDM SCR communication for information transfer through the wireless channels. The AWGN, Rayleigh and Rician fading channels are used for long range communication of SCR information. The number of base stations (BS) is reduced by finding the energy efficient transmission using SCR for long range communication. The heuristic approach is used for improving the capacity of the SCR system in terms of Mbps. The Inter Symbol Interference (ISI) and Inter Carrier Interference (ICI) are reduced by applying the cyclic prefix of OFDM by applying an Advanced Per Subcarrier Channel Equalizer (APSCE). The equalizer technique is used to provide reduced Bit Error Rate (BER) with improved Signal to Noise Ratio (SNR)

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Long-Range and Broadband Aerial Communication Using Directional Antennas (ACDA): Design and Implementation

Cited by 53 publications

References 26 publications

MC‐GiV2V: Multichannel Allocation in mmWave‐Based Vehicular Ad Hoc Networks

MC‐GiV2V: Multichannel Allocation in mmWave‐Based Vehicular Ad Hoc Networks

Design and implementation of aerial communication using directional antennas: learning control in unknown communication environments

Implementation of Software Controlled Radio for Long Range Communication with High Data Rate and Optimal Capacity

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