Relay Selection for UAV-Assisted Urban Vehicular Ad Hoc Networks

Yixin He; Daosen Zhai; Yi Jiang; Ruonan Zhang

doi:10.1109/LWC.2020.2991037

Relay Selection for UAV-Assisted Urban Vehicular Ad Hoc Networks

Yixin He, Daosen Zhai, Yi Jiang, Ruonan Zhang

School of Electronics and Information

Research output: Contribution to journal › Article › peer-review

77 Scopus citations

Abstract

This letter investigates the relay selection problem for the air-to-ground vehicular ad hoc networks (A2G VANETs). Specifically, we use unmanned aerial vehicle (UAV) to enhance VANETs communications and network performance. For the considered network, we calculate the state transition probability (STP) of communication interruption and the transmission consumption (TC) including energy consumption and delay consumption. Afterward, we formulate the relay selection problem as a multi-objective optimization problem by jointly considering the STP and the TC. For tackling this hard problem, we simplify the primal problem by setting the STP threshold and devise a relay selection algorithm with low complexity through Q-learning. Finally, the simulation results exhibit the performance improvement of our algorithm against other schemes in terms of delivery ratio, delivery latency, and signaling overhead.

Original language	English
Article number	9079922
Pages (from-to)	1379-1383
Number of pages	5
Journal	IEEE Wireless Communications Letters
Volume	9
Issue number	9
DOIs	https://doi.org/10.1109/LWC.2020.2991037
State	Published - Sep 2020

Keywords

Air-to-ground vehicular ad hoc networks
relay selection
state transition probability
transmission consumption

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/LWC.2020.2991037

Cite this

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title = "Relay Selection for UAV-Assisted Urban Vehicular Ad Hoc Networks",

abstract = "This letter investigates the relay selection problem for the air-to-ground vehicular ad hoc networks (A2G VANETs). Specifically, we use unmanned aerial vehicle (UAV) to enhance VANETs communications and network performance. For the considered network, we calculate the state transition probability (STP) of communication interruption and the transmission consumption (TC) including energy consumption and delay consumption. Afterward, we formulate the relay selection problem as a multi-objective optimization problem by jointly considering the STP and the TC. For tackling this hard problem, we simplify the primal problem by setting the STP threshold and devise a relay selection algorithm with low complexity through Q-learning. Finally, the simulation results exhibit the performance improvement of our algorithm against other schemes in terms of delivery ratio, delivery latency, and signaling overhead.",

keywords = "Air-to-ground vehicular ad hoc networks, relay selection, state transition probability, transmission consumption",

author = "Yixin He and Daosen Zhai and Yi Jiang and Ruonan Zhang",

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AU - He, Yixin

AU - Zhai, Daosen

AU - Jiang, Yi

AU - Zhang, Ruonan

PY - 2020/9

Y1 - 2020/9

N2 - This letter investigates the relay selection problem for the air-to-ground vehicular ad hoc networks (A2G VANETs). Specifically, we use unmanned aerial vehicle (UAV) to enhance VANETs communications and network performance. For the considered network, we calculate the state transition probability (STP) of communication interruption and the transmission consumption (TC) including energy consumption and delay consumption. Afterward, we formulate the relay selection problem as a multi-objective optimization problem by jointly considering the STP and the TC. For tackling this hard problem, we simplify the primal problem by setting the STP threshold and devise a relay selection algorithm with low complexity through Q-learning. Finally, the simulation results exhibit the performance improvement of our algorithm against other schemes in terms of delivery ratio, delivery latency, and signaling overhead.

AB - This letter investigates the relay selection problem for the air-to-ground vehicular ad hoc networks (A2G VANETs). Specifically, we use unmanned aerial vehicle (UAV) to enhance VANETs communications and network performance. For the considered network, we calculate the state transition probability (STP) of communication interruption and the transmission consumption (TC) including energy consumption and delay consumption. Afterward, we formulate the relay selection problem as a multi-objective optimization problem by jointly considering the STP and the TC. For tackling this hard problem, we simplify the primal problem by setting the STP threshold and devise a relay selection algorithm with low complexity through Q-learning. Finally, the simulation results exhibit the performance improvement of our algorithm against other schemes in terms of delivery ratio, delivery latency, and signaling overhead.

KW - Air-to-ground vehicular ad hoc networks

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KW - state transition probability

KW - transmission consumption

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Relay Selection for UAV-Assisted Urban Vehicular Ad Hoc Networks

Abstract

Keywords

UN SDGs

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