Joint Optimization of Delay and Power Efficiency of Neighbor Discovery in UAV Networks

Hao Fan; Zhe Song; Xuanhe Yang; Tingting Li; Shuai Wang; Chee Yen Leow; Gaofeng Pan; Dusit Niyato

doi:10.1109/TMC.2025.3649859

Joint Optimization of Delay and Power Efficiency of Neighbor Discovery in UAV Networks

Hao Fan
, Zhe Song
, Xuanhe Yang^*
, Tingting Li
, Shuai Wang
, Chee Yen Leow
, Gaofeng Pan
, Dusit Niyato

^*此作品的通讯作者

Beijing Institute of Technology
Southwest University
Universiti Teknologi Malaysia
Nanyang Technological University

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Efficient and reliable neighbor discovery is critical for UAV networks equipped with directional antennas, particularly in dynamic and energy-constrained environments. We present a novel optimization framework that jointly minimizes delay and power consumption using the power-delay product as the optimization metric. The framework is formulated for both synchronous and asynchronous schemes, leveraging upper-bound metrics and a convex-concave procedure to achieve tractable convex formulations. Simulation results validate the theoretical models and show significant improvements over baseline methods. We also conducted real-world experiments, where our method reduced power-delay product by 11% compared to the baseline, though the dual-sector hardware configuration limited the achievable gains. This work provides a comprehensive solution for UAV neighbor discovery, with high potential for scalability in more complex and dynamic environments.

源语言	英语
期刊	IEEE Transactions on Mobile Computing
DOI	https://doi.org/10.1109/TMC.2025.3649859
出版状态	已接受/待刊 - 2026
已对外发布	是

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title = "Joint Optimization of Delay and Power Efficiency of Neighbor Discovery in UAV Networks",

abstract = "Efficient and reliable neighbor discovery is critical for UAV networks equipped with directional antennas, particularly in dynamic and energy-constrained environments. We present a novel optimization framework that jointly minimizes delay and power consumption using the power-delay product as the optimization metric. The framework is formulated for both synchronous and asynchronous schemes, leveraging upper-bound metrics and a convex-concave procedure to achieve tractable convex formulations. Simulation results validate the theoretical models and show significant improvements over baseline methods. We also conducted real-world experiments, where our method reduced power-delay product by 11\% compared to the baseline, though the dual-sector hardware configuration limited the achievable gains. This work provides a comprehensive solution for UAV neighbor discovery, with high potential for scalability in more complex and dynamic environments.",

keywords = "directional antennas, Neighbor discovery, power efficiency, UAV networks",

author = "Hao Fan and Zhe Song and Xuanhe Yang and Tingting Li and Shuai Wang and Leow, \{Chee Yen\} and Gaofeng Pan and Dusit Niyato",

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T1 - Joint Optimization of Delay and Power Efficiency of Neighbor Discovery in UAV Networks

AU - Fan, Hao

AU - Song, Zhe

AU - Yang, Xuanhe

AU - Li, Tingting

AU - Wang, Shuai

AU - Leow, Chee Yen

AU - Pan, Gaofeng

AU - Niyato, Dusit

PY - 2026

Y1 - 2026

N2 - Efficient and reliable neighbor discovery is critical for UAV networks equipped with directional antennas, particularly in dynamic and energy-constrained environments. We present a novel optimization framework that jointly minimizes delay and power consumption using the power-delay product as the optimization metric. The framework is formulated for both synchronous and asynchronous schemes, leveraging upper-bound metrics and a convex-concave procedure to achieve tractable convex formulations. Simulation results validate the theoretical models and show significant improvements over baseline methods. We also conducted real-world experiments, where our method reduced power-delay product by 11% compared to the baseline, though the dual-sector hardware configuration limited the achievable gains. This work provides a comprehensive solution for UAV neighbor discovery, with high potential for scalability in more complex and dynamic environments.

AB - Efficient and reliable neighbor discovery is critical for UAV networks equipped with directional antennas, particularly in dynamic and energy-constrained environments. We present a novel optimization framework that jointly minimizes delay and power consumption using the power-delay product as the optimization metric. The framework is formulated for both synchronous and asynchronous schemes, leveraging upper-bound metrics and a convex-concave procedure to achieve tractable convex formulations. Simulation results validate the theoretical models and show significant improvements over baseline methods. We also conducted real-world experiments, where our method reduced power-delay product by 11% compared to the baseline, though the dual-sector hardware configuration limited the achievable gains. This work provides a comprehensive solution for UAV neighbor discovery, with high potential for scalability in more complex and dynamic environments.

KW - directional antennas

KW - Neighbor discovery

KW - power efficiency

KW - UAV networks

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DO - 10.1109/TMC.2025.3649859

M3 - Article

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SN - 1536-1233

JO - IEEE Transactions on Mobile Computing

JF - IEEE Transactions on Mobile Computing

ER -

Joint Optimization of Delay and Power Efficiency of Neighbor Discovery in UAV Networks

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