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Main Authors: Pu, Cunlai, Wu, Fangrui, Sharafat, Rajput Ramiz, Dai, Guangzhao, Shu, Xiangbo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.09331
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author Pu, Cunlai
Wu, Fangrui
Sharafat, Rajput Ramiz
Dai, Guangzhao
Shu, Xiangbo
author_facet Pu, Cunlai
Wu, Fangrui
Sharafat, Rajput Ramiz
Dai, Guangzhao
Shu, Xiangbo
contents Link prediction in unmanned aerial vehicle (UAV) ad hoc networks (UANETs) aims to predict the potential formation of future links between UAVs. In adversarial environments where the route information of UAVs is unavailable, predicting future links must rely solely on the observed historical topological information of UANETs. However, the highly dynamic and sparse nature of UANET topologies presents substantial challenges in effectively capturing meaningful structural and temporal patterns for accurate link prediction. Most existing link prediction methods focus on temporal dynamics at a single structural scale while neglecting the effects of sparsity, resulting in insufficient information capture and limited applicability to UANETs. In this paper, we propose a multi-scale structural-temporal link prediction model (MUST) for UANETs. Specifically, we first employ graph attention networks (GATs) to capture structural features at multiple levels, including the individual UAV level, the UAV community level, and the overall network level. Then, we use long short-term memory (LSTM) networks to learn the temporal dynamics of these multi-scale structural features. Additionally, we address the impact of sparsity by introducing a sophisticated loss function during model optimization. We validate the performance of MUST using several UANET datasets generated through simulations. Extensive experimental results demonstrate that MUST achieves state-of-the-art link prediction performance in highly dynamic and sparse UANETs.
format Preprint
id arxiv_https___arxiv_org_abs_2505_09331
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MUST: Multi-Scale Structural-Temporal Link Prediction Model for UAV Ad Hoc Networks
Pu, Cunlai
Wu, Fangrui
Sharafat, Rajput Ramiz
Dai, Guangzhao
Shu, Xiangbo
Machine Learning
Link prediction in unmanned aerial vehicle (UAV) ad hoc networks (UANETs) aims to predict the potential formation of future links between UAVs. In adversarial environments where the route information of UAVs is unavailable, predicting future links must rely solely on the observed historical topological information of UANETs. However, the highly dynamic and sparse nature of UANET topologies presents substantial challenges in effectively capturing meaningful structural and temporal patterns for accurate link prediction. Most existing link prediction methods focus on temporal dynamics at a single structural scale while neglecting the effects of sparsity, resulting in insufficient information capture and limited applicability to UANETs. In this paper, we propose a multi-scale structural-temporal link prediction model (MUST) for UANETs. Specifically, we first employ graph attention networks (GATs) to capture structural features at multiple levels, including the individual UAV level, the UAV community level, and the overall network level. Then, we use long short-term memory (LSTM) networks to learn the temporal dynamics of these multi-scale structural features. Additionally, we address the impact of sparsity by introducing a sophisticated loss function during model optimization. We validate the performance of MUST using several UANET datasets generated through simulations. Extensive experimental results demonstrate that MUST achieves state-of-the-art link prediction performance in highly dynamic and sparse UANETs.
title MUST: Multi-Scale Structural-Temporal Link Prediction Model for UAV Ad Hoc Networks
topic Machine Learning
url https://arxiv.org/abs/2505.09331