Roshan Sedar, Charalampos Kalalas, Paolo Dini, Francisco Vazquez-Gallego, Jesus Alonso-Zarate, Luis Alonso
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引用次数: 0
摘要
车辆的流动性凸显了在车辆边缘进行协同不当行为检测的必要性。然而,本地训练的不当行为检测模型容易受到旨在故意影响学习结果的对抗性攻击。在本文中,我们介绍了一种基于深度强化学习的方法,该方法利用迁移学习在路边装置(RSU)之间进行协同不当行为检测。在存在标签翻转和策略诱导攻击的情况下,我们有选择地从值得信赖的源RSU处进行知识转移,以培养不当行为检测中的相关专业知识,并避免来自受逆向影响的RSU的负面知识共享。我们利用一个开源数据集,在一系列不同的不当行为检测场景中进行了评估,从而证明了我们提出的方案的性能。实验结果表明,我们的方法大大缩短了目标 RSU 的训练时间,与使用 tabula rasalearning 的基线方案相比,检测性能更优。通过有效检测以前未见和部分可观察到的不当行为攻击,我们还增强了鲁棒性和普适性。
Knowledge Transfer for Collaborative Misbehavior Detection in Untrusted Vehicular Environments
Vehicular mobility underscores the need for collaborative misbehavior
detection at the vehicular edge. However, locally trained misbehavior detection
models are susceptible to adversarial attacks that aim to deliberately
influence learning outcomes. In this paper, we introduce a deep reinforcement
learning-based approach that employs transfer learning for collaborative
misbehavior detection among roadside units (RSUs). In the presence of
label-flipping and policy induction attacks, we perform selective knowledge
transfer from trustworthy source RSUs to foster relevant expertise in
misbehavior detection and avoid negative knowledge sharing from
adversary-influenced RSUs. The performance of our proposed scheme is
demonstrated with evaluations over a diverse set of misbehavior detection
scenarios using an open-source dataset. Experimental results show that our
approach significantly reduces the training time at the target RSU and achieves
superior detection performance compared to the baseline scheme with tabula rasa
learning. Enhanced robustness and generalizability can also be attained, by
effectively detecting previously unseen and partially observable misbehavior
attacks.
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