基于混合异常暴露的开集射频指纹识别OA
Open-set RF fingerprint identification based on mixed outlier exposure
作为物理层安全的关键技术,射频指纹识别(radio frequency fingerprint identification,RFFI)通过分析信号中蕴含的硬件损伤特征实现设备认证.针对开放场景下未知辐射源的语义偏移问题,本文提出了一种基于混合异常暴露的开集 RFFI(open set-RFFI,OS-RFFI)框架 CutOE,从数据和损失函数两个层面实现开集识别(open set recognition,OSR).在数据层面,考虑到电磁数据的特殊性质,训练阶段引入无标签异常未知数据,并采用随机剪切平滑技术生成虚拟异常样本,有效扩展开放空间先验知识.在损失函数层面,引入软标签和JS(Jensen-Shannon)散度损失,约束模型置信度平滑衰减,并基于置信度阈值实现高效 OSR.Wi-Fi数据上多次实验表明,高信噪比条件下,当开放度分别为0.105 57和0.396 98时,CutOE方法F1分数达到了93.57%和72.20%.此外,消融实验验证了框架各组件的有效性和扩展性,其中随机剪切策略和JS散度显著提升了OSR性能.
Radio frequency fingerprinting(RFF)identification,a crucial technology in physical layer security,enables device authentication through the analysis of hardware impairment characteristics embedded within signals.To address the semantic shift challenge posed by unknown radiation sources in open environments,this paper presents CutOE,a novel framework for open-set RFF identification that implements open-set recognition through both data-centric and loss function approaches.At the data level,At the data level,considering the specific characteristics of electromagnetic data,unlabeled anomaly samples are introduced during the training phase,and a random cut-smooth technique is employed to generate virtual anomaly samples,effectively expanding the prior knowledge of the open space.At the loss function level,the framework introduces soft labels and Jensen-Shannon divergence loss to constrain the model's confidence decay smoothly,while implementing efficient open-set recognition based on confidence thresholds.Extensive experiments conducted on Wi-Fi datasets demonstrate that under high signal-to-noise ratio conditions,the CutOE framework achieves F1 scores of 93.57%and 72.20%at openness ratios of 0.105 57 and 0.396 98,respectively.Furthermore,ablation studies validate the effectiveness and scalability of each framework component,with random cutting strategies and Jensen-Shannon divergence significantly enhancing open-set recognition performance.
彭进先;赵超;桑苗苗;周伦;秦剑琪;龙照飞
63611 部队,库尔勒 84100063611 部队,库尔勒 84100063618 部队,库尔勒 84100063611 部队,库尔勒 84100063611 部队,库尔勒 84100063611 部队,库尔勒 841000
信息技术与安全科学
物理层安全射频指纹(RFF)开集识别(OSR)混合异常暴露
physical layer securityRF fingerprint(RFF)open set recognition(OSR)mixed outlier exposure
《电波科学学报》 2026 (3)
562-572,11
国防预研项目(2023XXXX007)National Defense Pre-research Project(2023XXXX007)
评论