Adaptive Federated Learning for Automatic Modulation Classification Under Class and Noise Imbalance

J. A. Sanchez Viloria, Dimitris Stripelis, Panos P. Markopoulos, G. Sklivanitis, D. Pados
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Abstract

The ability to rapidly understand and label the radio spectrum in an autonomous way is key for monitoring spectrum interference, spectrum utilization efficiency, protecting passive users, monitoring and enforcing compliance with regulations, detecting faulty radios, dynamic spectrum access, opportunistic mesh networking, and numerous NextG regulatory and defense applications. We consider the problem of automatic modulation classification (AMC) by a distributed network of wireless sensors that monitor the spectrum for signal transmissions of interest over a large deployment area. Each sensor receives signals under a specific channel condition depending on its location and trains an individual model of a deep neural network (DNN) accordingly to classify signals. To improve modulation classification accuracy, we consider federated learning (FL) where each individual sensor shares its trained model with a centralized controller, which, after aggregation, initializes its model for the next round of training. Without exchanging any spectrum data (such as in cooperative spectrum sensing), this process is repeated over time. A common DNN is built across the net- work while preserving the privacy associated with signals collected at different locations. Given their distributed nature, the statistics of the data across these sensors are likely to differ significantly. We propose the use of adaptive federated learning for AMC. Specifically, we use FEDADAM -an algorithm using Adam for server optimization – and ex- amine how it compares to the FEDAVG algorithm -one of the standard FL algorithms, which averages client parameters after some local iterations, in particular in challenging scenarios that include class imbalance and/or noise-level imbalance across the network. Our extensive numerical studies over 11 standard modulation classes corroborate the merit of adaptive FL, outperforming its standard alternatives in various challenging cases and for various network sizes.
类别和噪声失衡情况下自动调制分类的自适应联合学习
以自主方式快速了解和标记无线电频谱的能力是监控频谱干扰、提高频谱利用效率、保护无源用户、监控和强制遵守法规、检测故障无线电、动态频谱接入、机会网状网络以及众多 NextG 监管和防御应用的关键。我们考虑的是无线传感器分布式网络的自动调制分类(AMC)问题,该网络在一个大的部署区域内监控频谱中感兴趣的信号传输。每个传感器根据其位置接收特定信道条件下的信号,并相应地训练深度神经网络(DNN)的单个模型来对信号进行分类。为了提高调制分类的准确性,我们考虑了联合学习(FL),即每个单独的传感器与中央控制器共享其训练好的模型,中央控制器在汇总后初始化其模型,用于下一轮训练。在不交换任何频谱数据的情况下(如在合作频谱感知中),这一过程会随着时间的推移不断重复。在整个网络中建立共同的 DNN,同时保护在不同地点收集的信号的隐私。鉴于其分布式性质,这些传感器的数据统计很可能存在很大差异。我们建议在 AMC 中使用自适应联合学习。具体来说,我们使用了 FEDADAM 算法(一种使用亚当进行服务器优化的算法),并对其与 FEDAVG 算法(标准 FL 算法之一,该算法在局部迭代后平均客户端参数)进行了比较,尤其是在包括整个网络中的类不平衡和/或噪声级不平衡的挑战性场景中。我们对 11 种标准调制类别进行了广泛的数值研究,证实了自适应 FL 算法的优点,在各种具有挑战性的情况下和各种网络规模下,它都优于其标准替代算法。
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