Various health-care applications such as assisted living, fall detection, etc., require modeling of user behavior through Human Activity Recognition (HAR). Such applications demand characterization of insights from multiple resource-constrained user devices using machine learning techniques for effective personalized activity monitoring. On-device Federated Learning proves to be an effective approach for distributed and collaborative machine learning. However, there are a variety of challenges in addressing statistical (non-IID data) and model heterogeneities across users. In addition, in this paper, we explore a new challenge of interest -- to handle heterogeneities in labels (activities) across users during federated learning. To this end, we propose a framework for federated label-based aggregation, which leverages overlapping information gain across activities using Model Distillation Update. We also propose that federated transfer of model scores is sufficient rather than model weight transfer from device to server. Empirical evaluation with the Heterogeneity Human Activity Recognition (HHAR) dataset (with four activities for effective elucidation of results) on Raspberry Pi 2 indicates an average deterministic accuracy increase of at least ~11.01%, thus demonstrating the on-device capabilities of our proposed framework.
翻译:各种保健应用,如辅助生活、秋天检测等,要求通过人类活动识别(HAR)对用户行为进行模型化。这些应用要求利用机械学习技术对多种资源受限制的用户装置的洞见进行定性,利用机械学习技术进行有效的个人化活动监测。在线学习证明是分发和协作性机器学习的有效办法。然而,在解决统计(非二维数据)和各种用户的模型差异方面存在各种挑战。此外,我们本文件还探讨了一个新的关注挑战 -- -- 在联合学习期间处理用户在标签(活动)方面的差异性。为此,我们提议了一个基于粘合标签的聚合框架,利用模型蒸馏更新在各项活动中重复获得的信息。我们还提议,将模型分数从设备向服务器的混合转移,而不是模型重量转移,已经足够。在Rasperry Pi 2 上对HHAR) 数据集进行实证评估(为有效揭示结果的四项活动)。我们提议的确定性框架显示我们平均确定性%的精确度提高。
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