Edge human activity recognition using federated learning on constrained devices

IF 3 3区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Pervasive and Mobile Computing Pub Date : 2024-08-08 DOI:10.1016/j.pmcj.2024.101972
Angelo Trotta , Federico Montori , Leonardo Ciabattini , Giulio Billi , Luciano Bononi , Marco Di Felice
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Abstract

Human Activity Recognition (HAR) using wearable Internet of Things (IoT) devices represents a well investigated researched field encompassing various application domains. Many current approaches rely on cloud-based methodologies for gathering data from diverse users, resulting in the creation of extensive training datasets. Although this strategy facilitates the application of powerful Machine Learning (ML) techniques, it raises significant privacy concerns, which can become particularly severe given the sensitivity of HAR data. Moreover, the labeling process can be extremely time-consuming and even more challenging for IoT wearable devices due to the absence of efficient input systems. In this paper, we address both aforementioned challenges by designing, implementing, and validating edge-based Human Activity Recognition (HAR) systems that operate on resource-constrained IoT devices, which relies on the utilization of Self-Organizing Maps (SOM) for activity detection. We incorporate a feature selection process before training to reduce data dimensionality and, consequently, the SOM size, aligning with the resource limitations of wearable IoT devices. Additionally, we explore the application of Federated Learning (FL) techniques for HAR tasks, enabling new users to leverage SOM models trained by others on their respective datasets. Our federated Extreme Edge (EE)-aware HAR system is implemented on a wearable IoT device and rigorously tested against state-of-the-art and experimental datasets. The results demonstrate that our C++-based SOM implementation achieves a consistent reduction in model size compared to state-of-the-art approaches. Furthermore, our findings highlight the effectiveness of the FL-based approach in overcoming personalized training challenges, particularly in onboarding scenarios.

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在受限设备上利用联合学习进行边缘人类活动识别
使用可穿戴物联网(IoT)设备进行人类活动识别(HAR)是一个经过深入研究的领域,涵盖各种应用领域。当前的许多方法都依赖于基于云的方法来收集来自不同用户的数据,从而创建大量的训练数据集。虽然这种策略有助于应用强大的机器学习(ML)技术,但它会引发严重的隐私问题,鉴于 HAR 数据的敏感性,这种问题会变得尤为严重。此外,由于缺乏高效的输入系统,标记过程可能会非常耗时,对于物联网可穿戴设备来说更具挑战性。在本文中,我们通过设计、实施和验证基于边缘的人类活动识别(HAR)系统来应对上述挑战,该系统可在资源受限的物联网设备上运行,依靠自组织图(SOM)进行活动检测。我们在训练前加入了一个特征选择过程,以降低数据维度,从而缩小自组织图的大小,这与可穿戴物联网设备的资源限制相一致。此外,我们还探索了联邦学习(FL)技术在 HAR 任务中的应用,使新用户能够利用其他人在各自数据集上训练的 SOM 模型。我们的联邦极端边缘(EE)感知 HAR 系统是在可穿戴物联网设备上实现的,并针对最先进的实验数据集进行了严格测试。结果表明,与最先进的方法相比,我们基于 C++ 的 SOM 实现了模型规模的持续缩小。此外,我们的研究结果还凸显了基于 FL 的方法在克服个性化培训挑战方面的有效性,尤其是在入职场景中。
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来源期刊
Pervasive and Mobile Computing
Pervasive and Mobile Computing COMPUTER SCIENCE, INFORMATION SYSTEMS-TELECOMMUNICATIONS
CiteScore
7.70
自引率
2.30%
发文量
80
审稿时长
68 days
期刊介绍: As envisioned by Mark Weiser as early as 1991, pervasive computing systems and services have truly become integral parts of our daily lives. Tremendous developments in a multitude of technologies ranging from personalized and embedded smart devices (e.g., smartphones, sensors, wearables, IoTs, etc.) to ubiquitous connectivity, via a variety of wireless mobile communications and cognitive networking infrastructures, to advanced computing techniques (including edge, fog and cloud) and user-friendly middleware services and platforms have significantly contributed to the unprecedented advances in pervasive and mobile computing. Cutting-edge applications and paradigms have evolved, such as cyber-physical systems and smart environments (e.g., smart city, smart energy, smart transportation, smart healthcare, etc.) that also involve human in the loop through social interactions and participatory and/or mobile crowd sensing, for example. The goal of pervasive computing systems is to improve human experience and quality of life, without explicit awareness of the underlying communications and computing technologies. The Pervasive and Mobile Computing Journal (PMC) is a high-impact, peer-reviewed technical journal that publishes high-quality scientific articles spanning theory and practice, and covering all aspects of pervasive and mobile computing and systems.
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