Multidomain Lightweight Adaboost for Real-Time Fall Detection on Low-Power BLE Sensors

IF 2.2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Sensors Letters Pub Date : 2025-09-04 DOI:10.1109/LSENS.2025.3606290

Chris Nunez;Tianmin Kong;Ava Hedayatipour

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Abstract

This letter presents a practical and energy-efficient approach to real-time fall detection using a lightweight, interpretable machine learning model on a resource-constrained wearable device. We propose a multidomain learning framework combined with feature-space normalization to enhance generalization across subjects and data sources. A public dataset is augmented with data from a smaller cohort using an articulated skeleton model. To further improve robustness, we employ L2-normalized features. Inertial data are collected at 250 Hz using an Arduino Nano 33 bluetooth low energy, with local threshold-based filtering to reduce power consumption by transmitting only potential fall events. A compact AdaBoostM1 ensemble (50 depth-3 decision trees) trained on both real and skeleton-based data achieved 93% accuracy on a 30% hold-out from the ShimFall&ADL dataset, significantly reducing false positives compared to threshold-only methods without deep learning's computational overhead. This approach can enable interpretable, ultra-low-power, and disposable fall detection systems suitable for elder-care and rehabilitation applications.

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用于低功耗BLE传感器实时跌倒检测的多域轻量级Adaboost

这封信提出了一种实用且节能的方法，可以在资源受限的可穿戴设备上使用轻量级、可解释的机器学习模型进行实时跌倒检测。我们提出了一个结合特征空间规范化的多领域学习框架，以增强跨主题和数据源的泛化。公共数据集使用铰接骨架模型与来自较小队列的数据进行增强。为了进一步提高鲁棒性，我们采用l2归一化特征。惯性数据的采集频率为250hz，使用Arduino Nano 33低功耗蓝牙，采用基于局部阈值的滤波，通过仅传输潜在的跌倒事件来降低功耗。紧凑的AdaBoostM1集成（50棵深度3决策树）在真实和基于骨骼的数据上进行了训练，在ShimFall&ADL数据集的30%保留情况下达到了93%的准确率，与仅阈值方法相比，显著减少了误报，而无需深度学习的计算开销。这种方法可以实现适用于老年人护理和康复应用的可解释、超低功耗和一次性跌倒检测系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Sensors Letters Engineering-Electrical and Electronic Engineering

CiteScore

3.50

自引率

7.10%

发文量

194