利用密集感知神经网络进行基于微多普勒特征的人类活动分类

2022 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2022-10-20 DOI:10.1109/ATC55345.2022.9943046

N. Nguyen, MinhNghia Pham, Vannhu Le, Dung DuongQuoc, Van-Sang Doan

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引用次数: 0

摘要

跌倒是65岁以上人群受伤和死亡的主要原因。在进行日常生活活动时及时发现和预警人类，特别是老年人的跌倒风险至关重要。因此，本文提出了一种基于微多普勒特征的密集初始神经网络(DINN)对11种人类活动中的跌倒进行分类。利用simulalator软件的模拟数据集对网络的超参数进行分析和微调，选择最优的网络模型。结果表明，采用24个滤波器的模型在预测时间和分类精度性能之间取得了很好的平衡。此外，由于密集初始结构，与具有相同输入数据集的其他四种网络相比，所提出模型的结果显着优于其他网络。

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Micro-Doppler signatures based human activity classification using Dense-Inception Neural Network

Falls are the leading cause of injury and death in people over 65. Timely detection and warning of the fall risks of humans, especially the elderly, while performing daily living activities are vitally necessary. Therefore, this paper proposes a Dense-Inception Neural Network (DINN) to classify falls among 11 human activities based on micro-Doppler signatures. The network's hyper-parameters are analyzed and fine-tuned through experiments with the simulated dataset from Simhumalator software to choose the most optimal network model. As a result, the proposed model with 24 filters achieves a good balance between prediction time and classification accuracy performance. Moreover, the proposed model's results remarkably outperform when compared with four other networks with the same input dataset due to the dense-inception structure.

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2022 International Conference on Advanced Technologies for Communications (ATC)

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