RGB-D Fall Detection via Deep Residual Convolutional LSTM Networks

A. Abobakr, M. Hossny, Hala Abdelkader, S. Nahavandi
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引用次数: 25

Abstract

The development of smart healthcare environments has witnessed impressive advancements exploiting the recent technological capabilities. Since falls are considered a major health concern especially among older adults, low-cost fall detection systems have become an indispensable component in these environments. This paper proposes an integrable, privacy preserving and efficient fall detection system from depth images acquired using a Kinect RGB-D sensor. The proposed system uses an end-to-end deep learning architecture composed of convolutional and recurrent neural networks to detect fall events. The deep convolutional network (ConvNet) analyses the human body and extracts visual features from input sequence frames. Fall events are detected via modeling complex temporal dependencies between subsequent frame features using Long-Shot-Term-Memory (LSTM) recurrent neural networks. Both models are combined and jointly trained in an end-to-end ConvLSTM architecture. This allows the model to learn visual representations and complex temporal dynamics of fall motions simultaneously. The proposed method has been validated on the public URFD fall detection dataset and compared with different approaches, including accelerometer based methods. We achieved a near unity sensitivity and specificity rates in detecting fall events.
基于深度残差卷积LSTM网络的RGB-D跌落检测
利用最新的技术能力,智能医疗环境的发展取得了令人印象深刻的进步。由于跌倒被认为是一个主要的健康问题,特别是在老年人中,低成本的跌倒检测系统已成为这些环境中不可或缺的组成部分。本文提出了一种基于Kinect RGB-D传感器深度图像的可积、隐私保护和高效的跌倒检测系统。该系统使用由卷积和循环神经网络组成的端到端深度学习架构来检测跌倒事件。深度卷积网络(ConvNet)对人体进行分析,并从输入序列帧中提取视觉特征。通过使用长短期记忆(LSTM)递归神经网络建模后续帧特征之间的复杂时间依赖性来检测跌倒事件。这两个模型在端到端的ConvLSTM体系结构中组合并联合训练。这使得模型可以同时学习视觉表征和坠落运动的复杂时间动态。该方法已在公开的URFD跌倒检测数据集上进行了验证,并与不同的方法进行了比较,包括基于加速度计的方法。我们在检测跌倒事件方面获得了接近统一的灵敏度和特异性。
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