Journal ArticleDOI
RT-Fall: A Real-Time and Contactless Fall Detection System with Commodity WiFi Devices
TLDR
RT-Fall exploits the phase and amplitude of the fine-grained Channel State Information accessible in commodity WiFi devices, and for the first time fulfills the goal of segmenting and detecting the falls automatically in real-time, which allows users to perform daily activities naturally and continuously without wearing any devices on the body.Abstract:
This paper presents the design and implementation of RT-Fall, a real-time, contactless, low-cost yet accurate indoor fall detection system using the commodity WiFi devices. RT-Fall exploits the phase and amplitude of the fine-grained Channel State Information (CSI) accessible in commodity WiFi devices, and for the first time fulfills the goal of segmenting and detecting the falls automatically in real-time, which allows users to perform daily activities naturally and continuously without wearing any devices on the body. This work makes two key technical contributions. First, we find that the CSI phase difference over two antennas is a more sensitive base signal than amplitude for activity recognition, which can enable very reliable segmentation of fall and fall-like activities. Second, we discover the sharp power profile decline pattern of the fall in the time-frequency domain and further exploit the insight for new feature extraction and accurate fall segmentation/detection. Experimental results in four indoor scenarios demonstrate that RT-fall consistently outperforms the state-of-the-art approach WiFall with 14 percent higher sensitivity and 10 percent higher specificity on average.read more
Citations
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Journal ArticleDOI
WiFi Sensing with Channel State Information: A Survey
TL;DR: This survey gives a comprehensive review of the signal processing techniques, algorithms, applications, and performance results of WiFi sensing with CSI, and presents three future WiFi sensing trends, i.e., integrating cross-layer network information, multi-device cooperation, and fusion of different sensors for enhancing existing WiFi sensing capabilities and enabling new WiFi sensing opportunities.
Proceedings ArticleDOI
Human respiration detection with commodity wifi devices: do user location and body orientation matter?
TL;DR: Leveraging the Fresnel model and WiFi radio propagation properties derived, the impact of human respiration on the receiving RF signals is investigated and the theory to relate one's breathing depth, location and orientation to the detectability of respiration is developed.
Proceedings ArticleDOI
Dynamic-MUSIC: accurate device-free indoor localization
TL;DR: MaTrack proposes a novel Dynamic-MUSIC method to detect the subtle reflection signals from human body and further differentiate them from those reflected signals from static objects to identify the human target's angle for localization.
Journal ArticleDOI
A Survey of Healthcare Internet of Things (HIoT): A Clinical Perspective
Hadi Habibzadeh,Karthik Dinesh,Omid Rajabi Shishvan,Andrew Boggio-Dandry,Gaurav Sharma,Tolga Soyata +5 more
TL;DR: This article surveys the existing and emerging technologies that can enable this vision for the future of healthcare, particularly, in the clinical practice of healthcare and discusses the emerging directions, open issues, and challenges.
Journal ArticleDOI
Wireless Sensing for Human Activity: A Survey
TL;DR: The existing wireless sensing systems are surveyed in terms of their basic principles, techniques and system structures to describe how the wireless signals could be utilized to facilitate an array of applications including intrusion detection, room occupancy monitoring, daily activity recognition, gesture recognition, vital signs monitoring, user identification and indoor localization.
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