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Non-Invasive Localization Using Software-Defined Radios

Muhammad Zakir Khan, Ahmad Taha, William Taylor, Muhammad Ali Imran, Qammer H. Abbasi

2022IEEE Sensors Journal16 citationsDOIOpen Access PDF

Abstract

Non-invasive indoor human activity detection using radio waves has attracted the interest of researchers, contributing to a range of new applications including smart healthcare. Localisation of activities can assist in developing advanced healthcare systems able to identify the location of patients. Radio frequencies have been shown in numerous studies as a non-invasive method to identify human activity. This is achieved by observing the signal propagation described in the Channel State Information (CSI). This paper presents experimental results using Universal Software-Defined Radio Peripheral (USRP) devices to identify and localise a single human subject performing activities by utilizing the CSI of radio frequencies. The experiments are carried out to retrieve CSI samples observing a single subject perform no-activity, sitting, standing, and leaning forward actions in various positions in a room. Additional CSI is captured for the subject walking in two directions across the observed area. Giving a total of 6 activities spanning the monitored area. CSI is also collected while the monitored area is empty for further comparison. Artificial intelligence is used to make classifications on collected CSI. The proposed approach uses a Super Learner (SL) algorithm that can identify the location of different activities with 96% accuracy, outperforming existing benchmark approaches.

Topics & Concepts

Universal Software Radio PeripheralSoftware-defined radioChannel state informationComputer scienceBenchmark (surveying)SoftwareWirelessTransmitterRadio frequencyArtificial intelligenceReal-time computingChannel (broadcasting)TelecommunicationsGeographyGeodesyProgramming languageIndoor and Outdoor Localization TechnologiesSpeech and Audio ProcessingEnergy Efficient Wireless Sensor Networks
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