Abstract
Floor identification plays a key role in multi-story indoor positioning and localization systems. Current floor identification systems rely primarily on Wi-Fi signals and barometric pressure data. Barometric systems require installation of additional standalone sensors to perform floor identification. Wi-Fi systems, on the other hand, are vulnerable to the dynamic environment and adverse effects of path loss, shadowing, and multipath fading. In this paper, we take advantage of a pervasive magnetic field to compensate for the limitations of these systems. We employ smartphone sensors to make the proposed scheme infrastructure free and cost-effective. We use smartphone magnetic sensors to identify the floors in a multi-story building with improved accuracy. Floor identification is performed with user activities of normal walking, call listening, and phone swinging. Various machine learning techniques are leveraged to identify user activities. Extensive experiments are performed to evaluate the proposed magnetic-data-based floor identification scheme. Additionally, the impact of device heterogeneity on floor identification is investigated using Samsung Galaxy S8, LG G6, and LG G7 smartphones. Research results demonstrate that the magnetic floor identification outperforms barometric and Wi-Fi-enabled floor detection techniques. A floor change module is incorporated to further enhance the accuracy of floor identification.
Highlights
In recent years, Indoor Positioning and Localization (IPL) systems have received much attention from industry and academia because the proliferation of smartphones has opened new possibilities for indoor localization
We propose a floor identification mechanism based on the pervasive magnetic field data, which is an infrastructure-free solution
We propose the use of Binary Grid (BG) approach to overcome the limitations of the user’s height
Summary
Indoor Positioning and Localization (IPL) systems have received much attention from industry and academia because the proliferation of smartphones has opened new possibilities for indoor localization. IPL systems are grouped under two categories: infrastructure-based and infrastructure-free. Therein, the common examples of infrastructure-based technologies are Radio. Frequency IDentification (RFID), Ultra-WideBand (UWB), Infra-Red (IR) and Global Positioning. Systems (GPS) [1,2,3,4]. Fusion of these technologies is reported in [5] where RFID is utilized along with cellular data. The frequencies from Ultra High-Frequency RFID (UHF RFID) and macro-cellular networks are used to refine the localization accuracy. The wide availability of cellular networks helps to calculate a coarse location which can be used by other localization technologies. Authors use the location calculated from RFID, and macro-cellular separately and fuse them to refine the location
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