Abstract
Wireless local area networks (WLAN)-fingerprinting has been highlighted as the preferred technology for indoor positioning due to its accurate positioning and minimal infrastructure cost. However, its accuracy is highly influenced by obstacles that cause fluctuation in the signal strength. Many researchers have modeled static obstacles such as walls and ceilings, but few studies have modeled the people’s presence effect (PPE), although the human body has a great impact on signal strength. Therefore, PPE must be addressed to obtain accurate positioning results. Previous research has proposed a model to address this issue, but these studies only considered the direct path signal between the transmitter and the receiver whereas multipath effects such as reflection also have a significant influence on indoor signal propagation. This research proposes an accurate indoor-positioning model by considering people’s presence and multipath using ray-tracing, we call it (AIRY). This study proposed two solutions to construct AIRY: an automatic radio map using ray tracing and a constant of people’s effect for the received signal strength indicator (RSSI) adaptation. The proposed model was simulated using MATLAB software and tested at Level 3, Menara Razak, Universiti Teknologi Malaysia. A K-nearest-neighbor (KNN) algorithm was used to define a position. The initial accuracy was 2.04 m, which then reduced to 0.57 m after people’s presence and multipath effects were considered.
Highlights
Indoor-positioning system (IPS)-based services have great economic potential—Estimated to reach a market value of US$ 10 billion in 2020 [1]
Device-free localization based on signal strength has three main techniques: fingerprinting, link-based, and radio tomographic imaging
An accurate indoor-positioning model based on Wireless local area networks (WLAN) fingerprinting was designed and validated
Summary
Indoor-positioning system (IPS)-based services have great economic potential—Estimated to reach a market value of US$ 10 billion in 2020 [1]. IPS utilizes many existing technologies such as radio frequencies (RFs) [3], magnetic fields [4], acoustic signals, and thermal [5], optical [6] or other sensory information collected using a mobile device (MD) [7]. Indoor positioning can be classified into device-based and device-free. On device-based systems, users need a device to know their position, such as smartphone-based and tag-based indoor positioning [15]. Instead of a device-free system, the user does not need a device to know his position. Device-free localization based on signal strength (received signal strength indicator, RSSI) has three main techniques: fingerprinting, link-based, and radio tomographic imaging. From the system side, it will be more complex, for example it takes 6 to 20 transceiver nodes for fingerprinting techniques, Sensors 2019, 19, 5546; doi:10.3390/s19245546 www.mdpi.com/journal/sensors
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
