Abstract
To study the intelligent sensing and positioning technology of the Internet of Things (IoT) combined with the K -nearest neighbor algorithm, the K -nearest neighbor matching algorithm and optimization algorithm are introduced using the indoor Wi-Fi positioning technology. The study proposes weighting K -nearest neighbor (WKNN) by weighted Euclidean distance, adaptive weighted Euclidean distance K-nearest neighbor Wi-Fi localization algorithm, and optimal K -value Wi-Fi fingerprint localization algorithm. The experimental error is verified. The experimental results show that the lowest error of continuous acquisition of 3 s signal values in experimental environment A is 1.8815 m, which is 10.13% lower than the error of only acquiring 1 s for the same K -value. The lowest error of environment B scheme two can reach 1.8862, which is 7.06% lower than the error of the same K -value. The optimal K -value Wi-Fi fingerprint positioning algorithm by distance constraint has better positioning accuracy than other KNN positioning algorithms, and the positioning fluctuation is smaller. The average positioning error of the optimal K in environment A is 1.2987 m, which is 0.2797 m less than the average of the traditional positioning algorithm. In environment B, the average positioning error of the optimal K is 1.5353 m, which is 0.3253 m less than the average of the traditional positioning algorithm. Therefore, the optimal K -value Wi-Fi positioning algorithm proposed has better performance.
Highlights
With the rapid development of Internet information technology, the Internet of Things (IoT) transforms the physical world into a digital world through sensing devices
Base station positioning is applied to mobile phone users
The K proximity algorithm is used in Wi-Fi indoor positioning technology
Summary
With the rapid development of Internet information technology, the Internet of Things (IoT) transforms the physical world into a digital world through sensing devices. Location-Based Service (LBS) [2] is the basis for IoT to perceive the network direction. It is divided into indoor and outdoor positioning. Global Positioning System (GPS) [3] is the most widely used and the most mature technology. Base station positioning is applied to mobile phone users. Mobile phone base station positioning is used to obtain the location information of mobile terminal users through the telecommunication mobile operator network. Wi-Fi positioning is a relatively mature technology with many applications. The architecture and core technology of the IoT
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