Abstract
In this article, we propose a new indoor positioning algorithm using smartphones, where wireless signals and images are deeply combined together to improve the positioning performance. Our approach is based on the use of local binary patterns’ feature, which has the advantages of rotation invariance and scale invariance. Moreover, the term “uniform” are fundamental properties of local image textures and their occurrence histogram is proven to be a very powerful texture feature. Besides, the received signal strength acts as a reliable cue on a person’s identity. We first obtain a coarse-grained estimation based on the visualization of wireless signals, which are presented by a vector, making use of fingerprinting methods. Then, we perform a matching process to determine correspondences between two-dimensional pixels and three-dimensional points based on images collected by the smartphone. After being evaluated by experiments, our proposed method demonstrates that the combination of the visual and the wireless data significantly improves the positioning accuracy and robustness. It can be widely applied to smartphones to better analyze human behavior and offer high-accuracy indoor location–based services.
Highlights
With the growth of people’s indoor time, the demand for location-based service has been increasing
We propose a new indoor positioning method for fusing the wireless signals and the RGB images, which can be implemented on a smartphone
The occlusion problem can be solved with wireless signal data by calculating its received signal strength for reinforcing the image-based positioning method.[5]
Summary
With the growth of people’s indoor time, the demand for location-based service has been increasing. The fusion of the image and wireless information still includes two key problems to be solved: (1) the received signal strength indication (RSSI) is vulnerable to environmental factors and signal interference, causing severe precision loss or loss of availability and (2) RGB images lack depth information and suffer from strong occlusion issues. We use both the image and the wireless information to address the above challenges.
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