Abstract
Visible light positioning (VLP) is a promising technology for indoor navigation. However, most studies of VLP systems nowadays only focus on positioning accuracy, whereas robustness and real-time ability are often overlooked, which are all indispensable in actual VLP situations. Thus, we propose a novel VLP method based on mean shift (MS) algorithm and unscented Kalman filter (UKF) using image sensors as the positioning terminal and a Light Emitting Diode (LED) as the transmitting terminal. The main part of our VLP method is the MS algorithm, realizing high positioning accuracy with good robustness. Besides, UKF equips the mean shift algorithm with the capacity to track high-speed targets and improves the positioning accuracy when the LED is shielded. Moreover, a LED-ID (the identification of the LED) recognition algorithm proposed in our previous work was utilized to locate the LED in the initial frame, which also initialized MS and UKF. Furthermore, experiments showed that the positioning accuracy of our VLP algorithm was 0.42 cm, and the average processing time per frame was 24.93 ms. Also, even when half of the LED was shielded, the accuracy was maintained at 1.41 cm. All these data demonstrate that our proposed algorithm has excellent accuracy, strong robustness, and good real-time ability.
Highlights
In business centers [1], large public buildings, high-risk industrial parks, hospitals, nursing homes [2], and other indoor places where Global PositioningSystem (GPS) helps little but where navigation and location services are urgently needed, indoor positioning technology has broad application prospects [3,4]
A series of research projects on visible light positioning (VLP) systems based on PD have been completed in our previous works [11,12,13,14,15,16] through which we found that the mobility of the positioning terminal has been severely limited because of PD’s sensibility to the direction of the light beam
VLP system, in this paper, we propose a high-precision, real-time and robust indoor visible light positioning method based on the mean shift algorithm and unscented Kalman filter
Summary
In business centers [1], large public buildings (subways, airports, libraries, etc.), high-risk industrial parks, hospitals, nursing homes [2], and other indoor places where Global Positioning. The VLP method proposed in Reference [25] considers the system’s real-time ability, whose maximum allowable motion speed of the positioning terminal was 18 km/h, with a positioning accuracy of 7.5 cm. Because the function of the optical flow method is to track the LED, in this article, to improve the real-time ability of our visible light positioning method, it was replaced by the mean shift algorithm, which greatly reduces the computational cost. VLP system, in this paper, we propose a high-precision, real-time and robust indoor visible light positioning method based on the mean shift algorithm and unscented Kalman filter. After the initial position of the positioning terminal is calculated by the LED–ID recognition algorithm, the mean shift algorithm is utilized to track and locate the LED in the image sequences in real time with high robustness.
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