We present a real-time indoor visible light positioning system based on the optical camera communication, where the coordinate data in the ON–OFF keying format is transmitted via light-emitting diode-based lights and captured using a smartphone camera. The position of the camera is estimated using a novel perspective- n -point problem algorithm, which determines the position of a calibrated camera from n 3D -to-2D point correspondences. The experimental results show that the proposed system offers mean position errors of 4.81 and 6.58 cm for the heights of 50 and 80 cm, respectively
In this paper, we propose a non-line of sight (NLOS) visible light positioning (VLP) system using a ...
Visible light positioning (VLP), benefiting from its high accuracy and low cost, is a promising tech...
The travelled signals that used to estimate the distances between LEDs and the target undergo from n...
We investigate the effect of camera parameters on the performance of an image sensor or camera based...
Indoor positioning systems provide location based service within buildings. Because the Global Posit...
In recent years, light-emitting diodes (LEDs) enabled indoor visible light positioning (VLP) technol...
We explore the indoor positioning problem with unmodified smart-phones and slightly-modified commerc...
Localizing smartphones in indoor environments offers excellent opportunities for e-commence. In this...
Abstract: High power white LEDs are expected to replace the existing lighting technologies in near f...
In this dissertation, an indoor visible light positioning (VLP) system using general LED lamps, the ...
In this paper, we propose an accurate visible light indoor localization system for a smartphone usin...
In this dissertation, a visible light-based IPS using commonly used LED lamps and smartphone camera...
High power white LEDs are expected to replace the existing lighting technologies in near future whic...
The gradual maturity of 5G technology and the rapid development of 6G further facilitate the overall...
With the increasing demand for indoor navigation and positioning, indoor positioning technology is i...
In this paper, we propose a non-line of sight (NLOS) visible light positioning (VLP) system using a ...
Visible light positioning (VLP), benefiting from its high accuracy and low cost, is a promising tech...
The travelled signals that used to estimate the distances between LEDs and the target undergo from n...
We investigate the effect of camera parameters on the performance of an image sensor or camera based...
Indoor positioning systems provide location based service within buildings. Because the Global Posit...
In recent years, light-emitting diodes (LEDs) enabled indoor visible light positioning (VLP) technol...
We explore the indoor positioning problem with unmodified smart-phones and slightly-modified commerc...
Localizing smartphones in indoor environments offers excellent opportunities for e-commence. In this...
Abstract: High power white LEDs are expected to replace the existing lighting technologies in near f...
In this dissertation, an indoor visible light positioning (VLP) system using general LED lamps, the ...
In this paper, we propose an accurate visible light indoor localization system for a smartphone usin...
In this dissertation, a visible light-based IPS using commonly used LED lamps and smartphone camera...
High power white LEDs are expected to replace the existing lighting technologies in near future whic...
The gradual maturity of 5G technology and the rapid development of 6G further facilitate the overall...
With the increasing demand for indoor navigation and positioning, indoor positioning technology is i...
In this paper, we propose a non-line of sight (NLOS) visible light positioning (VLP) system using a ...
Visible light positioning (VLP), benefiting from its high accuracy and low cost, is a promising tech...
The travelled signals that used to estimate the distances between LEDs and the target undergo from n...