| Title |
RSSI-Based Indoor Localization Method Using Virtually Overlapped Visible Light |
| Authors |
김대영(Kim, Dae Young) ; 이건영(Yi, Keon Young) |
| DOI |
https://doi.org/10.5370/KIEE.2014.63.12.1697 |
| Keywords |
RSSI ; Virtually Overlapped Visible Light ; Indoor Localization ; LED |
| Abstract |
In this paper, we propose an indoor RSSI (received signal strength indication)-based localization method that uses virtually overlapped visible light with an indoor LED lighting system. In our system, a photodiode (PD) measures the RSSI from LED lamps that blink in one row or column units. Subsequently, the RSSI is used to obtain the horizontal distances between the LED lamps and the receiver with the predetermined characteristics curve, R-D curve, that represents the relation between the RSSI and the horizontal distances. When the controlled LED lamps blink in one row or column units, the R-D curve at the border of the LED lamps is different because of the weak lighting, which results in the position sensing error of the receiver. The deviation of the optical power of each LED also causes the error. To solve these problems, we propose a method that overlaps the visible light through the numerical operation at the receiver side without any modification of the light source side. Our proposed method has been simulated in a room measuring 1.2×1.2×1.8m^3 considering the effect of the error on the optical power of the LED. The simulation result shows that the proposed method eliminates the error condition with the R-D curve and achieves an average positioning error of 13.4 mm under the error rate 3% of the optical power. |