Camera-Based Position Estimation using Frequency-Multiplexed Luminance Gradient

Shota Shimada, Hiroaki Murakami, Kota Tsubouchi, Takuya Sasatani, and Yoshihiro Kawahara

Abstract

We present a new indoor positioning method to overcome the challenges faced by Visible Light Positioning (VLP), specifically its dependency on multiple light sources and constraints in environments with high ceilings. Our method employs omni-directional LEDs, each modulated at a unique frequency, mounted on the ceiling. The system calculates the position by analyzing the luminance and gradient of diffused light reflected on the ceiling, captured by the user’s smartphone front camera. This allows for accurate distance and angle estimation between the point of interest and LEDs with just two light sources. The inherent characteristics of ceiling surfaces, being largely unobstructed, enhance the diffusion of modulated light, enabling the capture of signals even from partial and indirect views. Experimental validation in a setting with a 3. 6m baseline between lights resulted in a 0. 462m average positioning error and a 21.7-degree average orientation angle error, showcasing its efficiency and potential for broad indoor application.

2024 IEEE International Conference on Pervasive Computing and Communications Workshops and other Affiliated Events (PerCom Industry Track 2024)

Published: March 2024

Pages: 475 - 480

City: Biarritz, France