Passive Multi-Target Visible Light Positioning Based on Multi-Camera Joint Optimization

Camera-based visible light positioning (VLP) has emerged as a promising indoor positioning technique. However, the need for dedicated LED infrastructure and on-target cameras in existing algorithms limits their scalability and increases deployment costs. To address these limitations, this letter proposes a passive VLP algorithm based on Multi-Camera Joint Optimization (MCJO). In the considered system, multiple pre-calibrated cameras mounted on the ceiling continuously capture images of positioning targets equipped with point light sources, and can simultaneously localize these targets at the server. In particular, the proposed MCJO comprises two stages: It first estimates target positions via linear least squares from multi-view projection rays; then refines these positions through nonlinear joint optimization to minimize the reprojection error. Simulation results show that MCJO can achieve millimeter-level accuracy, with an improvement of 19% over state-of-the-art algorithms. Experimental results further show that MCJO can achieve an average position error as low as 5.63 mm.