Abstract
Augmented Reality (AR) enables an immersive understanding of industrial operating behavior in a mixed environment of reality and virtual. Hence, an AR-guided navigation system for industrial wiring is proposed. The objective is to establish an interactive learning platform for the digital transmission of wiring skills to improve efficiency and quality. Firstly, the mapping relationship from virtual to real is constructed, and a reasonable spatial error threshold is set to reduce the error. Then, the visual positioning method is used to calibrate the spatial position errors of virtual parts to optimize the AR guidance effect. Finally, the virtual operation is accurately mapped to the real space for guidance. The results show that AR-guided wiring reduces operating time by 22% and errors by 74% compared to real wiring. Compared to general AR-guided wiring, the calibrated wiring exhibits an 80% reduction in operating errors. As a result, the virtual and real spatial calibration contributes to efficient AR-guided wiring for accurate digital training.
Published Version
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