LiPro: displaying concurrent image viewing and imperceptible positioning using visible light
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Summary
This study introduces LiPro, a smart lighting projector system. LiPro enables simultaneous imperceptible target positioning and image viewing, achieving centimeter-level accuracy for practical applications.
Area of Science:
- Optoelectronics
- Human-Computer Interaction
- Computer Vision
Background:
- Visible light projectors are crucial for human interaction but face challenges in simultaneous target positioning and image viewing.
- Existing systems compromise either visual display quality or positioning accuracy, limiting real-world applicability.
Purpose of the Study:
- To develop a novel smart lighting-based projector system (LiPro) capable of simultaneous imperceptible target positioning and image viewing.
- To address the limitations of current visible light projectors in practical applications.
Main Methods:
- Proposed a novel color space conversion modulation scheme using YCbCr analysis to transmit landmark information imperceptibly.
- Implemented a dual-channel decision demodulation scheme for accurate landmark recognition.
- Utilized off-the-shelf devices for system implementation and performance evaluation.
Main Results:
- The LiPro system successfully achieves simultaneous imperceptible target positioning and any image viewing.
- Experimental results demonstrate centimeter-level target positioning accuracy.
- The proposed modulation and demodulation schemes ensure human eye imperceptibility to luminance changes.
Conclusions:
- LiPro offers a practical solution for visible light projectors by integrating target positioning with image viewing.
- The system demonstrates high accuracy and robustness in real-world scenarios.
- This advancement has significant implications for interactive display technologies.