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High-efficiency and robust binary fringe optimization for superfast 3D shape measurement.

Sijie Zhu, Yiping Cao, Qican Zhang

    Optics Express
    |October 19, 2022
    PubMed
    Summary
    This summary is machine-generated.

    This study introduces an optimized binary fringe method for faster and more accurate 3D shape measurement. The technique enhances efficiency by using a novel 1D optimization and 2D modulation approach for binary defocusing techniques.

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    Area of Science:

    • Optics and Photonics
    • Computer Vision
    • Metrology

    Background:

    • Binary defocusing techniques offer high-speed 3D shape measurement but struggle with simultaneous accuracy.
    • Conventional 8-bit sinusoidal patterns are less efficient than 1-bit binary patterns for speed.

    Purpose of the Study:

    • To develop a high-efficiency and robust binary fringe optimization method for superfast and accurate 3D shape measurement.
    • To overcome the limitations of current binary defocusing techniques in achieving both high speed and high accuracy.

    Main Methods:

    • A hybrid approach combining 1D optimization and 2D modulation for binary fringe patterns.
    • Utilizing a three-level Optimized Pulse Width Modulation (OPWM) technique for harmonic elimination and pattern generation.
    • Implementing a single-pattern three-level OPWM strategy for reduced pattern projection through multi-dimensional intensity modulation.

    Main Results:

    • The proposed method generates high-quality phase maps across a wide range of fringe periods (18-1140 pixels) and defocusing levels.
    • Demonstrated superfast and high-accuracy 3D shape measurement capabilities through simulations and experiments.
    • Achieved significant computational efficiency improvement while maintaining high accuracy via 1D iterative optimization.

    Conclusions:

    • The optimized binary fringe method successfully enables superfast and high-accuracy 3D shape measurement.
    • The technique offers a robust solution for applications requiring rapid and precise 3D surface reconstruction.
    • This approach advances binary defocusing techniques by enhancing efficiency and accuracy simultaneously.