Yucheng Li | Optical Computing | Best Researcher Award

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Mr. Yucheng Li | Optical Computing | Best Researcher Award

Lecturer at Aviation maintenance NCO academy, China

Mr. Yucheng Li is a dedicated researcher specializing in optical engineering, computational imaging, and phase retrieval techniques. His innovative approaches in holography and digital image analysis have significantly enhanced the precision and robustness of optical metrology systems. With strong technical fluency in MATLAB, Python, and simulation tools like COMSOL, he is contributing valuable advancements to the field of modern optics.

Professional Profile:

ORCID

Summary of Suitability for Best Researcher Award: Mr. Yucheng Li

Mr. Yucheng Li, affiliated with the Aviation Maintenance NCO Academy of Air Force Engineering University, is a dynamic researcher specializing in optical system design, digital image processing, and computational imaging. His research spans high-impact domains such as holographic interferometry and phase unwrapping algorithms, which are fundamental to precision metrology and advanced imaging systems.

πŸŽ“ Education

  • πŸŽ“ Postgraduate in Optical Engineering
    Zhengzhou University

    • Focus: Optical System Design, Computational Imaging

πŸ§‘β€πŸ« Professional Experience

  • πŸ“‘ Researcher, Aviation Maintenance NCO Academy
    Air Force Engineering University

    • Designing high-precision optical measurement systems

    • Conducting experimental and simulation-based studies in holography and digital imaging

πŸ”¬ Research Focus

  • πŸ” Optical System Design

  • 🌈 Holographic Interferometry

  • πŸŒ€ Phase Unwrapping Algorithms

  • πŸ“Έ Digital Image Processing

  • πŸ’‘ Computational Imaging

πŸ› οΈ Technical Expertise

  • πŸ“· Optics: Light Field Reconstruction, Lens Design (Zemax), Interferometry

  • πŸ“Š Image Processing: Fringe Pattern Analysis, Noise Modeling (PSNR/SSIM), OpenCV

  • πŸ’» Software & Tools: MATLAB, Python (NumPy, SciPy), COMSOL, LabVIEW, C++

  • πŸ“ Analytical Methods: Least-Squares Optimization, Statistical Noise Analysis, Experimental Validation

πŸ† Achievements & Honors

  • πŸ₯‡ Developed high-precision optical measurement framework reducing deformation analysis error significantly

  • 🧠 Pioneered a multi-iteration phase unwrapping algorithm for low-SNR environments

  • πŸ… Published multiple SCI-indexed papers in international journals in 2024–2025

  • πŸ’Ό Contributed advanced noise evaluation models in CGH systems, enhancing reliability

πŸ“šPublication Top Notes

Experimental Study on Glass Deformation Calculation Using the Holographic Interferometry Double-Exposure Method

Noise Impact Analysis in Computer-Generated Holography Based on Dual Metrics Evaluation via Peak Signal-to-Noise Ratio and Structural Similarity Index Measure

Experimental Study on the Reconstruction of a Light Field through a Four-Step Phase-Shift Method and Multiple Improvement Iterations of the Least Squares Method for Phase Unwrapping

Characteristic analysis of core radius, core refractive index, mismatched phase constant and coupling efficiency about 2Β Γ—Β 2 fiber directional coupler based on MATLAB

Based on incoherent spatial light modulator telescopic experimental research of digital holographic imaging system about β€œWhite light”