Xinge Yang (杨辛格)

I am a Ph.D. candidate at KAUST Computational Imaging Group, working with Prof. Wolfgang Heidrich. My research focuses on differentiable optical design and end-to-end imaging simulation. I explore the next generation computational cameras, sensing systems, and AR/VR glasses.

My representative work published in Nature Communications enables automated optical design. Based on this work, I maintain an open-source differentiable optical lens simulator DeepLens for end-to-end simulation and optimization of optics, sensor, and computer vision.

I am now on the job market for 2026 full-time positions. Please feel free to contact me if you know someone who is hiring.

CV  /  Email  /  Google Scholar  /  Github  /  LinkedIn  /  知乎

profile photo
Education

  • 2022 - 2026 (expected): Ph.D. in Computer Science, KAUST, Saudi Arabia.
  • 2020 - 2022: M.Sc. in Computer Science, KAUST, Saudi Arabia.
  • 2016 - 2020: B.Sc. in Physics (major) and Computer Science (minor), USTC, China.

    		•
    Working

  • 07/2024 - 11/2024: Research scientist Intern, XR Tech Camera & Sensing, Meta Reality Labs, Sunnyvale, CA, USA.
  • 10/2023 - 01/2024: Research scientist Intern, Optics & Display Research, Meta Reality Labs Research, Redmond, WA, USA

    		•
    Research

    First author papers:
    		End-to-end differentiable design of geometric waveguide displays
    Xinge Yang, Zhaocheng Liu, Zhaoyu Nie, Qingyuan Fan, Jim Bonar, Wolfgang Heidrich
    arXiv prepint 2026. Paper (arXiv)

  • Differentiable Monte Carlo non-sequential polarization ray tracing for geometric waveguide display coating optimization up to thousand-scale.

    		•
    		Efficient Depth- and Spatially-Varying Image Simulation for Defocus Deblur
    Xinge Yang, Chuong Nguyen, Wenbin Wang, Kaizhang Kang, Wolfgang Heidrich, Ginger Li
    ICCV Workshop 2025. Paper (arXiv) / Paper (PDF) / Supp (PDF)

  • Efficient high-fidelity synthetic dataset generation for camera lens defocus deblur without fine-tuning.

    		•
    		End-to-End Hybrid Refractive-Diffractive Lens Design with Differentiable Ray-Wave Model
    Xinge Yang, Matheus Souza, Kunyi Wang, Praneeth Chakravarthula, Qiang Fu, Wolfgang Heidrich
    Siggraph Asia 2024. Paper (arXiv) / Paper (PDF) / Supp (PDF)

  • Differentiable ray-wave optical model for hybrid refractive-diffractive lens design.

    		•
    		Task-Driven Lens Design for Image Classification
    Xinge Yang, Qiang Fu, Yunfeng Nie, Wolfgang Heidrich
    arXiv prepint 2023. Paper (arXiv) / Paper (PDF) / Supp (PDF)

  • New lens design objective using a well-trained network to improve computer vision performance.

    		• Aberration-Aware Depth-from-Focus
    Xinge Yang, Qiang Fu, Mohamed Elhoseiny, Wolfgang Heidrich
    TPAMI & ICCP 2023. Paper (IEEE) / Paper (PDF) / Supp (PDF) / Project page / Code

  • Neural PSF representation to accelerate synthetic dataset generation for depth estimation from defocus stacks.

    		•
    		Curriculum Learning for ab initio Deep Learned Refractive Optics
    Xinge Yang, Qiang Fu, Wolfgang Heidrich
    Nature Communications 2024. Paper (Nature) / Paper (PDF) / Supp (PDF) / Code / Video

  • Automated lens design from scratch with differentiable ray tracing and curriculum learning.

    		•

    Co-author papers:
    		Tolerance-Aware Deep Optics
    Jun Dai, Liqun Chen, Xinge Yang, Yuyao Hu, Jinwei Gu, Tianfan Xue
    arXiv prepint 2025. Paper (arXiv) Project page

  • Considering lens manufacturing tolerances in end-to-end lens design for better optical and computer vision robustness.

    		•
    		End-to-end Optimization of Fluidic Lenses
    Mulun Na, Hector Jimenez-Romero, Xinge Yang, Jonathan Klein, Dominik L. Michels, Wolfgang Heidrich
    Siggraph Asia 2024. Paper (PDF), Project page

  • Differentiable optimization of liquid surface shapes and manufacturing for rapid prototyping.

    • Miscs

  • More about me: I like cats, photography, new techs, and most sports (especially basketball and water sports). I lived in China, Singapore, Saudi Arabia, and the US, and want to live in different places to experience the lifestyle of local people. I enjoy adventures and challenges. I love my life.

  • Peer review statement: I am pleased to be invited for peer review in my research field. I will try my best to complete the review within two weeks. I apply the same high standards to every paper, aiming for the utmost potential of the topic. However, I do not expect the authors to address every suggestion I make and leave the final judgment to the associate editor.

    		•

    Last updated: 10/21/2025 The website template is from Dr. John Barron.