Free-Running vs Synchronous: Single-Photon LiDAR for High-Flux 3D Imaging

Ruangrawee Kitichotkul, Shashwath Bharadwaj, Joshua Rapp, Yanting Ma, Alexander Mehta, Vivek K Goyal

ICCV 2025 pp. 25972-25982

/iccv/2025/kitichotkul2025iccv-freerunning/

Abstract

Conventional wisdom suggests that single-photon lidar (SPL) should operate in low-light conditions to minimize dead-time effects.Many methods have been developed to mitigate these effects in synchronous SPL systems. However, solutions for free-running SPL remain limited despite the advantage of reduced histogram distortion from dead times.To improve the accuracy of free-running SPL, we propose a computationally efficient joint maximum likelihood estimator of the signal flux, the background flux, and the depth, along with a complementary regularization framework that incorporates a learned point cloud score model as a prior.Simulations and experiments demonstrate that free-running SPL yields lower estimation errors than its synchronous counterpart under identical conditions, with our regularization further improving accuracy.

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Cite

Text

Kitichotkul et al. "Free-Running vs Synchronous: Single-Photon LiDAR for High-Flux 3D Imaging." International Conference on Computer Vision, 2025.

Markdown

[Kitichotkul et al. "Free-Running vs Synchronous: Single-Photon LiDAR for High-Flux 3D Imaging." International Conference on Computer Vision, 2025.](https://mlanthology.org/iccv/2025/kitichotkul2025iccv-freerunning/)

BibTeX

@inproceedings{kitichotkul2025iccv-freerunning,
  title     = {{Free-Running vs Synchronous: Single-Photon LiDAR for High-Flux 3D Imaging}},
  author    = {Kitichotkul, Ruangrawee and Bharadwaj, Shashwath and Rapp, Joshua and Ma, Yanting and Mehta, Alexander and Goyal, Vivek K},
  booktitle = {International Conference on Computer Vision},
  year      = {2025},
  pages     = {25972-25982},
  url       = {https://mlanthology.org/iccv/2025/kitichotkul2025iccv-freerunning/}
}