| 2022-CHAN-69559 | |
| Researchers at Purdue University developed a method of photon detection in low-light conditions that limits noise using a non-local module and a student-teacher network. The non-local module ("student") aggregates the light from bursts of frames instead of single frames, and the student is trained to match the features produced by a teacher, which detects light in high-photon conditions. Existing techniques for image processing are not designed for photon-limited conditions; attempts to overcome photon-limited conditions are less successful when the noise is strong. Integrated with the latest photon counting devices, the algorithm developed by the Purdue researchers achieves more than 50% mean average precision at a photon level of 1 photon per pixel, which is over 6% higher than the market leader. The high performance demonstrated by this algorithm in low-light conditions has potential applications in night vision, surveillance, and microscopy. Related Publication: C. Li, X. Qu, A. Gnanasambandam, O. A. Elgendy, J. Ma and S. H. Chan, "Photon-Limited Object Detection using Non-local Feature Matching and Knowledge Distillation," 2021 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW), Montreal, BC, Canada, 2021, pp. 3959-3970, doi: 10.1109/ICCVW54120.2021.00443. Technology Validation: Integrated with the latest photon counting devices, the algorithm achieves more than 50% mean average precision at a photon level of 1 photon per pixel, which is over 6% higher than the market leader. Advantages: -Versatile -Precise -Limits shot noise Applications: -Night vision -Surveillance -Microscopy |
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Oct 11, 2022
Utility-Gov. Funding
United States
(None)
(None)
Oct 10, 2021
Provisional-Gov. Funding
United States
(None)
(None)
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Purdue Office of Technology Commercialization The Convergence Center 101 Foundry Drive, Suite 2500 West Lafayette, IN 47906 Phone: (765) 588-3475 Fax: (765) 463-3486 Email: otcip@prf.org |
