Binary Coded Aperture Design by Sphere Packing in Compressive Ultrafast Photography

Date:

Recommended citation: N. Diaz, M. Beniwal, F. Guzmán, M. Marquez, J. Liang, and E. Vera. “Binary Coded Aperture Design by Sphere Packing in Compressive Ultrafast Photography,” in Optica Sensing Congress 2024 (AIS, LACSEA, Sensors, QSM), paper JF3A.4. [Paper], [Link], [Presentation]

This work presents a binary coded aperture (CA) design using sphere packing (SP) to determine the number of light entries in a compressive ultrafast photography (CUP) system. Our proposed approach leverages the uniform sensing that yields SP and the temporal shifting induced by the galvanometer to achieve uniform sensing.

Cite

@inproceedings{Diaz:24,
author = {Nelson D\'{i}az and Madhu Beniwal and Felipe Guzm\'{a}n and Miguel Marquez and Jinyang Liang and Esteban Vera},
booktitle = {Optica Sensing Congress 2024 (AIS, LACSEA, Sensors, QSM)},
journal = {Optica Sensing Congress 2024 (AIS, LACSEA, Sensors, QSM)},
keywords = {Apertures; Deep learning; Multispectral imaging; Photography; Spatial resolution; Systems design},
pages = {JF3A.4},
publisher = {Optica Publishing Group},
title = {Binary Coded Aperture Design by Sphere Packing in Compressive Ultrafast Photography},
year = {2024},
url = {https://opg.optica.org/abstract.cfm?URI=AIS-2024-JF3A.4},
abstract = {This work presents a binary coded aperture (CA) design using sphere packing (SP) to determine the number of light entries in a compressive ultrafast photography (CUP) system. Our proposed approach leverages the uniform sensing that yields SP and the temporal shifting induced by the galvanometer to achieve uniform sensing.},
}