Multi-spectral imaging is a fundamental tool characterizing the constituent energy of scene radiation. However, current multi-spectral video cameras cannot scale up beyond megapixel resolution due to optical constraints and the complexity of the reconstruction algorithms. To circumvent the above issues, we propose a tens-of-megapixel handheld multi-spectral videography approach (THETA), with a proof-of-concept camera achieving 65-megapixel videography of 12 wavebands within visible light range. The high performance is brought by multiple designs: We propose an imaging scheme to fabricate a thin mask for encoding spatio-spectral data using a conventional film camera. Afterwards, a fiber optic plate is introduced for building a compact prototype supporting pixel-wise encoding with a large space-bandwidth product. Finally, a deep-network-based algorithm is adopted for large-scale multi-spectral data decoding, with the coding pattern specially designed to facilitate efficient coarse-to-fine model training. Experimentally, we demonstrate THETA’s advantageous and wide applications in outdoor imaging of large macroscopic scenes.
CITATION STYLE
Zhang, W., Suo, J., Dong, K., Li, L., Yuan, X., Pei, C., & Dai, Q. (2023). Handheld snapshot multi-spectral camera at tens-of-megapixel resolution. Nature Communications, 14(1). https://doi.org/10.1038/s41467-023-40739-3
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