Toward all-in-focus lensless imaging with full-aperture radial masks

Optics Express

Abstract

Lensless imaging, which combines coded apertures with computational reconstruction, has emerged as a promising approach for realizing ultra-thin cameras. In our prior work, we demonstrated that designing the aperture in a radial pattern can greatly extend the depth of field of lensless systems [1]. However, to maintain reconstruction stability, it was necessary to restrict the effective aperture area, which in turn limited the achievable depth-of-field range. In this study, we overcome this bottleneck by developing a new lensless optical system that employs a full-aperture radial mask, together with a reconstruction algorithm optimized for its characteristics. This enables imaging that is significantly closer to “all-in-focus” while maintaining a compact optical and computational design. Through numerical simulations and prototype experiments, we demonstrated the feasibility of an ultra-thin camera capable of capturing both near and far objects sharply at the same time. We also confirm its applicability to various tasks, including character recognition, QR-code reading, and imaging of natural objects.
[1] José Reinaldo Cunha Santos A. V. Silva Neto, Tomoya Nakamura, Yasushi Makihara, and Yasushi Yagi, “Extended Depth-of-Field Lensless Imaging using an Optimized Radial Mask,” IEEE Transactions on Computational Imaging, Vol. 9, pp. 857-868 (2023).

Citation

José Reinaldo Cunha Santos A. V. Silva Neto, Hodaka Kawachi, Yasushi Yagi, and Tomoya Nakamura, ” Toward all-in-focus lensless imaging with full-aperture radial masks,” Optics Express, Vol. 33, No. 23, pp. 48112-48129, 2025.