Volume-sharing Multi-aperture Imaging (VMAI): A Potential Approach for Volume Reduction for Space-borne Imagers

Jun Ho Lee; Jun Ho Lee; Seok Gi Han; Do Hee Kim; Seokyoung Ju; Tae Kyung Lee; Chang Hoon Song; Myoungjoo Kang; Seonghui Kim; Seohyun Seong

Current Optics and Photonics
Vol. 7,
Issue 5,
pp. 545-556
(2023)

Volume-sharing Multi-aperture Imaging (VMAI): A Potential Approach for Volume Reduction for Space-borne Imagers

Jun Ho Lee, Seok Gi Han, Do Hee Kim, Seokyoung Ju, Tae Kyung Lee, Chang Hoon Song, Myoungjoo Kang, Seonghui Kim, and Seohyun Seong

Open Access

Get PDF
Email
Share
Get Citation
Copy Citation Text
Jun Ho Lee, Seok Gi Han, Do Hee Kim, Seokyoung Ju, Tae Kyung Lee, Chang Hoon Song, Myoungjoo Kang, Seonghui Kim, and Seohyun Seong, "Volume-sharing Multi-aperture Imaging (VMAI): A Potential Approach for Volume Reduction for Space-borne Imagers," Curr. Opt. Photon. 7, 545-556 (2023)

Export Citation
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
Save article

Abstract

This paper introduces volume-sharing multi-aperture imaging (VMAI), a potential approach proposed for volume reduction in space-borne imagers, with the aim of achieving high-resolution ground spatial imagery using deep learning methods, with reduced volume compared to conventional approaches. As an intermediate step in the VMAI payload development, we present a phase-1 design targeting a 1-meter ground sampling distance (GSD) at 500 km altitude. Although its optical imaging capability does not surpass conventional approaches, it remains attractive for specific applications on small satellite platforms, particularly surveillance missions. The design integrates one wide-field and three narrow-field cameras with volume sharing and no optical interference. Capturing independent images from the four cameras, the payload emulates a large circular aperture to address diffraction and synthesizes high-resolution images using deep learning. Computational simulations validated the VMAI approach, while addressing challenges like lower signal-to-noise (SNR) values resulting from aperture segmentation. Future work will focus on further reducing the volume and refining SNR management.

PDF Article

More Like This

Multi-aperture imaging for flat cameras

Guillem Carles and Andrew R. Harvey
Opt. Lett. 45(22) 6182-6185 (2020)

Multi-aperture system approach for snapshot multispectral imaging applications

Martin Hubold, Elisabeth Montag, René Berlich, Robert Brunner, and Robert Brüning
Opt. Express 29(5) 7361-7378 (2021)

Hand-held aperture-sharing camera for a multiview image set

Jung-Young Son, Jaesoon Kim, Do-Hyung Kim, Hyoung Lee, and Sumio Yano
J. Opt. Soc. Am. A 36(3) 428-435 (2019)

Previous Article Next Article

Cited By

Optica participates in Crossref's Cited-By Linking service. Citing articles from Optica Publishing Group journals and other participating publishers are listed here.

Abstract

Cited By

Current Optics and Photonics