Optical design of a compact and high-transmittance compressive sensing imaging system enabled by freeform optics

Dewen Cheng; Hailong Chen; Tong Yang; Jun Ke; Yang Li; Yongtian Wang

doi:10.3788/COL202119.112202

Optical design of a compact and high-transmittance compressive sensing imaging system enabled by freeform optics

Dewen Cheng, Hailong Chen, Tong Yang^*, Jun Ke, Yang Li, Yongtian Wang

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Using compressive sensing for imaging has many applications, and it is an important branch of computational imaging. In this Letter, freeform surfaces are introduced in the hardware optical system design of a compressive sensing imager. The system works under the medium wave infrared band and realizes a 16× compression with a field-of-view of 7.5° × 6°. Good imaging performance is achieved in both the entire system and the freeform objective optics. Compared with the system using all spherical lenses, the volume of the freeform system is about 1/3 smaller, and the total transmittance is about 56% higher, which shows the benefits of using freeform surfaces for compressive sensing and computational imaging.

Original language	English
Article number	112202
Journal	Chinese Optics Letters
Volume	19
Issue number	11
DOIs	https://doi.org/10.3788/COL202119.112202
Publication status	Published - 10 Nov 2021

Keywords

Compactness and high-transmittance
Compressive sensing
Freeform optics
Joint optimization

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10.3788/COL202119.112202

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abstract = "Using compressive sensing for imaging has many applications, and it is an important branch of computational imaging. In this Letter, freeform surfaces are introduced in the hardware optical system design of a compressive sensing imager. The system works under the medium wave infrared band and realizes a 16× compression with a field-of-view of 7.5° × 6°. Good imaging performance is achieved in both the entire system and the freeform objective optics. Compared with the system using all spherical lenses, the volume of the freeform system is about 1/3 smaller, and the total transmittance is about 56% higher, which shows the benefits of using freeform surfaces for compressive sensing and computational imaging.",

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AU - Ke, Jun

AU - Li, Yang

AU - Wang, Yongtian

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AB - Using compressive sensing for imaging has many applications, and it is an important branch of computational imaging. In this Letter, freeform surfaces are introduced in the hardware optical system design of a compressive sensing imager. The system works under the medium wave infrared band and realizes a 16× compression with a field-of-view of 7.5° × 6°. Good imaging performance is achieved in both the entire system and the freeform objective optics. Compared with the system using all spherical lenses, the volume of the freeform system is about 1/3 smaller, and the total transmittance is about 56% higher, which shows the benefits of using freeform surfaces for compressive sensing and computational imaging.

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Optical design of a compact and high-transmittance compressive sensing imaging system enabled by freeform optics

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Keywords

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