In this letter, a specifically designed coded aperture compressive temporal imaging (CACTI) system using complementary codes instead of random ones and an untrained neural network-based reconstruction algorithm is presented. Experimental and simulation tests show that this co-design approach produces superior image quality compared to other CACTI schemes. Additionally, a dual-prism design in the optical system improves light efficiency by approximately four times.
The coded aperture compressive temporal imaging (CACTI) modality is capable of capturing dynamic scenes with only a single-shot of a 2D detector. In this Letter, we present a specifically designed CACTI system to boost the reconstruction quality. Our design is twofold: for the optical encoder, we use complementary codes instead of random ones as widely adopted before; for the reconstruction algorithm, an untrained neural network-based algorithm is developed. Experimental and simulation tests show that such co-design of encoding-decoding produces superior image quality over other CACTI schemes using random codes and other optimization algorithms. In addition, a dual-prism design in the optical system improves the light efficiency by approximately a factor of four compared with previous systems. (c) 2022 Optica Publishing Group
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