Optical correlator-based computational ghost imaging towards high-speed computational ghost imaging

Inoue Ayano; Usami Ren; Saito Keisuke; Honda Yasunobu; Ikeda Kanami; Watanabe Eriko

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Optical correlator-based computational ghost imaging towards high-speed computational ghost imaging

机译：基于光学相关器的计算鬼映像向高速计算鬼成像

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Computational ghost imaging (CGI) has received increasing attention as a single pixel imaging technique. However, the application of the CGI technique to moving objects requires further investigation because it requires a large number of patterns at high speeds. In this study, we propose and experimentally demonstrate optical correlator-based CGI as a step towards high-speed CGI. Our optical correlator plays the role of a spatial light modulator and correlates a target object to known patterns of general computational imaging. We experimentally verified that the RMS error of the reconstructed images is similar to that of the numerical calculations. If one reconstructed image is acquired using 1000 random binary patterns, the imaging frame rate of 133.7 fps will be achieved. This provides high-speed CGI applicable to moving objects and other phenomena. (C) 2019 The Japan Society of Applied Physics

机译：计算鬼映像（CGI）已收到对单个像素成像技术的增加。然而，将CGI技术应用于移动物体需要进一步调查，因为它需要高速的大量模式。在这项研究中，我们提出并通过实验证明基于光学相关器的CGI作为朝向高速CGI的步骤。我们的光学相关器扮演空间光调制器的作用，并将目标对象与已知的一般计算成像模式相关联。我们通过实验验证了重建图像的RMS误差类似于数值计算的误差。如果使用1000个随机二进制模式获取一个重建图像，则将实现133.7fps的成像帧速率。这提供了适用于移动物体和其他现象的高速CGI。（c）2019年日本应用物理学会

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《Japanese journal of applied physics》 |2019年第sk期|SKKA02.1-SKKA02.5|共5页
作者
Inoue Ayano; Usami Ren; Saito Keisuke; Honda Yasunobu; Ikeda Kanami; Watanabe Eriko;
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Univ Electrocommun 1-5-1 Chofugaoka Chofu Tokyo 1828585 Japan;

Univ Electrocommun 1-5-1 Chofugaoka Chofu Tokyo 1828585 Japan;

Univ Electrocommun 1-5-1 Chofugaoka Chofu Tokyo 1828585 Japan;

Univ Electrocommun 1-5-1 Chofugaoka Chofu Tokyo 1828585 Japan;

Osaka Prefecture Univ Naka Ku 1-1 Gakuen Chou Sakai Osaka 5998531 Japan;

Univ Electrocommun 1-5-1 Chofugaoka Chofu Tokyo 1828585 Japan;

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1. Random-matrix bases, ghost imaging, and x-ray phase contrast computational ghost imaging [J] . David Ceddia, David M. Paganin Physical Review, A . 2018,第6aPta1期

机译：随机矩阵基础，鬼映像和X射线相位对比计算鬼成像
2. An optical image encryption based on computational ghost imaging with sparse reconstruction [J] . Sui Liansheng, Pang Zhi, Cheng Ying, Optics and Lasers in Engineering . 2021,第Auga期

机译：一种基于计算鬼魂成像的光学图像加密，稀疏重建
3. Optical image encryption via high-quality computational ghost imaging using iterative phase retrieval [J] . Sui Liansheng, Cheng Yin, Li Bing, Laser physics letters . 2018,第7期

机译：光学图像加密通过使用迭代相位检索的高质量计算鬼映像
4. The improved method of interpolation computational ghost imaging in　computational ghost imaging [C] . Yujian Liu, Heng Yuan, Zhaohua Yang, Symposium on Novel Optoelectronic Detection Technology and Application;Society of Photo-Optical Instrumentation Engineers;Chinese Society of Optical Engineering;Science and Technology on Low-Light-Level Night Vision Laboratory . 2018

机译：计算重影中插值计算重影的改进方法
5. The x-ray time of flight method for investigation of ghosting in amorphous selenium based flat panel medical x-ray imagers. [D] . Rau, Andreas W. 2005

机译：X射线飞行时间方法，用于研究基于非晶硒的平板医学X射线成像仪中的重影。
6. DeepGhost: real-time computational ghost imaging via deep learning [O] . Saad Rizvi, Jie Cao, Kaiyu Zhang, -1

机译：DeepGhost：通过深度学习进行实时计算重影成像
7. DeepGhost: real-time computational ghost imaging via deep learning [O] . Saad Rizvi, Jie Cao, Kaiyu Zhang, 2020

机译：DeepGhost：通过深度学习实时计算鬼映像

Optical correlator-based computational ghost imaging towards high-speed computational ghost imaging

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