Ghost imaging based on Pearson correlation coefficients

Wen Kai Yu; Xu Ri Yao; Xue Feng Liu; Long Zhen Li; Guang Jie Zhai

doi:10.1088/1674-1056/24/5/054203

Ghost imaging based on Pearson correlation coefficients

Wen Kai Yu, Xu Ri Yao, Xue Feng Liu, Long Zhen Li, Guang Jie Zhai^*

^*Corresponding author for this work

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

16 Citations (Scopus)

Abstract

Correspondence imaging is a new modality of ghost imaging, which can retrieve a positive/negative image by simple conditional averaging of the reference frames that correspond to relatively large/small values of the total intensity measured at the bucket detector. Here we propose and experimentally demonstrate a more rigorous and general approach in which a ghost image is retrieved by calculating a Pearson correlation coefficient between the bucket detector intensity and the brightness at a given pixel of the reference frames, and at the next pixel, and so on. Furthermore, we theoretically provide a statistical interpretation of these two imaging phenomena, and explain how the error depends on the sample size and what kind of distribution the error obeys. According to our analysis, the image signal-to-noise ratio can be greatly improved and the sampling number reduced by means of our new method.

Original language	English
Article number	054203
Journal	Chinese Physics B
Volume	24
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/24/5/054203
Publication status	Published - 1 May 2015
Externally published	Yes

Keywords

coherence
image forming and processing
probability theory

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10.1088/1674-1056/24/5/054203

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title = "Ghost imaging based on Pearson correlation coefficients",

abstract = "Correspondence imaging is a new modality of ghost imaging, which can retrieve a positive/negative image by simple conditional averaging of the reference frames that correspond to relatively large/small values of the total intensity measured at the bucket detector. Here we propose and experimentally demonstrate a more rigorous and general approach in which a ghost image is retrieved by calculating a Pearson correlation coefficient between the bucket detector intensity and the brightness at a given pixel of the reference frames, and at the next pixel, and so on. Furthermore, we theoretically provide a statistical interpretation of these two imaging phenomena, and explain how the error depends on the sample size and what kind of distribution the error obeys. According to our analysis, the image signal-to-noise ratio can be greatly improved and the sampling number reduced by means of our new method.",

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author = "Yu, {Wen Kai} and Yao, {Xu Ri} and Liu, {Xue Feng} and Li, {Long Zhen} and Zhai, {Guang Jie}",

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doi = "10.1088/1674-1056/24/5/054203",

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T1 - Ghost imaging based on Pearson correlation coefficients

AU - Yu, Wen Kai

AU - Yao, Xu Ri

AU - Liu, Xue Feng

AU - Li, Long Zhen

AU - Zhai, Guang Jie

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Correspondence imaging is a new modality of ghost imaging, which can retrieve a positive/negative image by simple conditional averaging of the reference frames that correspond to relatively large/small values of the total intensity measured at the bucket detector. Here we propose and experimentally demonstrate a more rigorous and general approach in which a ghost image is retrieved by calculating a Pearson correlation coefficient between the bucket detector intensity and the brightness at a given pixel of the reference frames, and at the next pixel, and so on. Furthermore, we theoretically provide a statistical interpretation of these two imaging phenomena, and explain how the error depends on the sample size and what kind of distribution the error obeys. According to our analysis, the image signal-to-noise ratio can be greatly improved and the sampling number reduced by means of our new method.

AB - Correspondence imaging is a new modality of ghost imaging, which can retrieve a positive/negative image by simple conditional averaging of the reference frames that correspond to relatively large/small values of the total intensity measured at the bucket detector. Here we propose and experimentally demonstrate a more rigorous and general approach in which a ghost image is retrieved by calculating a Pearson correlation coefficient between the bucket detector intensity and the brightness at a given pixel of the reference frames, and at the next pixel, and so on. Furthermore, we theoretically provide a statistical interpretation of these two imaging phenomena, and explain how the error depends on the sample size and what kind of distribution the error obeys. According to our analysis, the image signal-to-noise ratio can be greatly improved and the sampling number reduced by means of our new method.

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KW - image forming and processing

KW - probability theory

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JO - Chinese Physics B

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Ghost imaging based on Pearson correlation coefficients

Abstract

Keywords

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