Contrast MTF between sub-pixel arithmetic and over-sampling imaging considering filling rate

Yi Nan Chen; Wei Qi Jin; Xia Wang; Chao Xu

Contrast MTF between sub-pixel arithmetic and over-sampling imaging considering filling rate

Yi Nan Chen^*, Wei Qi Jin, Xia Wang, Chao Xu

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

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

7 Citations (Scopus)

Abstract

In order to model the estimation for the over-sample and sub-pixel imaging considering the detector's filling rate, the detector pixel spread function is derived adversely by the sub-pixel arithmetic. Compared to the over-sample imaging under the 1/m micro-scanning, not only is the sample distance reduced but also the rectangle size of cell detector is compressed to 1/m of the original after the process of sub-pixel arithmetic. Based on the definition of MTF and first-zero frequency, image improvement using sub-pixel arithmetic is larger than the over-sample transform under the same filling rate, and this predominance is boosted up when the filling rate increases. This conclusion in comparison gives evidences in theory for the prospective and advantage of sub-pixel arithmetic imaging.

Original language	English
Pages (from-to)	148-152
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	27
Issue number	2
Publication status	Published - Feb 2007

Keywords

Average modulation transfer function
Filling rate
First-zero frequency
Over-sampling image
Sub-pixel image

Cite this

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title = "Contrast MTF between sub-pixel arithmetic and over-sampling imaging considering filling rate",

abstract = "In order to model the estimation for the over-sample and sub-pixel imaging considering the detector's filling rate, the detector pixel spread function is derived adversely by the sub-pixel arithmetic. Compared to the over-sample imaging under the 1/m micro-scanning, not only is the sample distance reduced but also the rectangle size of cell detector is compressed to 1/m of the original after the process of sub-pixel arithmetic. Based on the definition of MTF and first-zero frequency, image improvement using sub-pixel arithmetic is larger than the over-sample transform under the same filling rate, and this predominance is boosted up when the filling rate increases. This conclusion in comparison gives evidences in theory for the prospective and advantage of sub-pixel arithmetic imaging.",

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AU - Jin, Wei Qi

AU - Wang, Xia

AU - Xu, Chao

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N2 - In order to model the estimation for the over-sample and sub-pixel imaging considering the detector's filling rate, the detector pixel spread function is derived adversely by the sub-pixel arithmetic. Compared to the over-sample imaging under the 1/m micro-scanning, not only is the sample distance reduced but also the rectangle size of cell detector is compressed to 1/m of the original after the process of sub-pixel arithmetic. Based on the definition of MTF and first-zero frequency, image improvement using sub-pixel arithmetic is larger than the over-sample transform under the same filling rate, and this predominance is boosted up when the filling rate increases. This conclusion in comparison gives evidences in theory for the prospective and advantage of sub-pixel arithmetic imaging.

AB - In order to model the estimation for the over-sample and sub-pixel imaging considering the detector's filling rate, the detector pixel spread function is derived adversely by the sub-pixel arithmetic. Compared to the over-sample imaging under the 1/m micro-scanning, not only is the sample distance reduced but also the rectangle size of cell detector is compressed to 1/m of the original after the process of sub-pixel arithmetic. Based on the definition of MTF and first-zero frequency, image improvement using sub-pixel arithmetic is larger than the over-sample transform under the same filling rate, and this predominance is boosted up when the filling rate increases. This conclusion in comparison gives evidences in theory for the prospective and advantage of sub-pixel arithmetic imaging.

KW - Average modulation transfer function

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KW - First-zero frequency

KW - Over-sampling image

KW - Sub-pixel image

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Contrast MTF between sub-pixel arithmetic and over-sampling imaging considering filling rate

Abstract

Keywords

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