Detector pixel response Fourier spectrum acquisition-based image reconstruction method

A technology of detector pixel and image reconstruction, which is used in instruments, measuring devices, optical instrument testing, etc., and can solve problems such as being unsuitable for practical engineering applications.

Active Publication Date: 2016-08-10
NAT SPACE SCI CENT CAS
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Problems solved by technology

[0004] The purpose of the present invention is to overcome the defect that the existing pixel response function measurement method is not suitable for practical engineering applications, thereby providing an image reconstruction method based on frequency domain spatial measurement of pixel response

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  • Detector pixel response Fourier spectrum acquisition-based image reconstruction method
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[0028] The present invention will be further described now in conjunction with accompanying drawing.

[0029] refer to figure 1 , the image reconstruction method obtained based on detector pixel response Fourier spectrum of the present invention comprises the following steps:

[0030] Step 1), perform four-step phase-shifted sinusoidal fringe illumination on the array detector, and collect four-step phase-shifted sinusoidal fringe images; wherein, the array detector is phase-shifted in four steps when collecting images. In order to improve measurement accuracy, each phase-shifted acquisition Multi-frame sinusoidal fringe images, and the corresponding dark field images are collected under the same conditions, and the number of frames of the dark field images is consistent with that of the sinusoidal fringe images.

[0031] Step 2), preprocessing the four-step phase-shifted sinusoidal fringe image obtained in step 1), the preprocessing includes: performing multi-frame averaging...

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Abstract

The present invention relates to a detector pixel response Fourier spectrum acquisition-based image reconstruction method. The method includes the following steps that: four-step phase shifting sinusoidal fringe lighting is performed on an array detector, and four-step phase shifting sinusoidal fringe images are acquired; a plurality of frames of sinusoidal fringe images are acquired in phase shifting each time, corresponding dark field images are acquired under the same condition, the number of the frames of the dark field images is constantly consistent with the number of the frames of the sinusoidal fringe images; the four-step phase shifting sinusoidal fringe images are preprocessed; fringe inclination and fringe spacing are changed, the previous steps are repeated until the spatial frequency of the four-step phase shifting sinusoidal fringe images covers the spectrum range of the pixel response function of the array detector; the four-step phase shifting sinusoidal fringe images are utilized to calculate the frequency-domain pixel response function of the detector array; the frequency-domain pixel response function is utilized to solve the spatial spectrum of an incident light field; and inverse Fourier transformation is performed on the spatial spectrum of the incident light field, so that the intensity distribution of the incident light field is obtained.

Description

technical field [0001] The invention relates to the fields of image sensor calibration and digital image acquisition and processing, in particular to an image reconstruction method based on detector pixel response Fourier spectrum acquisition. Background technique [0002] Image sensors are used more and more widely in today's society, such as digital cameras, mobile phone cameras, remote sensing satellites, astronomical telescopes and so on. It is well known that the non-uniformity of the spatial response of the solid-state image sensor affects the point spread function of the image sensor, thereby affecting the imaging quality. The spatial response of any array detector which is invariant to spatial translation can be expressed by point spread function and modulation transfer function in real domain space and frequency domain space respectively, and these two representations are equivalent. Discretely sampled array detectors will destroy this spatial translation invarianc...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M11/00
CPCG01M11/0292
Inventor 李海涛李保权
Owner NAT SPACE SCI CENT CAS
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