Defective pixel map creation based on wavelet analysis in digital radiography detectors

Chun Joo Park; Hyoung Koo Lee; William Y. Song; Thorsten Graeve Achterkirchen; Ho Kyung Kim

doi:10.1016/j.nima.2011.01.037

Defective pixel map creation based on wavelet analysis in digital radiography detectors

Chun Joo Park, Hyoung Koo Lee, William Y. Song, Thorsten Graeve Achterkirchen, Ho Kyung Kim

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

10 Scopus citations

Abstract

The application of digital radiography detectors has attracted increasing attention in both medicine and industry. Since the imaging detectors are fabricated by semiconductor manufacturing process over large areas, defective pixels in the detectors are unavoidable. Moreover, the radiation damage due to the routine use of the detectors progressively increases the density of defective pixels. In this study, we present a method of identifying defective pixels in digital radiography detectors based on wavelet analysis. Artifacts generated due to wavelet transformations have been prevented by an additional local threshold method. The proposed method was applied to a sample digital radiography and the result was promising. The proposed method uses a single pair of dark and white images and does not require them to be corrected in gain-and-offset properties. This method will be helpful for the reliable use of digital radiography detectors through the working lifetime.

Original language	English (US)
Pages (from-to)	101-105
Number of pages	5
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	634
Issue number	1
DOIs	https://doi.org/10.1016/j.nima.2011.01.037
State	Published - Apr 1 2011
Externally published	Yes

Keywords

CMOS
Defective pixel map
Digital radiography
Flat-panel detector
Wavelet transformation
X-ray

ASJC Scopus subject areas

Nuclear and High Energy Physics
Instrumentation

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10.1016/j.nima.2011.01.037

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Defective pixel map creation based on wavelet analysis in digital radiography detectors. / Park, Chun Joo; Lee, Hyoung Koo; Song, William Y. et al.
In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 634, No. 1, 01.04.2011, p. 101-105.

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

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title = "Defective pixel map creation based on wavelet analysis in digital radiography detectors",

abstract = "The application of digital radiography detectors has attracted increasing attention in both medicine and industry. Since the imaging detectors are fabricated by semiconductor manufacturing process over large areas, defective pixels in the detectors are unavoidable. Moreover, the radiation damage due to the routine use of the detectors progressively increases the density of defective pixels. In this study, we present a method of identifying defective pixels in digital radiography detectors based on wavelet analysis. Artifacts generated due to wavelet transformations have been prevented by an additional local threshold method. The proposed method was applied to a sample digital radiography and the result was promising. The proposed method uses a single pair of dark and white images and does not require them to be corrected in gain-and-offset properties. This method will be helpful for the reliable use of digital radiography detectors through the working lifetime.",

keywords = "CMOS, Defective pixel map, Digital radiography, Flat-panel detector, Wavelet transformation, X-ray",

author = "Park, {Chun Joo} and Lee, {Hyoung Koo} and Song, {William Y.} and Achterkirchen, {Thorsten Graeve} and Kim, {Ho Kyung}",

note = "Funding Information: This work was supported by a Grant-in-Aid for Strategy Technology Development Program (no. 10032060 ) funded by Ministry of Knowledge Economy (MKE, Korea).",

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AU - Lee, Hyoung Koo

AU - Song, William Y.

AU - Achterkirchen, Thorsten Graeve

AU - Kim, Ho Kyung

N1 - Funding Information: This work was supported by a Grant-in-Aid for Strategy Technology Development Program (no. 10032060 ) funded by Ministry of Knowledge Economy (MKE, Korea).

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N2 - The application of digital radiography detectors has attracted increasing attention in both medicine and industry. Since the imaging detectors are fabricated by semiconductor manufacturing process over large areas, defective pixels in the detectors are unavoidable. Moreover, the radiation damage due to the routine use of the detectors progressively increases the density of defective pixels. In this study, we present a method of identifying defective pixels in digital radiography detectors based on wavelet analysis. Artifacts generated due to wavelet transformations have been prevented by an additional local threshold method. The proposed method was applied to a sample digital radiography and the result was promising. The proposed method uses a single pair of dark and white images and does not require them to be corrected in gain-and-offset properties. This method will be helpful for the reliable use of digital radiography detectors through the working lifetime.

AB - The application of digital radiography detectors has attracted increasing attention in both medicine and industry. Since the imaging detectors are fabricated by semiconductor manufacturing process over large areas, defective pixels in the detectors are unavoidable. Moreover, the radiation damage due to the routine use of the detectors progressively increases the density of defective pixels. In this study, we present a method of identifying defective pixels in digital radiography detectors based on wavelet analysis. Artifacts generated due to wavelet transformations have been prevented by an additional local threshold method. The proposed method was applied to a sample digital radiography and the result was promising. The proposed method uses a single pair of dark and white images and does not require them to be corrected in gain-and-offset properties. This method will be helpful for the reliable use of digital radiography detectors through the working lifetime.

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KW - Digital radiography

KW - Flat-panel detector

KW - Wavelet transformation

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Defective pixel map creation based on wavelet analysis in digital radiography detectors

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Keywords

ASJC Scopus subject areas

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