BAYESIAN RESTORATION OF CHEST RADIOGRAPHS - SCATTER COMPENSATION WITH IMPROVED SIGNAL-TO-NOISE RATIO

被引：14

作者：

FLOYD, CE ^{[1
]}

BAYDUSH, AH ^{[1
]}

LO, JY ^{[1
]}

BOWSHER, JE ^{[1
]}

RAVIN, CE ^{[1
]}

机构：

[1] DUKE UNIV,DEPT BIOMED ENGN,DURHAM,NC 27706

来源：

INVESTIGATIVE RADIOLOGY | 1994年 / 29卷 / 10期

关键词：

DIGITAL THORACIC IMAGING; SCATTER REDUCTION;

D O I：

10.1097/00004424-199410000-00007

中图分类号：

R8 [特种医学]; R445 [影像诊断学];

学科分类号：

1002 ; 100207 ; 1009 ;

摘要：

OBJECTIVES. The authors introduce a Bayesian algorithm for digital chest radiography that increases the signal-to-noise ratio, and thus detectability, for low-contrast objects. METHOD. The improved images are formed as a maximum a posteriori probability estimation of a scatter-reduced (contrast-enhanced) image with decreased noise. Noise is constrained by including prior knowledge of image smoothness. Variations between neighboring pixels are penalized for small variations (to suppress Poisson noise), but not for larger variations (to avoid affecting anatomical structure). The technique was optimized to reduce residual scatter in digital radiographs of an anatomical chest phantom. RESULTS. The contrast in the lung was improved by a factor of two, whereas signal-to-noise ratio was improved by a factor of 1.8. Image resolution was unaffected for objects with a contrast greater than 2%. CONCLUSION. This statistical estimation technique shows promise for improving object detectability in radiographs by simultaneously increasing contrast, while constraining noise.

引用

页码：904 / 910

页数：7

共 22 条

[1] STUDIES OF PERFORMANCE OF ANTISCATTER GRIDS IN DIGITAL RADIOGRAPHY - EFFECT ON SIGNAL-TO-NOISE RATIO [J].

CHAN, HP ;

LAM, KL ;

WU, YZ .

MEDICAL PHYSICS, 1990, 17 (04) :655-664

[2] SINGLE-EXPOSURE CONVENTIONAL AND COMPUTED RADIOGRAPHY IMAGE ACQUISITION [J].

CHOTAS, HG ;

DOBBINS, JT ;

FLOYD, CE ;

RAVIN, CE .

INVESTIGATIVE RADIOLOGY, 1991, 26 (05) :438-445

[3]

CURRY TS, 1990, CHRISTENSENS INTRO P

[4] SCATTER COMPENSATION FOR DIGITAL CHEST RADIOGRAPHY USING MAXIMUM-LIKELIHOOD EXPECTATION MAXIMIZATION [J].

FLOYD, CE ;

BAYDUSH, AH ;

LO, JY ;

BOWSHER, JE ;

RAVIN, CE .

INVESTIGATIVE RADIOLOGY, 1993, 28 (05) :427-433

[5] QUANTITATIVE SCATTER MEASUREMENT IN DIGITAL RADIOGRAPHY USING A PHOTOSTIMULABLE PHOSPHOR IMAGING-SYSTEM [J].

FLOYD, CE ;

LO, JY ;

CHOTAS, HG ;

RAVIN, CE .

MEDICAL PHYSICS, 1991, 18 (03) :408-413

[6] QUANTITATIVE RADIOGRAPHIC IMAGING USING A PHOTOSTIMULABLE PHOSPHOR SYSTEM [J].

FLOYD, CE ;

CHOTAS, HG ;

DOBBINS, JT ;

RAVIN, CE .

MEDICAL PHYSICS, 1990, 17 (03) :454-459

[7] POSTERIOR BEAM-STOP METHOD FOR SCATTER FRACTION MEASUREMENT IN DIGITAL RADIOGRAPHY [J].

FLOYD, CE ;

BAKER, JA ;

LO, JY ;

RAVIN, CE .

INVESTIGATIVE RADIOLOGY, 1992, 27 (02) :119-123

[8] SCATTER COMPENSATION IN DIGITAL CHEST RADIOGRAPHY USING FOURIER DECONVOLUTION [J].

FLOYD, CE ;

BEATTY, PT ;

RAVIN, CE .

INVESTIGATIVE RADIOLOGY, 1989, 24 (01) :30-33

[9] CONVERGENCE OF THE MAXIMUM-LIKELIHOOD RECONSTRUCTION ALGORITHM FOR EMISSION COMPUTED-TOMOGRAPHY [J].

FLOYD, CE ;

JASZCZAK, RJ ;

COLEMAN, RE .

PHYSICS IN MEDICINE AND BIOLOGY, 1987, 32 (04) :463-476

[10] STOCHASTIC RELAXATION, GIBBS DISTRIBUTIONS, AND THE BAYESIAN RESTORATION OF IMAGES [J].

GEMAN, S ;

GEMAN, D .

IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE, 1984, 6 (06) :721-741

← 1 2 3 →