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                Agfa CR圖像增強MUSICA算法
              
            
            
            		
        
            
        
             
          
		  	
            
              
             
                 
            
                    
             
                        
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                      Image Processing
            
in Computed Radiography
            
Pieter Vuylsteke, Ph.D.
            
Emile Schoeters, Ph.D.
            
Agfa-Gevaert N.V.
            
International Symposium on
            
Computerized Tomography for Industrial Applications
            
and Image Processing in Radiology
            
Berlin, Germany
            
March 15-17, 1999
            
R&D Equipment
            
2
            
1. ABSTRACT 3
            
2. INTRODUCTION 3
            
3. CR IMAGE PROCESSING OVERVIEW 3
            
4. IMAGE CONTRAST ENHANCEMENT 5
            
4.A. Edge enhancement 5
            
4.B. Dynamic range compression 7
            
4.C. Multiscale contrast enhancement 7
            
4.C.1. The multiscale representation 8
            
4.C.2. Contrast equalization 10
            
4.C.3. Frequency processing 12
            
5. CONCLUSION 15
            
6. ACKNOWLEDGMENTS 15
            
7. REFERENCES 15
            
3
            
1. ABSTRACT
            
This article starts with an overview of image processing techniques used in storage phosphor
            
based Computed Radiography (CR) systems. Next it elaborates on a selection of image enhancement
            
algorithms. Both the working principles and image quality issues are discussed. The main focus is on
            
multiscale image enhancement, which has become state-of-the-art.
            
2. INTRODUCTION
            
Since the early days of CR technology developers have investigated solutions for bridging the
            
gap between the very large dynamic range that characterizes the CR detector and the limited range of
            
the output medium and viewing process. A considerable part of image processing functionality in
            
current CR systems deals directly or indirectly with the issue of manipulating image contrast, in such
            
a way that all relevant image features are rendered to an appropriate level of visibility, despite the
            
restriction of viewing density range. CR equipment manufacturers have adopted basic image
            
processing techniques, or they have developed dedicated solutions.
            
With this article it is our aim to provide a better understanding of the essential image
            
enhancement techniques of CR systems, what their purpose is, how they operate, and how they affect
            
image quality.
            
3. CR IMAGE PROCESSING OVERVIEW
            
A simplified diagram of the image processing operations in current CR systems is depicted in
            
Fig. 3.1. The ensemble of operations applied to the stream of image data could be roughly entitled
            
‘image enhancement’. The role of image processing functions within this data path is to improve the
            
visual quality of the CR image in terms of spatial resolution, sharpness, contrast resolution, dynamic
            
range, SNR. The processing efforts in the main path have to do with maximizing the information
            
transfer to the viewer. The enhancement of image contrast is the main topic of this article and will be
            
elaborated in section 4.
            
The image processing operations are controlled by parameters, which often are assigned a
            
value in accordance with the examination type. The predefined parameter values are stored in tables,
            
with entries for each examination type. Specification of the examination type is done immediately
            
before or after each exposure by means of an identification terminal, and hence is prone to human
            
errors.
            
In current CR systems some image processing functions are controlled by internal parameters
            
which are derived from the actual image data. The parameter values are estimated by heuristic
            
algorithms. This way the kind and degree of enhancement are adapted to the specific characteristics of
            
the image in terms of density levels, dynamic range, noise level, or the presence of irrelevant regions
            
like collimation borders. In most cases a reduced version of the original image is used as input for
            
analysis, since this still contains the essential data for the task at hand. Although the final purpose of
            
the analysis work is very similar among different equipment, most algorithms are proprietary, so that
            
only little is published about their actual implementation.            		
                    
            
                  
            		
              
            
              
             
                 
            
                    
             
                       
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