Add to ORKGIn digital radiographic systems, a tradeoff exists between image resolution (or blur) and noise characteristics. An im-aging system may only be superior in one image quality characteristic while being inferior to another in the other characteristic. In this work, a computer simulation model is presented that is to use mutual-information (MI) metric to examine tradeoff behavior between resolution and noise. MI is used to express the amount of information that an output image contains about an input object. The basic idea is that when the amount of the uncertainty associated with an ob-ject before and after imaging is reduced, the difference of the uncertainty is equal to the value of MI. The more the MI value provides, the better the image q...
Objectives. In this work, a simple technique to assess the image quality characteristics of the post...
This paper presents a simple and straightforward method for synthetically evaluating digital radiogr...
Purpose: To investigate the relative importance of spatial resolution and noise on the image quality...
Information on physical image quality of medi-cal images is important for imaging system assessment ...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
o evaluate the performance of three digital devices regarding the noise added to digital radiographi...
Objectives. In this work, a simple technique to assess the image quality characteristics of the post...
This paper presents a simple and straightforward method for synthetically evaluating digital radiogr...
Purpose: To investigate the relative importance of spatial resolution and noise on the image quality...
Information on physical image quality of medi-cal images is important for imaging system assessment ...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
Digital radiography is a field of great interest; a wide range of different imaging systems is now b...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
We have studied the effect of the simultaneous variation of contrast, noise, and blur on the perceiv...
o evaluate the performance of three digital devices regarding the noise added to digital radiographi...
Objectives. In this work, a simple technique to assess the image quality characteristics of the post...
This paper presents a simple and straightforward method for synthetically evaluating digital radiogr...
Purpose: To investigate the relative importance of spatial resolution and noise on the image quality...