초록 ▼

A method and apparatus to evaluate print quality determines an indicator thereof by measuring a reflectance of printed dots by scanning a medium on which pattern data having a predetermined pattern is printed. The predetermined pattern includes a highlight region and a shadow region. An average of r

A method and apparatus to evaluate print quality determines an indicator thereof by measuring a reflectance of printed dots by scanning a medium on which pattern data having a predetermined pattern is printed. The predetermined pattern includes a highlight region and a shadow region. An average of reflectances of the highlight region in the predetermined pattern and an average of reflectances of the shadow region thereof are determined, and a contrast value is determined from a difference between the averages. The indicator is determined from the contrast value. Accordingly, deterioration of print quality that occurs due to a mismatch of a print position is considered, and furthermore, a change in print gradation and a degree of mixing with noise components is also considered in the print quality evaluation.

대표청구항 ▼

1. A method of evaluating print quality, the method comprising: measuring a reflectance of printed dots by scanning a medium on which the dots are printed according to pattern data of an ideal shading model having a predetermined pattern of a highlight region and a shadow region of at least one reso

1. A method of evaluating print quality, the method comprising: measuring a reflectance of printed dots by scanning a medium on which the dots are printed according to pattern data of an ideal shading model having a predetermined pattern of a highlight region and a shadow region of at least one resolution;classifying pixels of a scan image based on the measured reflectance as a highlight region or a shadow region, by mapping the scan image onto the ideal shading model;determining an average of reflectances of the highlight region of the classified pixels in the predetermined pattern and an average of reflectances of the shadow region of the classified pixels thereof;determining a contrast value from a difference between the average of the reflectances of the highlight region and the average of the reflectances of the shadow region; anddetermining an indicator of the print quality based on a resolution limit or an area obtained using the contrast value. 2. The method of claim 1, wherein the classifying of the pixels classifies the pixels respectively assigned a value corresponding to a reflectance of a corresponding one of the printed dots from the scanning thereof as corresponding to the printed dots in the highlight region or the shadow region of the predetermined pattern. 3. The method of claim 2, wherein the classifying of pixels further comprises: determining a position of each of the pixels, the pixels being classified into the highlight region and the shadow region in the predetermined pattern on the basis of the position of each of the pixels. 4. The method of claim 2, wherein the classifying of the pixels further comprises: mapping pixels of the scan image onto pixels of the ideal shading model. 5. The method of claim 1, wherein the contrast value is determined through machine computations of the following equations: R_0=1n0⁢∑i∈Ω0⁢R⁡(xi,yi);R_1=1n1⁢∑j∈Ω1⁢R⁡(xj,yj);andCt=k·R_1-R_0·100,wherein, R0, R1, and Ct respectively denote the average of reflectances of the shadow region, the average of reflectances of the highlight region, and the contrast value; n0 and n1 denote the numbers of pixels used to obtain the average of reflectances of the shadow region and the average of reflectances of the highlight region, respectively; R(x, y) denotes a reflectance assigned to the pixel at coordinates (x, y); Ω0 and Ω1 respectively denote a set of pixels included in the shadow region and a set of pixels included in the highlight region; and k is a constant. 6. The method of claim 1, wherein the predetermined pattern includes a plurality of bar patterns in which the highlight region and the shadow region have widths corresponding to a plurality of predetermined resolution values, the contrast values being determined from each of the bar patterns. 7. An apparatus to evaluate print quality, the apparatus comprising: a scanner to obtain a reflectance of printed dots on a medium and to assign the reflectance to at least one pixel in a scan image, the dots printed according to pattern data of an ideal shading model having a predetermined pattern of a highlight region and a shadow region of at least one resolution;a pixel classifier to classify pixels of a scan image based on the obtained reflectance into a highlight region or a shadow region, by mapping the ideal shading model and the scan image;a contrast determining unit to determine an average of reflectances of the highlight region of the classified pixels in the predetermined pattern and an average of reflectances of the shadow region of the classified pixels thereof, and to determine a contrast value from a difference between the average of reflectances of the highlight region and the average of reflectances of the shadow region; andan indicator determining unit to determine an indicator of the print quality based on a resolution limit or an area obtained using the determined contrast value. 8. The apparatus of claim 7, further comprising: a pixel classifier to classify the pixels as being from the highlight region or the shadow region of the predetermined pattern. 9. The apparatus of claim 8, further comprising: a position determining unit to determine a position of each of the pixels in relation to a position of the corresponding dot in the predetermined pattern, wherein the pixel classifier classifies pixels as being from the highlight region or the shadow region in the predetermined pattern from the determined position of each of the pixels. 10. The apparatus of claim 8, wherein the pixel classifier classifies the pixels into the highlight region and the shadow region of the predetermined pattern by mapping pixels of the scan image based on the measured reflectance onto pixels of the ideal shading model. 11. The apparatus of claim 7, wherein the contrast value is determined through machine computations of the following equations: R_0=1n0⁢∑i∈Ω0⁢R⁡(xi,yi);R_1=1n1⁢∑j∈Ω1⁢R⁡(xj,yj);andCt=k·R_1-R_0·100, wherein, R0, R1, and Ct respectively denote the average of reflectances of the shadow region, the average of reflectances of the highlight region, and the contrast value; n0 and n1 denotes the numbers of pixels used to obtain the averages, respectively; R(x, y) denotes a reflectance assigned to the pixel at coordinates (x, y); Ω0 and Ω1 respectively denote a set of pixels included in the shadow region and a set of pixels included in the highlight region; and k is a constant. 12. The apparatus of claim 7, wherein the predetermined pattern includes a plurality of bar patterns in which the highlight region and the shadow region have widths corresponding to a plurality of predetermined resolution values, the contrast determining unit determining the contrast values corresponding to each of the bar patterns.