Abstract:
Aspects of the present invention relate to systems and methods for refining text color in a digital image. A pixel of interest from a first plurality of pixels in a digital image may be selected, and the first plurality of pixels may be separated into a second plurality of pixels and a third plurality of pixels based on the color value of the pixel of interest. A refinement color value may be calculated based on the second plurality of pixels when the second plurality of pixels meets a quantity threshold. When the second plurality of pixels does not meet the quantity threshold, the refinement color value may be calculated based on the third plurality of pixels. The refinement color value may be assigned to the pixel of interest.

Description:
FIELD OF THE INVENTION 
     Embodiments of the present invention comprise methods and systems for refining text color in a digital image. 
     BACKGROUND 
     The content of a digital image may have considerable impact on the compression of the digital image, both in terms of compression efficiency and compression artifacts. Pictorial regions in an image may not be efficiently compressed using compression algorithms designed for the compression of text. Similarly, text images may not be efficiently compressed using compression algorithms that are designed and optimized for pictorial content. Not only may compression efficiency be affected when a compression algorithm designed for one type of image content is used on a different type of image content, but the decoded image may exhibit visible compression artifacts. 
     Additionally, image enhancement algorithms designed to sharpen text, if applied to pictorial image content, may produce visually annoying artifacts in some areas of the pictorial content. In particular, pictorial regions containing strong edges may be affected. While smoothing operations may enhance a natural image, the smoothing of text regions is seldom desirable. 
     Copiers, scanners and other imaging devices may use text segmentation when performing content-specific processing and compression on document, and other digital, images. Exemplary content-specific processing may comprise differential filtering and color enhancement. Exemplary content-specific compression may comprise layered compression schemes, where the contents of a document image are segmented into a high-resolution foreground layer and a lower resolution background. 
     Detection of text in digital images may be used so that content-type-specific image enhancement methods may be applied to the appropriate regions in a digital image. The detection of regions of a particular content type in a digital image may improve compression efficiency, reduce compression artifacts, and improve image quality when used in conjunction with a compression algorithm or image enhancement algorithm designed for the particular type of content. 
     SUMMARY 
     Some embodiments of the present invention comprise methods and systems for deriving a refinement color value for a pixel based on neighboring pixel values. 
     The foregoing and other objectives, features, and advantages of the invention will be more readily understood upon consideration of the following detailed description of the invention taken in conjunction with the accompanying drawings. 
    
    
     
       BRIEF DESCRIPTION OF THE SEVERAL DRAWINGS 
         FIG. 1  is a drawing showing an examination window comprising text pixels and non-text pixels; 
         FIG. 2 . is a chart showing embodiments of the present invention comprising derivation of a replacement color value from color values classified as similar to the color value of an examination pixel; 
         FIG. 3  is a chart showing embodiments of the present invention comprising derivation of a replacement color value from color values classified as similar to the color value of an examination pixel when a sufficient number of pixels may be classified as similar to the color value of the examination pixel; 
         FIG. 4  is a chart showing embodiments of the present invention comprising derivation of a replacement color value from color values classified as dissimilar to a background-color estimate; 
         FIG. 5  is a chart showing embodiments of the present invention comprising removing a pixel of interest from a text map when the color value of the pixel of interest is similar to a background-color estimate; and 
         FIG. 6  is a chart showing embodiments of the present invention comprising derivation of a replacement color value from color values classified as dissimilar to a background-color estimate. 
     
    
    
     DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS 
     Embodiments of the present invention will be best understood by reference to the drawings, wherein like parts are designated by like numerals throughout. The figures listed above are expressly incorporated as part of this detailed description. 
     It will be readily understood that the components of the present invention, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations. Thus, the following more detailed description of the embodiments of the methods and systems of the present invention is not intended to limit the scope of the invention but it is merely representative of the presently preferred embodiments of the invention. 
     Elements of embodiments of the present invention may be embodied in hardware, firmware and/or software. While exemplary embodiments revealed herein may only describe one of these forms, it is to be understood that one skilled in the art would be able to effectuate these elements in any of these forms while resting within the scope of the present invention. 
     The content of a digital image may have considerable impact on the compression of the digital image, both in terms of compression efficiency and compression artifacts. Pictorial regions in an image may not be efficiently compressed using compression algorithms designed for the compression of text. Similarly, text images may not be efficiently compressed using compression algorithms that are designed and optimized for pictorial content. Not only may compression efficiency be affected when a compression algorithm designed for one type of image content is used on a different type of image content, but the decoded image may exhibit visible compression artifacts. 
     Additionally, image enhancement algorithms designed to sharpen text, if applied to pictorial image content, may produce visually annoying artifacts in some areas of the pictorial content. In particular, pictorial regions containing strong edges may be affected. While smoothing operations may enhance a natural image, the smoothing of text regions is seldom desirable. 
     Copiers, scanners and other imaging devices may use text segmentation when performing content-specific processing and compression on document, and other digital, images. Exemplary content-specific processing may comprise differential filtering and color enhancement. Exemplary content-specific compression may comprise layered compression schemes, where the contents of a document image are segmented into a high-resolution foreground layer and a lower resolution background. 
     Detection of text in digital images may be used so that content-type-specific image enhancement methods may be applied to the appropriate regions in a digital image. The detection of regions of a particular content type in a digital image may improve compression efficiency, reduce compression artifacts, and improve image quality when used in conjunction with a compression algorithm or image enhancement algorithm designed for the particular type of content. 
     Text segmentation algorithms may identify textual content in an image. A text map may indicate which pixels in an image may correspond to text pixels. In some embodiments of the present invention, a text map may be a binary image, array or other data structure, in which the binary value of a pixel at a location in the text map may indicate whether or not the corresponding pixel in the image data may be part of a text character. The color value of the corresponding pixel in the image data may be referred to as the text-pixel color value or the non-text-pixel color value according to the binary value. 
     In alternative embodiments of the present invention, a text map may be a multi-valued image, array or other data structure, in which the value of a pixel at a location in the text map may indicate a certainty measure for the corresponding pixel in the image data. The certainty measure may indicate the membership value of the pixel in the text class. A text pixel may refer to a pixel with a text-map value in particular relationship to a threshold. The color value of the corresponding pixel in the image data may be referred to as the text-pixel color value. 
     Associated with a text pixel may be a text color. Noise and other artifacts may be introduced into a document image during a scanning processing which may result in color variations in connected pixels that constitute a single character, as well as in neighboring characters within a text block. Some embodiments of the present invention comprise methods and systems for reducing such fluctuations in text color. 
     In some embodiments of the present invention, a plurality of text-map pixels in a window centered around a pixel of interest may be examined.  FIG. 1  shows an exemplary window  2  in a text map with text-map pixels centered around a center pixel  4 . The center pixel  4  may be referred to as a pixel of interest or the examination pixel. For a binary text-map, a pixel in the window  2  may have a first value indicating that the pixel belongs to the text class. For example, a shaded pixel (of which 4 and 5 are exemplary), may indicate that the pixel is a text pixel. While an un-shaded pixel (of which 6 is exemplary), may indicate that the pixel is not a text pixel. 
     In some embodiments of the present invention, a refinement color value, also considered a replacement color value, for a text pixel of interest may be determined by examining the pixels in an examination window surrounding the text pixel of interest. In these embodiments, described in relation to  FIG. 2 , a color value representing a first color class may be selected  10 . Each text pixel in the examination window may be classified  11  into the first class or a second class based on the similarity between the color value of the text pixel and the representative color value for the first class. The refinement color value for the text pixel of interest may be derived  12  based on the color values of the pixels in each of the two classes. 
     Pixel color values may comprise a color representation in any color space including, but not limited to, RGB, sRGB, CMYK, YUV, YIQ, YCbCr, YPbPr, HSV, HSL, Lab and L*a*b*. 
     In some embodiments of the present invention, color similarity may be measured according to: 
                   α   ⁢            A   i     -     A   rep              +     β   ⁢            B   i     -     B   rep              +     γ   ⁢            C   i     -     C   rep                  α   +   β   +   γ       ,         
where (A i , B i , C i ) may be the color-component values for the ith text pixel in the examination window, (A rep , B rep , C rep ) may be the color-component values for the representative color value of the first class and (α, β, γ) may be weights associated with each color component. The contribution of each color component to the similarity measure may be controlled by the weights (α, β, γ).
 
     In alternative embodiments of the present invention, color similarity may be measured using a distance measurement between the text pixel color and the representative color. Exemplary color-distance measures may comprise an L 1  norm, an L 2  norm, a 2-dimensional city block distance measure between the chroma components of a luma-chroma-chroma color space representation, a 3-dimensional city block distance measure between the components of a 3-dimensional color space representation, a Euclidean distance measure, a weighted 2-dimensional city block distance measure between the chroma components of a luma-chroma-chroma color space representation, a weighted 3-dimensional city clock distance between the components of a 3-dimensional color space representation and other well-known-in-the-art distance measures. 
     Some embodiments of the present invention may be described in relation to  FIG. 3 . In these embodiments, the representative color value for the first class may be set  30  to the color value of the text pixel of interest. Text pixels classified  31  as belonging to the first class may comprise text pixels with color values substantially similar to the color value of the text pixel of interest. Text pixels classified  31  as belonging to the second class may comprise text pixels with color values substantially dissimilar to the color value of the text pixel of interest. Color classification  31  may comprise comparing the similarity measure to a predetermined threshold. The membership count in the each of the two classes may be determined  32 . Based on the membership counts  33 , the replacement color value for the text pixel of interest may be determined from the color values of the text pixels in the first class  37  or the second class  35 . 
     In some embodiments of the present invention, the replacement color value may be derived from the color values of the pixels in the first class  37  when the condition (C 1 &lt;Tsim and C 1 +C 2 ≧Ttot), where C 1  and C 2  may be the membership counts of the first class and the second class, respectively, and Tsim may be a first threshold and Ttot may be a second threshold, may be satisfied  36 . The replacement color value may be derived from the color values of the pixels in the second class  35  when this condition is not satisfied  34 . 
     In some embodiments of the present invention, the replacement color value, denoted (ω A , ω B , ω C ), may be derived from the color values of the pixels in the first class  37  according to: 
                 ω   A     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢     A   i           ,       ω   B     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢     B   i           ,       ω   C     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢       C   i     .                 
The replace color value may be derived from the color values of the pixels in the second class  35  according to:
 
                 ω   A     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢     A   i           ,       ω   B     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢     B   i           ,       ω   C     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢       C   i     .                 
In alternative embodiments, the replacement color value may be the class median color value.
 
     In alternative embodiments of the present invention, the color value for all text pixels within the examination window may be updated to the replacement color value. In still alternative embodiments, the color value for all text pixels within the examination window and within the first class may be updated to the replacement color value. 
     In some embodiments of the present invention, a local-background-color estimate may be used in the color refinement process. These embodiments may be described in relation to  FIG. 4 . In some embodiments of the present invention, a refinement color value, also considered a replacement color value, for a text pixel of interest may be determined by examining the pixels in an examination window surrounding the text pixel of interest. In these embodiments, a color value representing a first color class may be set to a local-background-color estimate  40 . The text pixels in an examination window may be classified into the first class and a second class  41 . The classification  41  may be based on the similarity of the text pixel color value to the representative color value. Similarity may be determined by methods described above. The replacement, or refinement, color value may be derived  42  from the color values text pixels classified into the second class. In some embodiments, the color value of the text pixel of interest around which the examination window is centered may be updated to the replacement color value. In alternative embodiments, the color value of all text pixels within the examination window may be updated to the replacement color value. In still alternative embodiments, the color value for all text pixels within the examination window that are also in the second class may be updated to the replacement color value. 
     In some embodiments of the present invention, if the color value of the text pixel of interest is substantially similar to the local-background-color estimate, then the text pixel may be removed from the text map. These embodiments may be described in relation to  FIG. 5 . A local-background-color estimate may be determined  50 . The local-background-color estimate may be provided as the result of foreground/background, or other processing, in a processing pipeline. In the absence of a preprocessing module that explicitly provides the local-background-color estimate, the local-background-color estimate may be determined from the color values of the pixels within the examination window. In some embodiments, the local-background-color estimate may comprise the mean, median, trimmed mean, or other combination, of the color values of the non-text pixels. The local-background-color estimate may be propagated from examination window to examination window, and the propagated color value used if all of the pixels within an examination window are text pixels. The examination pixel color value may be compared to the local-background-color estimate  51 , and if the examination pixel color value is substantially similar to the local-background-color estimate  52 , then the examination pixel may be removed from the text map  53 . If the examination pixel color value is not substantially similar to the local-background-color estimate  54 , then the local-background-color estimate may be selected  55  as the representative color value of a first color class. The text pixels in the examination window may be classified  56  into the first class and a second class. The similarity of the local-background-color estimate and a text pixel color value may be used to classify  56  the text pixel. The replacement color value may be derived from the color values of the text pixels classified in the second class  57 . The replacement color value may be the mean, trimmed mean, median, or other combination of the color values of the text pixels in the second class. In alternative embodiments, the replacement color value may be the color value from the second class pixels that is maximally dissimilar to the background-color-estimate. 
     In alternative embodiments of the present invention, the color value for all text pixels within the examination window may be updated to the replacement color value. In alternative embodiments, the color value for all text pixels within the examination window that are also in the second class may be updated to the replacement color value. 
     In some embodiments of the present invention, a refinement color value, also considered a replacement color value, for a pixel of interest may be determined by examining the pixels in an examination window surrounding the pixel of interest. In these embodiments, all of the pixels in an examination window may be examined. 
     Some embodiments of the present invention may be described in relation to  FIG. 6 . In these embodiments, the representative color value for the first class may be set  60  to the color value of the pixel of interest. All pixels in the examination window may be examined, and pixels in the examination window classified  61  as belonging to the first class may comprise pixels with color values substantially similar to the color value of the pixel of interest. While pixels in the examination window classified  61  as belonging to the second class may comprise pixels with color values substantially dissimilar to the color value of the pixel of interest. Color classification  61  may comprise comparing the similarity measure to a predetermined threshold. The membership count in the each of the two classes may be determined  62 . Based on the membership counts  63 , the replacement color value for the pixel of interest may be determined from the color values of the pixels in the first class  67  or the second class  65 . 
     In some embodiments of the present invention, the replacement color value may be derived from the color values of the pixels in the first class  67  when the condition (C 1 &lt;Tsim and C 1 +C 2 ≧Ttot), where C 1  and C 2  may be the membership counts of the first class and the second class, respectively, and Tsim may be a first threshold and Ttot may be a second threshold, may be satisfied  66 . The replacement color value may be derived from the color values of the pixels in the second class  65  when this condition is not satisfied  64 . 
     In some embodiments of the present invention, the replacement color value, (ω A , ω B , ω C ), may be derived from the color values of the pixels in the first class  67  according to: 
                 ω   A     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢     A   i           ,       ω   B     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢     B   i           ,       ω   C     =       1     C   ⁢           ⁢   1       ⁢       ∑     i   ∈     class   ⁢           ⁢   1         ⁢       C   i     .                 
The replace color value may be derived from the color values of the pixels in the second class  65  according to:
 
                 ω   A     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢     A   i           ,       ω   B     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢     B   i           ,       ω   C     =       1     C   ⁢           ⁢   2       ⁢       ∑     i   ∈     class   ⁢           ⁢   2         ⁢       C   i     .                 
In alternative embodiments, the replacement color value may the class median color value.
 
     In alternative embodiments of the present invention, the color value for all pixels within the first class in the examination window may be updated to the replacement color value. 
     In some embodiments of the present invention, a text pixel of interest may be removed from the text map if the number of text pixels within an examination window is below a threshold. 
     In some embodiments of the present invention, a sliding examination window may be used wherein the center text pixel color value may be refined. In alternative embodiments of the present invention, non-overlapping examination windows may be used wherein all of the color value of all of the text pixels within the examination window may be refined. In still alternative embodiments, partially overlapping examination windows may be used wherein only the color value of the text pixels within the non-overlapping part of the block may be refined. 
     In some embodiments of the present invention, a replacement value may be further refined based on a selection of the most recently determined refinement values. In alternative embodiments, the further refinement may be based on the refinement values in a causal neighborhood of the pixel of interest. 
     The terms and expressions which have been employed in the foregoing specification are used therein as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding equivalence of the features shown and described or portions thereof, it being recognized that the scope of the invention is defined and limited only by the claims which follow.