JP2014126774A5 - - Google Patents

Description

An image processing apparatus according to the present invention inputs an image input unit that inputs an input image signal that represents an input image obtained by receiving a broadcast signal, and an input graphics signal that represents a graphics image including graphics and moving images. A graphics input unit that performs scaling processing on the input image signal input to the image input unit, and generates an enlarged / reduced image signal representing an enlarged / reduced image obtained by enlarging or reducing the input image An enlarged / reduced image area in which the enlarged / reduced image is displayed by synthesizing the enlarged / reduced image signal generated by the processing unit, the enlarged / reduced processing unit, and the input graphics signal input to the graphics input unit. A composite image representing a composite image including a graphics region in which the graphics are displayed and a moving image region in which the moving image is displayed Based on the area information input to the area information input unit, the area information input unit that inputs area information for specifying the enlarged and reduced image area and the moving image area, Processing that represents a composite image after image processing by performing image processing corresponding to each of the image signals of the enlarged / reduced image region and the moving image region in the composite image signal generated by the image composition unit Based on the area information input to the area information input unit and an image processing unit that generates a post-image signal, for each pixel of the composite image, the pixel is the enlarged / reduced image area, the moving image area, and the graphic A processing selection unit that outputs a processing selection signal indicating which image region belongs to the processing region, and the image processing unit outputs a processing selection signal output from the processing selection unit. Based on the composite image signal, for each pixel or each region composed of pixels belonging to the same image region, the pixel or the region of the region is selected from a plurality of predetermined different processing parameters. A processing parameter corresponding to an image region to which a pixel belongs is selected, and image processing is performed using the selected processing parameter .

The synchronization processing unit 50 receives the enlarged / reduced image signal Da2 from the enlargement / reduction processing unit 30, the input graphics signal Db1 from the graphics input unit 20, and the input synthesis ratio signal Dc1 from the synthesis ratio input unit 40. Are synchronized using a synchronization signal included in any one of the signals, and a synchronized enlarged / reduced image signal Da3, a synchronized input graphics signal Db3, and a synchronized synthesis ratio signal Dc3 are output. For example, the input graphics signal Db1 and the input synthesis ratio signal Dc1 are synchronized with the synchronization signal of the enlarged / reduced image signal Da2, and the post-synchronization input graphics signal Db3 and the post-synchronization synthesis ratio signal Dc3 are generated. In this case, the enlarged / reduced image signal Da2 is output as it is as the enlarged / reduced image signal Da3 after synchronization. The post-synchronization enlarged / reduced image signal Da3, the post-synchronization input graphics signal (hereinafter also referred to as post-synchronization graphics signal) Db3, and the post-synchronization synthesis ratio signal Dc3 are output to the image synthesis unit 60.

The image processing calculation unit 83 performs a predetermined image processing calculation on the composite image signal Da4 using the selection parameter PSEL output from the processing parameter selection unit 82 for each pixel or each region, and outputs the processed image signal Da5 is generated and output to the display unit 200. Examples of image processing executed by the image processing calculation unit 83 include image quality enhancement processing such as edge enhancement processing, noise reduction processing, and contrast correction processing. However, the image processing of the image processing calculation unit 83 is not limited to these.

In FIG. 3C, the post-synchronization composite ratio signal Dc3 has the same number of pixels and pixel array as the composite image signal Da4, and the composite ratio value corresponding to each pixel of the composite image signal Da4 is the pixel value of each pixel. It is expressed as an image. Here, it is assumed that each combination ratio value (each pixel value) of the post-synchronization combination ratio signal Dc3 has a minimum value of 0 and a maximum value of 1. Further, in FIG. 3C, a portion where the composition ratio value is 0 is represented in black, and a portion where the composition ratio value is 1 is represented in white. For the pixel with the composition ratio value of 1, the pixel value of the post-synchronization enlarged / reduced image signal Da3 is used as it is as the pixel value of the composite image signal Da4. On the other hand, for the pixel with the composition ratio value 0, the pixel value of the post-synchronization graphics signal Db3 is used as it is as the pixel value of the composite image signal Da4. Synthesis ratio value is greater than 0, for less than one pixel, obtained by performing weighted addition of the pixel values and the post-synchronization pixel values of the graphic signals Db3 after synchronization expansion contraction Shoe image signal Da3 by combining ratio values The value is used as the pixel value of the composite image signal Da4.

Here, if image processing is to be performed on the entire post-synchronized enlarged / reduced image signal Da3 in FIG. 4A before image synthesis processing, enlargement / reduction indicated by hatching in FIG. 5B. Image processing is performed only on the image region RS, and image processing is not performed on the moving image region RGm indicated by cross hatching in FIG. For this reason, the moving image included in the graphics image cannot be improved in image quality. On the other hand, when the image processing is performed uniformly on the entire composite image signal Da4 in FIG. 5A after the image synthesis processing, the graphics region RGg shown in white in FIG. Image processing is uniformly performed on the entire screen including the entire area RA indicated by hatching in FIG. 5C. For this reason, unnecessary image processing is performed on the graphics, and the image quality of the graphics is degraded.

In one aspect, the process adjustment unit 90 does not perform process adjustment on the moving image area in the graphics image, and outputs the processed image signal Da5 as it is as the adjusted image signal Da6. Specifically, the processing arrangement 90, based on the region information T 1, for moving image region RGm, the pixel value of the processed image signal Da5, and outputs it as a pixel value of the adjusted picture signal DA6.

Since the composite ratio value in accordance with the synchronization after synthesis ratio signal Dc3 The coordinate shown in FIG. 9 (c) is gradually changed, FIG. 9 (d) the combined image signal in Da4, after synchronization scaling image signal Da3 and synchronization The ratio of synthesis with the post graphics signal Db3 changes in accordance with the coordinates.

Claims (12)

An image input unit for inputting an input image signal representing an input image obtained by receiving a broadcast signal;
A graphics input unit for inputting an input graphics signal representing a graphics image including graphics and moving images;
An enlargement / reduction processing unit that performs an enlargement / reduction process on the input image signal input to the image input unit, and generates an enlarged / reduced image signal representing an enlarged / reduced image obtained by enlarging or reducing the input image;
An enlarged / reduced image area in which the enlarged / reduced image is displayed by combining the enlarged / reduced image signal generated by the enlargement / reduction processing unit and the input graphics signal input to the graphics input unit, and the graphics An image composition unit for generating a composite image signal representing a composite image including a graphics region in which is displayed and a moving image region in which the moving image is displayed;
An area information input unit for inputting area information for specifying the enlarged / reduced image area and the moving image area;
Based on the region information input to the region information input unit, the image signals of the enlargement / reduction image region and the moving image region of the composite image signal generated by the image composition unit are determined according to the respective regions. An image processing unit that performs image processing and generates a processed image signal representing a composite image after image processing ;
Based on the region information input to the region information input unit, for each pixel of the composite image, which image region the pixel belongs to, the enlarged / reduced image region, the moving image region, or the graphics region A process selection unit that outputs a process selection signal indicating
With
The image processing unit is determined in advance for each pixel or for each region composed of pixels belonging to the same image region with respect to the synthesized image signal based on the processing selection signal output from the processing selection unit. A processing parameter corresponding to an image region to which the pixel or a pixel in the region belongs is selected from a plurality of different processing parameters, and image processing is performed using the selected processing parameter. An image processing apparatus.   Based on the region information, the image processing unit is configured to generate an image corresponding to each of the image signals of the enlarged / reduced image region, the moving image region, and the graphics region in the composite image signal. The image processing apparatus according to claim 1, wherein processing is performed to generate the processed image signal. The image processing unit
A processing parameter holding unit for holding the plurality of processing parameters;
Based on the processing selection signal, a processing parameter corresponding to an image region to which the pixel or a pixel in the region belongs is selected from among a plurality of processing parameters held in the processing parameter holding unit for each pixel or for each region. A processing parameter selection unit that selects and outputs as a selection parameter;
An image processing calculation unit that performs a predetermined image processing calculation using the selection parameter output from the processing parameter selection unit for each pixel or each region with respect to the synthesized image signal. The image processing apparatus according to claim 1 or 2 . The processing parameter holding unit holds a first processing parameter suitable for the enlarged / reduced image, a second processing parameter suitable for the moving image, and a third processing parameter suitable for the graphics,
The processing parameter selection unit selects the first processing parameter when the pixel or the pixel of the region belongs to the enlarged / reduced image region, and the second processing parameter when the pixel belongs to the moving image region. The image processing apparatus according to claim 3 , wherein the third processing parameter is selected in a case where the third processing parameter is selected. A synthesis ratio input unit for inputting an input synthesis ratio signal representing a synthesis ratio when the enlarged and reduced image signal and the input graphics signal are synthesized;
The image synthesizing unit, based on the input inputted synthesis ratio signal to said combining ratio input unit, any of claims 1 to 4, characterized by combining the said input graphics signal with the scaling image signal The image processing apparatus according to claim 1. The image processing apparatus according to claim 5 , wherein the image synthesis unit performs weighted addition of the enlarged / reduced image signal and the input graphics signal based on the input synthesis ratio signal. The enlarged / reduced image signal, the input graphics signal, and the input synthesis ratio signal are synchronized using a synchronization signal included in any of these signals, and the synchronized enlarged / reduced image signal and the synchronized input graphic are synchronized. A synchronization processing unit that outputs a synchronization signal and a composite ratio signal after synchronization,
The image synthesizing unit, instead of the enlarged / reduced image signal, the input graphics signal, and the input synthesis ratio signal, the post-synchronization enlarged / reduced image signal, the post-synchronization input graphics signal, and the post-synchronization synthesis ratio the image processing apparatus according to claim 5 or 6, characterized by using the signal. Based on the input synthesis ratio signal or the post-synchronization synthesis ratio signal, the post-processing image signal generated by the image processing unit and the synthesized image signal generated by the image synthesis unit are combined to obtain an adjusted image. the image processing apparatus according to any one of claims 5 7, characterized in that it comprises a processing arrangement for generating an adjusted image signal representing the. The image according to claim 8 , wherein the processing adjustment unit performs weighted addition of the processed image signal and the combined image signal based on the input combined ratio signal or the post-synchronized combined ratio signal. Processing equipment. A post-stage image processing unit that performs common image processing on the scaled image area and the graphics image area on the post-processing image signal or the adjusted image signal and generates a post-stage post-processing image signal; the image processing apparatus according to any one of claims 1 9, characterized in. The image processing apparatus according to any one of claims 1 to 10 ,
An image display apparatus comprising: a display unit configured to display an image based on the processed image signal or the adjusted image signal generated by the image processing apparatus. An image input step of inputting an input image signal representing an input image obtained by receiving a broadcast signal;
A graphics input step for inputting an input graphics signal representing a graphics image including graphics and moving images;
An enlargement / reduction processing step for performing an enlargement / reduction process on the input image signal and generating an enlarged / reduced image signal representing an enlarged / reduced image obtained by enlarging or reducing the input image;
The enlarged / reduced image signal and the input graphics signal are combined to display an enlarged / reduced image area where the enlarged / reduced image is displayed, a graphics area where the graphics are displayed, and the moving image. An image composition step for generating a composite image signal representing a composite image including a moving image region;
An area information input step for inputting area information for specifying the enlarged / reduced image area and the moving image area;
Based on the area information, a process for performing image processing corresponding to each area of the image signal of the enlarged / reduced image area and the moving image area in the synthesized image signal and representing the synthesized image after the image processing An image processing method comprising: an image processing step of generating a post-image signal.