JP2007101694A - Image processing system and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processing system which ameliorates "moving blurring" of a hold type display device, such as a liquid crystal display device, and reduces the degradation in luminance, and a program. <P>SOLUTION: The image processing system 10 includes a detection section 12 which detects a change in a pixel value of pixels in a prescribed region between an input present image and a reference image, and a pixel value conversion section 13 which converts the pixel value of the pixel in the prescribed region of the present image detected of the change in the pixel value in the detection section 12, based on the prescribed pattern. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an image processing apparatus and a program for displaying an input image.

   Generally, when a moving image composed of a plurality of images (frames or fields) is displayed on the screen, the liquid crystal display device is configured to sequentially display the images on the screen while holding (holding) the images for a predetermined time. It is called a hold type display device.

   In addition, the hold-type display device typified by the above-described liquid crystal display device has a problem of causing “motion blur” in which a displayed object is blurred when displaying a moving image.

   The cause of “motion blur” in liquid crystal display devices is thought to be due to the characteristics of the human eye. Specifically, when a human stares at a moving image displayed on a liquid crystal display device, the human eye integrates the luminance of the image displayed between the immediately preceding image and the current image. It is considered that an object displayed so as to move in it appears blurred.

   Therefore, “motion blur” is a problem that does not occur even when a moving image is displayed if the displayed object does not move.

   Further, it is considered that the above-mentioned “motion blur” can be eliminated by applying a black image insertion technique.

   An example of the black image insertion technique will be described with reference to FIG.

   FIG. 13 shows a conceptual diagram of images (Z1 to Z5) that are displayed as time elapses when a moving image is displayed on the screen of the liquid crystal display device.

   In the black image insertion technique shown in the example of FIG. 13, a black image (for example, Z2 and Z4) that displays the entire screen in black between each image (for example, Z1, Z3, and Z5) displayed in the moving image. The insertion prevents the luminance of the image from being integrated by the human eye.

In addition, as another black image insertion technique, a technique has been proposed in which the entire screen is not displayed in black, but the screen is divided into a plurality of regions and the randomly divided screen is displayed in black (for example, a patent). Reference 1).
JP 2005-10579 A

  However, the above-described black image insertion technique reduces the luminance of a moving image because, when displaying a moving image, a black image is inserted between the images regardless of whether the displayed object moves or does not move. There was a case of letting.

  Therefore, the present invention has been made in view of the above points, and provides an image processing apparatus and a program for improving the “motion blur” of a hold-type display device such as a liquid crystal display device and reducing a decrease in luminance. With the goal.

  A first feature of the present invention is an image processing apparatus that performs processing for displaying an input image, and detects a change in the pixel value of a pixel in a predetermined area between the input current image and a reference image. The gist of the invention is to include a detection unit that detects, and a pixel value conversion unit that converts a pixel value of a pixel in a predetermined region of the current image in which a change in pixel value is detected by the detection unit based on a predetermined pattern. Is.

  In the first feature of the present invention, the detection unit detects a change in the pixel value of a pixel in a predetermined region between the current image and the reference image as a change amount, and the pixel value conversion unit has a predetermined change amount. A pixel value of a pixel in a predetermined area of the current image that is larger than the value of may be converted into a black value based on a predetermined pattern.

  Further, in the first feature of the present invention, the detection unit calculates a change amount of a pixel value of a pixel in a predetermined region between the current image and the reference image, for each pixel in a common predetermined region between the current image and the reference image. Alternatively, it may be detected as a difference value between the pixel values.

  Further, in the first feature of the present invention, the detection unit calculates a change amount of a pixel value of a pixel in a predetermined region between the current image and the reference image between the predetermined region of the current image and the predetermined region of the reference image. You may detect as a motion vector amount.

  In the first feature of the present invention, the pixel value conversion unit specifies a first pattern that specifies one or more pixels in the current image and one or more pixels that are different from the first pattern. The second pattern is stored, the first pattern or the second pattern is alternately selected to specify a pixel between the current image and the reference image, and the amount of change in the pixel value of the specified pixel is a predetermined amount A pixel value of a pixel in a predetermined area of the current image that is larger than the value may be converted into a black value.

 According to this invention, it is possible to detect a change in the pixel value of a pixel in a predetermined area between the current image and the reference image, and to convert the pixel value of the pixel in the current image in which the change in the pixel value is detected. Therefore, it is possible to improve the “motion blur” of the hold-type display device and reduce the decrease in luminance.

  In addition, according to the invention, the pixel value conversion unit does not convert all the pixels in which the difference value or the motion vector amount is detected into the black value, but is specified by the first pattern or the second pattern, Only pixels of the current image in which the difference value or motion vector amount is larger than a predetermined value can be converted into a black value.

  In the first feature of the present invention, the pixel value conversion unit converts the pixel value of the current image into a pixel value calculated based on the difference value of the pixel values of the pixels in the predetermined area detected by the detection unit. May be.

  In the first feature of the present invention, the pixel value conversion unit converts the pixel value of the current image into a pixel value calculated based on the motion vector amount of the pixel value of the pixel in the predetermined area detected by the detection unit. May be. According to this invention, the pixel value conversion unit can appropriately convert the pixel value of the current image into the pixel value calculated based on the difference value or the motion vector amount.

The second feature of the present invention is that the computer detects a change in the pixel value of a pixel in a predetermined area between the input current image and the reference image,
A program that causes an image processing device to function as an image processing apparatus including a pixel value conversion unit that converts a pixel value of a pixel in a predetermined region of a current image in which a change in pixel value is detected by a detection unit based on a predetermined pattern. It is a summary.

 According to this invention, a program that functions as the above-described image processing apparatus can be provided to a computer via a storage medium or a network.

  As described above, according to the present invention, it is possible to provide an image processing device and a program that improve the “motion blur” of a hold-type display device such as a liquid crystal display device and reduce a decrease in luminance.

(Configuration of Image Processing Device According to First Embodiment of the Present Invention)
The configuration of the image processing apparatus 10 according to the first embodiment of the present invention will be described with reference to FIG.

 FIG. 1 is a block diagram showing the configuration of the image processing apparatus 10 and the display unit 14. As shown in FIG. 1, the image processing apparatus 10 includes an image storage unit 11, a detection unit 12, and a pixel value conversion unit 13.

 Further, the image processing apparatus 10 according to the present embodiment performs a process for displaying the input image, and sequentially displays the processed image on the display unit 14 to display a moving image. It is configured.

 The image storage unit 11 is configured to store the current image and the reference image of the image input to the image processing apparatus 10.

 Here, the current image is an image to be processed by the image processing apparatus 10 to be described later.

 Further, the reference image may be any one of an image input immediately before the current image (hereinafter referred to as the immediately preceding image) or an image input immediately after (hereinafter referred to as the immediately following image), or the immediately preceding image. And immediately after image.

 Here, in the present embodiment, the case where the above-described reference image is a previous image will be mainly described below as an example.

 The image storage unit 11 is configured to change the immediately following image to the current image each time a pixel value conversion process (to be described later) is performed on the current image by the pixel value conversion unit 13.

 The detection unit 12 is configured to detect a change in pixel value of pixels in a common predetermined area between the current image and the reference image.

 Specifically, the detection unit 12 is configured to detect a change in the pixel value of a pixel in a common predetermined region between the current image and the reference image as a difference value that is a difference between the pixel values.

 Here, the common predetermined area indicates a pixel area having the same coordinates between the current image and the reference image. Further, the predetermined area described above may be, for example, one pixel, or may be an area in which an image is divided into a plurality of blocks (for example, a block of 9 pixel areas).

 When the predetermined area is the block described above, the detection unit 12 calculates the sum or average value of the pixel values of each pixel in each block, and calculates the sum or average value of the calculated pixel values as the pixel value of each block. The difference value for each block is detected between the current image and the reference image.

 In the present embodiment, a case where the above-described predetermined area is one pixel will be described as an example. The detection unit 12 is configured to detect the difference value as an absolute value.

 When the image storage unit 11 stores both the immediately preceding image and the immediately following image as reference images, the detecting unit 12 calculates the difference value of each pixel between the current image, the immediately preceding image, and the immediately following image. Each may be detected. If two difference values are detected in the same pixel, the detection unit 12 is configured to detect the larger difference value as the difference value of the pixel.

 Here, the pixel values of the pixels in the current image and the reference image described above may be luminance (Y) values or color difference (UV) values in the YUV format, or R values, G values, or B values in the RGB format. There may be.

 Further, in the present embodiment, a case where the pixel value is mainly a luminance value in the YUV format (for example, 8 bits and a value from 0 to 255) will be described as an example.

 The pixel value conversion unit 13 stores a first pattern that specifies one or more pixels in the current image, and a second pattern that specifies one or more pixels different from the first pattern, A pixel between the current image and the reference image is specified by alternately selecting the first pattern or the second pattern, and a predetermined value is determined based on the difference value detected by the detection unit 12 among the specified pixels. A pixel value conversion process is performed to convert a pixel value of a pixel of a current image in which a difference value larger than the value of the current value is detected into a black value to generate a current image including a black value pixel. .

 Here, the first pattern and the second pattern stored in the pixel value conversion unit 13 will be described with reference to FIGS.

 2 to 3 are image diagrams of displayed images, and one square (for example, coordinates H1 and V1) drawn in FIGS. 2 to 3 represents a pixel.

 The first pattern for specifying the pixels described above is, for example, the pattern shown in FIG. 2 (1), which specifies the pixels in the even-numbered rows (the even-numbered pixels in the vertical direction) of the image. The second pattern is For example, in the pattern shown in FIG. 2B, the pixels in the odd-numbered rows (odd-numbered pixels in the vertical direction) of the image are specified.

 Note that the first pattern may be the pattern shown in FIG. 3A, and the second pattern may be the pattern shown in FIG.

 Specifically, the first pattern shown in FIG. 3A is, for example, an odd row (odd number of pixels in the vertical direction) and an odd number column (odd number of pixels in the horizontal direction) of an image, An even-numbered row (an even-numbered pixel in the vertical direction) and an even-numbered column (an even-numbered pixel in the horizontal direction) are specified.

 Also, the second pattern shown in FIG. 3 (2) is for an even-numbered row (even-numbered pixels in the vertical direction) and odd-numbered columns (odd-numbered pixels in the horizontal direction) and odd-numbered rows (vertical) Odd-numbered pixels in the direction) and even-numbered columns (even-numbered pixels in the horizontal direction) are specified.

 Therefore, specifically, the pixel value conversion unit 13 acquires the current image stored in the image storage unit 11 and specifies the pixel by selecting the first pattern or the second pattern. Then, based on the difference value detected by the detection unit 12 among the specified pixels, only the pixel value of the pixel of the current image corresponding to the pixel in which the difference value larger than the predetermined value is detected is changed to the black value. It is configured to convert and generate a current image containing black value pixels.

 Here, the predetermined value described above is a threshold value of a predetermined difference value, and in the present embodiment, a case where the threshold value is set to “50” will be described as an example.

 The black value described above is a pixel value for displaying a pixel in black, and in the present embodiment, the case where the pixel value is “0” will be described as an example of the black value. The black value described above may have a pixel value of “0” to “10”.

 When the pixel value is in the RGB format, the black value described above has an R value, a G value, or a B value pixel value (for example, 8 bits, a value of 0 to 255), for example, “0” to It may be “10”.

 The display unit 14 is configured to display a current image including black value pixels generated by the pixel value conversion process in the pixel value conversion unit 13.

 Note that the image processing apparatus 10 may function as the image processing apparatus 10 including the image storage unit 11, the detection unit 12, and the pixel value conversion unit 13 by a program installed in the computer.

(Operation of the image processing apparatus according to the present embodiment)
The operation of the image processing apparatus 10 having the above configuration will be described with reference to FIGS.

 FIG. 4 is a flowchart showing operations of the image processing apparatus 10 and the display unit 14 according to the present embodiment.

 FIG. 5 shows a current image 21 having a pixel area n and a previous image 20 having a pixel area n−1, which is a reference image, stored in the image storage unit 11.

 6 to 9 and FIG. 11 are image diagrams of displayed images, and one square (for example, coordinates H1 and V1) drawn in FIG. 6 represents a pixel.

 In step S110 of FIG. 4, the image storage unit 11 stores the input current image 21 and the immediately preceding image 20 that is a reference image.

 In step S <b> 120, the detection unit 12 detects a difference value between pixel values of each pixel between the current image 21 and the immediately preceding image 20 stored in the image storage unit 11.

 Specifically, the operation of the detection unit 12 in step S120 will be described with reference to FIG.

 FIG. 6A is an image diagram of an image obtained by superimposing the current image 21 and the immediately preceding image 20 in FIG. FIG. 6B is a diagram illustrating a pixel region in which a difference value is generated between the current image 21 and the immediately preceding image 20 illustrated in FIG.

 In the present embodiment, the difference value # 1 in the pixel region 31 shown in FIG. 6B is “0”, the difference value # 2 in the pixel region 32 is “25”, Hereinafter, a case where the difference value # 3 in the area 33 is “50” will be described as an example.

 As illustrated in FIG. 6B, the detection unit 12 includes a pixel area 32 with a difference value # 2 “25” and a pixel area 33 with a difference value # 3 between the current image 21 and the immediately preceding image 20. And detect.

 Here, the detection unit 12 does not detect the difference value # 1 in the pixel region 31 because it is “0”.

 In step S130, the pixel value conversion unit 13 selects, for example, the first pattern shown in FIG. 2A from the stored first pattern and second pattern.

 In step S140, the pixel value conversion unit 13 uses the first pattern selected in step S130 to generate the pixel area 34 with the difference value # 2 and the pixel area 35 with the difference value # 3 as shown in FIG. Identify.

 In step S150, the pixel value conversion unit 13 converts the pixel value of the pixel of the current image 21 corresponding to the pixel of “50” or more that is the threshold value to the black value based on the difference value among the pixels specified in step S140. The pixel value conversion process for generating the current image 21 including the black value pixels as shown in FIG. 8A is performed by converting the value to “0”.

 Specifically, the pixel value conversion unit 13 determines the pixel area of the difference value # 3 that is a threshold value “50” or more based on the difference value in the pixels specified in step S140 in the pixel value conversion process described above. Only the pixel value of the pixel of the current image 21 corresponding to 35 is converted to a black value “0”, and the pixel value of the difference value # 2 of “25” whose difference value is less than “50” which is the threshold value 34 is not converted into a black value, and a current image 21 including pixels having a black value as shown in FIG. 8A is generated.

 In step S130, when the second pattern is selected, the pixel value conversion unit 13 performs a pixel value conversion process for generating the current image 21 including the black value pixels as illustrated in FIG. 8B. .

 In step S130, when the pixel value conversion unit 13 selects, for example, the pattern shown in FIG. 3 (1) as the first pattern, the pixel value conversion unit 13 includes a black value pixel as shown in FIG. 9 (1). A pixel value conversion process for generating the image 21 is performed.

 Further, in step S130, when the pixel value conversion unit 13 selects, for example, the pattern shown in FIG. 3B as the second pattern, the pixel value conversion unit 13 includes a black value pixel as shown in FIG. 9B. A pixel value conversion process for generating the image 21 is performed.

 In step S <b> 160, the display unit 14 displays the current image 21 including the black value pixels generated by the pixel value conversion unit 13.

(Operation and effect of the image processing apparatus according to the present embodiment)
According to the image processing apparatus 10 according to the present embodiment, a moving image composed of a plurality of images is specified by the first pattern or the second pattern among the pixels between the current image and the reference image. Since the pixel value of the pixel of the current image corresponding to the pixel in which the difference value equal to or greater than the predetermined threshold is detected is converted to a black value, a current image including the black value pixel can be generated. It is possible to improve “motion blur” of a hold-type display device such as a liquid crystal display device and to reduce a decrease in luminance.

(Modification 1)
With reference to FIGS. 10 to 11, the image processing apparatus 10 according to the first modification will be described focusing on differences from the configuration and operation of the image processing apparatus 10 according to the first embodiment.

 The configuration of the image processing apparatus 10 according to the present embodiment is the same as that of the image processing apparatus 10 according to the first embodiment except for the configuration of the pixel value conversion unit 13.

 Therefore, the configuration of the pixel value conversion unit 13 according to this embodiment will be described.

 The pixel value conversion unit 13 according to the present embodiment is configured to convert the pixel value of the pixel of the current image 21 into a pixel value calculated based on the difference value of the pixel value of the pixel detected by the detection unit 12. Has been.

 Specifically, when the difference value D of the pixel values of the pixels detected by the detection unit 12 is equal to or larger than the difference value D2, the pixel value conversion unit 13 is a pixel of the pixel of the current image 21 corresponding to the pixel. The value is configured to be converted to “0” which is a black value.

 In addition, when the difference value D of the pixel value of the pixel detected by the detection unit 12 is within the range from the difference value D1 to the difference value D2, the pixel value conversion unit 13 is a pixel of the current image 21 corresponding to the pixel. Is converted to a pixel value # 2 calculated by multiplying the original pixel value # 1 of the pixel by a pixel value conversion rate G.

 In addition, when the difference value D of the pixel values of the pixels detected by the detection unit 12 is less than the difference value D1, the pixel value conversion unit 13 does not convert the pixel value for the pixel. It is configured.

 When the pixel value is in the RGB format, the pixel value conversion unit 13 determines that the difference value D of the pixel value of the pixel detected by the detection unit 12 is within the range from the difference value D1 to the difference value D2. Pixel value # 2 calculated by multiplying each pixel value of the R value, G value, and B value of the pixel of the current image 21 corresponding to the pixel by the original pixel value # 1 of the pixel and the pixel value conversion rate G It may be configured to convert to

 The relationship between the pixel value difference value D and the pixel value conversion rate G is shown in the graph of FIG. As shown in the figure, the difference value D1 and the difference value D2 described above are a preset difference value D, and the difference value D1 is a value smaller than the difference value D2.

 The pixel value conversion rate G described above is a value calculated based on (Equation 1).

Pixel value conversion rate G = 1− (difference value D / difference value D2) (D1 ≦ D <D2)
... (Formula 1)
Next, the operation of the image processing apparatus 10 according to the present embodiment will be described with a specific example. FIG. 11 is a flowchart specifically showing the operation of the pixel value conversion unit 13 according to the present embodiment.

 The operation of the image processing apparatus 10 according to the present embodiment is the same as that of the image processing apparatus 10 according to the first embodiment except for the operation of step S150. Therefore, the operation of the image processing apparatus 10 according to the present embodiment will be mainly described with reference to FIGS. 4, 6 to 7, and FIGS. 11 to 12.

 In this embodiment, the difference value # 1 in the pixel region 31 shown in FIG. 6B is “0” and the difference value # 2 in the pixel region 32 is “0”, as in the first embodiment. A case where the difference value # 3 in the pixel region 33 is “50” will be described as an example.

 Further, the pixel value conversion unit 13 according to the present embodiment will be described by taking an example in which the difference value D1 is set to “10” and the difference value D2 is set to “50”, for example.

 Further, the case where the original pixel value # 1 of the pixel in the pixel area 34 in the current image 21 is, for example, “60” will be described as an example.

 In addition, the pixel value conversion unit 13 performs the operations in steps S151 to S155 described below for each pixel in which the difference value D is detected by the detection unit 12.

 In step S151, the pixel value conversion unit 13 determines whether or not the difference value D detected by the detection unit 12 in step S140 in FIG. 4 is equal to or larger than the set difference value D2 that is “50”.

 Specifically, the pixel value conversion unit 13 converts only the pixel value of the pixel of the current image 21 corresponding to the pixel area 35 of the difference value # 3 of “50” that is equal to or greater than the difference value D2 into a black value in step S155. Is converted to “0”.

 In step S152, the pixel value conversion unit 13 determines whether or not the difference value D detected by the detection unit 12 is the difference value D within the range from the set difference value D1 to the difference value D2.

 Specifically, the pixel value conversion unit 13 determines that the difference value D detected by the detection unit 12 has a difference value # 2 of “25” that is within the range of the difference value D1 to the difference value D2.

 In addition, the pixel value conversion unit 13 does not perform pixel value conversion on pixels that are less than the difference value D1.

 In step S153, the difference value D detected by the detection unit 12 is determined based on the difference value D within the range from the preset difference value D1 to the difference value D2 and the preset difference value D2. And the pixel value # 2 is calculated by multiplying the calculated pixel value conversion rate G by the pixel value # 1 of the pixel of the current image corresponding to the detected pixel of the difference value D.

 Specifically, the pixel value conversion unit 13 calculates the difference value D detected by the detection unit 12 from the difference value # 2 “25” and the preset difference value D2 “50” to (Equation 1). Based on this, the pixel value conversion rate G is calculated as “0.5”.

 Next, the pixel value conversion unit 13 sets “60” of the original pixel value # 1 of the pixel of the current image corresponding to the pixel in the region 34 of the pixel whose difference value D is “25” of the difference value # 2. By multiplying the calculated pixel value conversion rate G by “0.5”, the pixel value # 2 of the pixel area 34 in the current image 21 is calculated as “30”.

 In step S154, the pixel value conversion unit 13 converts “60” of the pixel value # 1 of the pixel region 34 in the calculated current image 21 into “30” of the calculated pixel value # 2.

 Then, as shown in FIG. 12, the pixel value conversion unit 13 generates a current image 21 including a pixel having a black value and a region 34 of the pixel having a calculated pixel value # 2.

 According to the image processing apparatus 10 according to the first modification, based on the difference value D of the pixel values of the pixels detected by the detection unit 12, the current image 21 corresponding to a pixel having the difference value D equal to or greater than the difference value D2. The pixel value of the pixel is converted into a black value, and for the pixel value of the pixel of the current image corresponding to the pixel within the range of the difference value D1 and the difference value D2, the pixel value # 2 is calculated and the pixel value is appropriately set Therefore, it is possible to improve the “motion blur” of a hold type display device such as a liquid crystal display device and to reduce an excessive decrease in luminance.

(Modification 2)
The image processing apparatus 10 according to the modification example 2 will be described by focusing on differences from the configuration and operation of the image processing apparatus 10 according to the first embodiment.

 The configuration and operation of the image processing apparatus 10 according to the present embodiment are the same as those of the image processing apparatus 10 according to the first embodiment except for the configurations and operations of the detection unit 12 and the pixel value conversion unit 13. Therefore, configurations of the detection unit 12 and the pixel value conversion unit 13 according to the present embodiment will be described.

 The detection unit 12 according to the present embodiment searches for a pixel value in a predetermined region of the reference image from pixel values of pixels in the predetermined region of the current image, and changes between the predetermined region of the current image and the predetermined region of the reference image. The quantity is configured to be detected as a motion vector quantity.

 Here, the predetermined area described above may be, for example, one pixel, or a plurality of pixel areas (for example, a 9-pixel block of 3 pixels vertically or horizontally, or an area of pixels of an image such as “car”). Good.

 Specifically, as illustrated in FIG. 13, the detection unit 12 searches the reference image for a pixel region having a pixel value similar to the pixel region B <b> 2 in the current image, and detects the pixel region B <b> 1 in the reference image. At the same time, the motion vector amount V is detected.

 When the above-described predetermined area is one pixel, the detection unit 12 may detect a motion vector amount between the current image and the reference image by detecting a surrounding difference value of each pixel in the current image. .

 The peripheral difference value described above is a difference in pixel value between peripheral pixels (for example, adjacent vertical and horizontal pixels) in each pixel. Therefore, the detection unit 12 detects a pixel that approximates the peripheral difference value between the current image and the reference image based on the peripheral difference value of the pixel of the current image and the peripheral difference value of the pixel of the reference image. The pixel motion vector amount may be detected.

 The pixel value conversion unit 13 stores a first pattern that specifies one or more pixels in the current image, and a second pattern that specifies one or more pixels different from the first pattern, By alternately selecting the first pattern or the second pattern to identify pixels between the current image and the reference image, based on the motion vector amount detected by the detection unit 12 among the identified pixels, The pixel value of the pixel of the current image in which a motion vector amount larger than a predetermined value is detected is converted to a black value, and the pixel value conversion process is performed to generate the current image including the black value pixel. Yes.

 Specifically, the pixel value conversion unit 13 acquires the current image stored in the image storage unit 11 and specifies the pixel by selecting the first pattern or the second pattern.

 Then, based on the motion vector amount detected by the detection unit 12 among the specified pixels, only the pixel value of the pixel of the current image corresponding to the pixel region in which the motion vector amount larger than the predetermined value is detected. Is converted into a black value, and a current image including black value pixels is generated. Here, the predetermined value described above is a predetermined motion vector amount threshold value.

 Note that the image processing apparatus 10 according to the present embodiment may function as the image processing apparatus 10 including the image storage unit 11, the detection unit 12, and the pixel value conversion unit 13 by a program installed in the computer. Good.

 Next, the operation of the image processing apparatus 10 according to the present embodiment will be described with reference to FIG. Here, the operation of the image processing apparatus 10 is the same as the operation of the image processing apparatus 10 according to the first embodiment except for the operations of steps S120 to S150 shown in FIG. Therefore, steps S120 to S150 shown in FIG. 4 will be described.

 In addition, the detection unit 12 according to the first embodiment is configured to detect a difference value, but the detection unit 12 according to the present embodiment is configured to detect a motion vector amount.

 In step S120, the detection unit 12 searches the reference image for a pixel region having a pixel value similar to that of the pixel region B2 in the current image, detects the pixel region B1 in the reference image, and detects the motion vector amount V. Is detected.

 In step S130, the pixel value conversion unit 13 acquires the current image stored in the image storage unit 11, and selects the first pattern or the second pattern.

 In step S <b> 140, the pixel value conversion unit 13 specifies the pixels based on the first pattern or the second pattern selected in step 130.

 In step S150, the pixel value conversion unit 13 converts only the pixel value of the pixel of the current image corresponding to the pixel region in which the motion vector amount larger than the threshold is detected among the pixels specified in step S140 to a black value. It is configured to convert and generate a current image containing black value pixels.

 According to the image processing apparatus 10 according to the present embodiment, the pixel value of the pixel of the current image corresponding to the pixel area in which the motion vector amount equal to or greater than the predetermined threshold is detected is converted into a black value, and the pixel with the black value is converted. Since the present image can be generated, the “motion blur” of the hold-type display device such as a liquid crystal display device can be improved, and the reduction in luminance can be reduced.

(Modification 3)
The image processing apparatus 10 according to the modification example 3 will be described by focusing on differences from the configuration and operation of the image processing apparatus 10 according to the modification examples 1 and 2.

 The configuration of the image processing apparatus 10 according to the present embodiment is the same as that of the image processing apparatus 10 according to the modification example 2 except for the configuration of the pixel value conversion unit 13.

 The pixel value conversion unit 13 according to the present embodiment is similar to the configuration of the pixel value conversion unit 13 according to the first modification. That is, the pixel value conversion unit 13 according to the modification example 1 is configured to convert the pixel value of the pixel of the current image based on the difference value detected by the detection unit 12 according to the modification example 1. The pixel value conversion unit 13 according to the present embodiment is configured to convert the pixel value of the pixel of the current image based on the vector amount detected by the detection unit 12 according to the present embodiment.

 A configuration of the pixel value conversion unit 13 according to the present embodiment will be described.

 The pixel value conversion unit 13 according to the present embodiment is configured to convert the pixel value of the pixel of the current image 21 into a pixel value calculated based on the motion vector amount of the pixel area detected by the detection unit 12. Has been.

 Specifically, when the motion vector amount V detected by the detection unit 12 is equal to or greater than the value of the motion vector amount V2, the pixel value conversion unit 13 determines the pixel value of the pixel of the current image corresponding to the pixel region. The black value is converted to “0”.

 In addition, when the motion vector amount V of the pixel region detected by the detection unit 12 is within the range of the motion vector amounts V1 to V2, the pixel value conversion unit 13 is a pixel of the current image corresponding to the pixel region. Is converted to a pixel value # 2 calculated by multiplying the original pixel value # 1 of the pixel of the current image by the pixel value conversion rate G.

 In addition, when the motion vector amount V of the pixel region detected by the detection unit 12 is less than the motion vector amount V1, the pixel value conversion unit 13 performs pixel value conversion for the pixel region. Is configured to not.

 Here, the motion vector amount V1 and the motion vector amount V2 described above are a preset motion vector amount V, and the motion vector amount V1 is smaller than the motion vector amount V2.

 The pixel value conversion rate G described above is a value calculated by replacing the difference value D in (Expression 1) of Modification 1 with the motion vector amount V.

 Next, the operation of the image processing apparatus 10 according to the present embodiment will be described with reference to FIG. Here, FIG. 11 is a flowchart showing an operation performed by the pixel value conversion unit 13 according to the modification example 1 based on the difference value D detected by the detection unit 12 according to the modification example 1. An operation performed by the pixel value conversion unit 13 according to this embodiment based on the motion vector amount V instead of the difference value D will be described.

 In step S151, the pixel value conversion unit 13 determines whether or not the motion vector amount V detected by the detection unit 12 is greater than or equal to the set motion vector amount V2.

 Specifically, the pixel value conversion unit 13 converts only the pixel value of the pixel of the current image 21 corresponding to the pixel region that is greater than or equal to the motion vector amount V2 into “0” that is the black value in step S155.

 In step S152, the pixel value conversion unit 13 determines whether or not the motion vector amount V detected by the detection unit 12 is a motion vector amount V within the range of the set motion vector amount V1 to the motion vector amount V2. .

 In addition, the pixel value conversion unit 13 does not perform pixel value conversion for pixels less than the motion vector amount V1.

 In step S153, the pixel value conversion unit 13 calculates a pixel value conversion rate G based on the motion vector amount V detected by the detection unit 12 and a preset motion vector amount V2, and the calculated pixel value conversion rate. The pixel value # 2 is calculated by multiplying G by the pixel value # 1 of the pixel of the current image corresponding to the detected motion vector amount V pixel.

 Specifically, the pixel value conversion unit 13 calculates the pixel value conversion rate G based on the motion vector amount V detected by the detection unit 12, the preset motion vector amount V2, and (Equation 1).

 Next, the pixel value conversion unit 13 multiplies the original pixel value # 1 of the pixel of the current image corresponding to the pixel region of the motion vector amount V by the calculated pixel value conversion rate G, and Pixel value # 2 in the pixel area is calculated.

 In step S154, the pixel value conversion unit 13 converts the pixel value # 1 of the calculated pixel area in the current image into the calculated pixel value # 2.

 Then, the pixel value conversion unit 13 generates a current image including a pixel having a black value and a region of the pixel having the calculated pixel value # 2.

 According to the image processing apparatus 10 according to the third modification, based on the motion vector amount V of the predetermined area detected by the detection unit 12, the current image 21 corresponding to a pixel whose motion vector amount V is greater than or equal to the motion vector amount V2. For the pixel value of the pixel of the current image corresponding to the pixel whose motion vector amount V is within the range of the motion vector amount V1 and the motion vector amount V2, Since the pixel value can be appropriately converted by calculating the value # 2, it is possible to improve “motion blur” of a hold type display device such as a liquid crystal display device and to reduce an excessive decrease in luminance.

It is a block diagram which shows the structure of the image processing apparatus 10 which concerns on this embodiment. (1) It is a figure which shows the 1st pattern in the image processing apparatus 10 which concerns on this embodiment. (2) It is a figure which shows the 2nd pattern in the image processing apparatus 10 which concerns on this embodiment. (1) It is a figure which shows the 1st pattern in the image processing apparatus 10 which concerns on this embodiment. (2) It is a figure which shows the 2nd pattern in the image processing apparatus 10 which concerns on this embodiment. 4 is a flowchart illustrating operations of the image processing apparatus 10 and the display unit 14 according to the present embodiment. It is an image figure which shows the last image 20 which is the present image 21 and reference image of the image processing apparatus 10 which concerns on this embodiment. (1) It is an image diagram in which a previous image 20 is superimposed on a current image 21 of the image processing apparatus 10 according to the present embodiment. (2) It is a figure which shows the difference value in the last image 20 to the present image 21 of the image processing apparatus 10 which concerns on this embodiment. It is a figure which shows the area | region and difference value of the pixel in the last image 20 to the present image 21 of the image processing apparatus 10 which concerns on this embodiment. (1) It is an image figure which shows the present image 21 which implemented the pixel value conversion process in the image processing apparatus 10 which concerns on this embodiment. (2) It is an image figure which shows the present image 21 which implemented the pixel value conversion process in the image processing apparatus 10 which concerns on this embodiment. (1) It is an image figure which shows the present image 21 which implemented the pixel value conversion process in the image processing apparatus 10 which concerns on this embodiment. (2) It is an image figure which shows the present image 21 which implemented the pixel value conversion process in the image processing apparatus 10 which concerns on this embodiment. It is a graph which shows the relationship between the pixel value conversion rate G and the difference value D in the image processing apparatus 10 which concerns on this embodiment. It is a figure which shows the flowchart of the pixel value conversion process using the pixel value conversion rate G in the image processing apparatus 10 which concerns on this embodiment. It is an image figure which shows the present image 21 which implemented the pixel value conversion process using the pixel value conversion rate G in the image processing apparatus 10 which concerns on this embodiment. It is an image figure which shows the motion vector amount V detected by the detection part 12 in the image processing apparatus 10 which concerns on this embodiment. It is an image figure which shows the black image insertion technique in a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Image processing apparatus, 11 ... Image memory | storage part, 12 ... Detection part, 13 ... Pixel value conversion part, 14 ... Display part, 20 ... Immediate image, 21 ... Current image, 31 ... Pixel area | region of difference value # 1 32 ... Pixel area of difference value # 2, 33 ... Pixel area of difference value # 3, 34 ... Pixel area of difference value # 2, 35 ... Pixel area of difference value # 3, D ... Difference value, D1 ... Difference value, D2 ... Difference value, V ... Motion vector amount, V1 ... Motion vector amount, V2 ... Motion vector amount, B1 ... Pixel region, B2 ... Pixel region, n ... Image drawn in the current image, n-1 ... image drawn in the previous image

Claims (8)

An image processing apparatus that performs processing for displaying an input image,
A detection unit that detects a change in the pixel value of a pixel in a predetermined region between the input current image and the reference image;
An image processing apparatus comprising: a pixel value conversion unit that converts a pixel value of a pixel in a predetermined region of the current image in which a change in the pixel value is detected by the detection unit based on a predetermined pattern. . The detection unit detects a change in a pixel value of a pixel in the predetermined area between the current image and the reference image as a change amount,
The pixel value conversion unit converts a pixel value of a pixel in the predetermined area of the current image in which the change amount is larger than a predetermined value into a black value based on a predetermined pattern. The image processing apparatus according to 1.   The detection unit calculates a change amount of a pixel value of the pixel in the predetermined region between the current image and the reference image, and calculates a pixel value of each pixel in the predetermined region common between the current image and the reference image. The image processing apparatus according to claim 2, wherein the difference is detected as a difference value between the two.   The detection unit detects a change amount of the pixel value of a pixel in the predetermined region between the current image and the reference image, and moves between the predetermined region of the current image and the predetermined region of the reference image. The image processing apparatus according to claim 2, wherein the image processing apparatus is detected as a vector quantity.   The pixel value conversion unit stores a first pattern that specifies one or more pixels in the current image, and a second pattern that specifies one or more pixels that are different from the first pattern. , Alternately selecting the first pattern or the second pattern to identify a pixel between the current image and a reference image, and the change amount of the pixel value of the identified pixel is greater than a predetermined value The image processing apparatus according to claim 2, wherein a pixel value of a pixel in the predetermined area of the current image is converted into a black value.   The pixel value conversion unit converts the pixel value of the current image into a pixel value calculated based on a difference value of pixel values of pixels in the predetermined area detected by the detection unit. The image processing apparatus according to claim 3.   The pixel value conversion unit converts the pixel value of the current image into a pixel value calculated based on a motion vector amount of a pixel value of a pixel in the predetermined area detected by the detection unit. The image processing apparatus according to claim 4. On the computer,
A detection unit that detects a change in the pixel value of a pixel in a predetermined region between the input current image and the reference image;
A program that functions as an image processing apparatus comprising: a pixel value conversion unit that converts a pixel value of a pixel in a predetermined region of the current image in which a change in the pixel value is detected by the detection unit based on a predetermined pattern.