JP2004163809A - Device, method, and program for image detection, and image display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device, a method, and a program for image detection that suppress variation in lightness of a black display part to suppress even a flicker of an image by detecting the black display part from an image signal of a display image and then correcting the detected black display part according to the quantity of illumination light. <P>SOLUTION: A black display detection part 20 detects coordinate values of one line of the image signal of the display image according to horizontal/vertical synchronizing signals, adds image data, and decide whether each line corresponds to a black display part. When it is decided that a line is a black display part, a block display part detection signal is generated. An image processing part 21 judges which of black-corrected and expanded image signal is a suitable signal according to the black display part detection signal. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image detection device, an image detection method, an image detection program, and an image display device.
[0002]
[Prior art]
In recent years, with the progress of IT technology, needs for image display devices have been increasing in various fields. Among such image display devices, a liquid crystal display device capable of changing the optical characteristics by electrically controlling the arrangement of liquid crystal molecules is particularly expected from the viewpoints of low power consumption, thinness, and eye friendliness. Have been. In recent years, as one form of liquid crystal display device, a projection type liquid crystal display device (liquid crystal projector) that enlarges and projects an image emitted from an optical system using a liquid crystal light valve onto a screen through a projection lens has been widely used. Has become.
[0003]
This projection type liquid crystal display device uses a liquid crystal light valve as a light modulating means. However, due to light leakage and stray light generated by various optical elements constituting an optical system, a displayable brightness range (dynamic range) is limited. Sometimes it is difficult to improve the image quality. Therefore, as a method of expanding the dynamic range, a method of extending the image displayed on the light valve while changing the amount of light incident on the light valve (light modulation unit) according to the video signal has been conventionally proposed.
For example, there is a technique for adjusting an input video signal by providing a correlation between contrast adjustment (signal amplitude control) and luminance adjustment of a light source (backlight) (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP, 2001-27890, A
In recent years, the aspect ratio of the screen has shifted to the wide type because the human field of view is long in the horizontal direction and suitable for screen display of a movie that is long and wide. When recording a wide-screen image on a signal having an aspect ratio (ratio of the screen length and width) of 4: 3, a method of creating black bands (black display portions) at the top and bottom of the screen and arranging the video screen at the center thereof is known. Used. At this time, when dimming is performed, the brightness of the black display unit becomes bright when the image displayed in the center is bright. As described above, the black display section changes according to the video signal displayed in the center of the screen. Therefore, various methods have been proposed for adjusting the contrast and the light source according to a video signal that changes as needed.
[0006]
[Problems to be solved by the invention]
However, in the above-described conventional technique, when there are two input video signals in advance, signal processing is performed on one input video signal and signal processing is not performed on the other input video signal, thereby providing a visual contrast. This is to improve the feeling and does not divide one input video signal into two.
For example, if the video signal includes a black display section as a series, the video signal is adjusted as it is, so the black display section is also adjusted, and the video signal displayed in the center of the screen Will change depending on
[0007]
When video signals having different aspect ratios are input, black display is performed in a region where there is no video signal (letter box). When dimming is performed in the adaptive dimming display system, the brightness of the black display portion changes, and a flicker is felt. In order to prevent the flicker, when one screen has a plurality of display areas, dimming is performed in accordance with the display image signal displayed in the main display area, and image processing is performed to cancel the dimming in the other areas. Sometimes.
However, many actual video signals include a black display portion, and it is necessary to detect the black display portion in order to suppress flicker.
[0008]
The present invention has been made in view of the above circumstances, and detects a black display portion from an image signal of a display image, and corrects the detected black display portion according to the amount of illumination light, thereby reducing the brightness of the black display portion. It is an object of the present invention to provide an image detection device, an image detection method, an image detection program, and an image display device capable of suppressing a change and suppressing an image flicker.
[0009]
[Means for Solving the Problems]
An image detection device according to the present invention is an image detection device that detects a black display portion of a display image, and includes a display region detection unit that detects a display region from an image signal, and a black display portion of the detected display region. And a screen position detecting means for detecting whether the detected black display portion is at the top or bottom of the screen or at the left or right of the screen.
As described above, the black display portion can be accurately detected from the image signals of the display image, and thus the black display portion can be corrected according to the amount of illumination light for image signals other than the black display portion. As a result, it is possible to suppress a change in brightness of the black display portion and prevent flicker of the black display portion.
[0010]
An image detection device according to the present invention is an image detection device that detects a black display portion of a display image, and detects coordinates of an image signal during a unit period based on a vertical / horizontal synchronization signal of the image signal of the display image. Coordinate detecting means, pixel data adding means for adding pixel data on one line including coordinates detected by the coordinate value detecting means, and black display of pixel data on one line added by the pixel data adding means Judging means for judging a magnitude relation with respect to a part reference, and black display part detection for judging that the coordinates of the image data belong to the black display part in accordance with a judgment result of the image data with respect to the black display part reference Means.
[0011]
As described above, the black display portion can be accurately detected from the image signals of the display image, and thus the black display portion can be corrected according to the amount of illumination light for image signals other than the black display portion. As a result, it is possible to suppress a change in brightness of the black display portion and prevent flicker of the black display portion. Further, even when image signals having different aspect ratios are input, it is possible to flexibly cope with the aspect ratio of the image signals, and it is possible to accurately detect a black display portion.
Further, the image detecting apparatus according to the present invention is characterized in that the determination means makes a determination after storing one frame of image data.
As described above, since black display is determined for one vertical line, not only the upper and lower portions of the screen but also the black band portions on the left and right sides of the screen can be detected.
[0012]
Further, the image detection device of the present invention is an image detection device that detects a black display portion of a display image, and detects a coordinate of the image signal based on a vertical / horizontal synchronization signal of the image signal of the display image. Means, image data addition means for adding the image data of the coordinates detected by the coordinate detection means, and determination means for determining the magnitude relationship of the pixel data added by the image data addition means with respect to the black display unit reference, Aspect ratio determining means for determining whether or not the image data has a predetermined aspect ratio according to a determination result of the image data with respect to a black display portion reference by the determining means; And a black display section detecting means for detecting that the image signal of the coordinates is a black display section when it is determined that
As described above, since the image detection device of the present invention compares the stored aspect ratio with the stored aspect ratio, for example, when a character such as a title is displayed while the entire screen is dark, such as a movie title roll, An erroneous determination of the display unit can be prevented.
[0013]
Further, the image detecting apparatus according to the present invention is further characterized by further comprising correction means for performing a black display correction of the image signal based on the detection by the black display section detecting means.
As described above, since the correction is performed based on the detection of the black display portion, for example, when the illumination light amount is the maximum, the black display portion is corrected to a dark display, and when the illumination light amount is small, the black display portion is corrected. The portion can be corrected to a bright display. As a result, the change in the illumination light amount and the change in the black display portion cancel each other out, and it is possible to display an image in which flicker is prevented.
[0014]
An image detection method according to the present invention is an image detection method for detecting a black display portion of a display image, comprising: a first step of detecting a display area from an image signal; and a step of detecting the display area detected in the first step. The second step of detecting the black display section and the third step of detecting whether the black display section detected in the second step is at the top, bottom, or left or right of the screen. It is characterized by having.
Further, the image detection method of the present invention is an image detection method for detecting a black display portion of a display image, wherein coordinates of an image signal during a unit period are determined based on a vertical / horizontal synchronization signal of the image signal of the display image. A first step of detecting, a second step of adding pixel data on one line including the coordinates detected in the first step, and a pixel data on one line added in the second step A third step of determining the magnitude relationship with respect to the black display unit reference, and the coordinates of the image data belonging to the black display unit according to the determination result of the image data with respect to the black display unit reference in the third step. And a fourth step of judging.
[0015]
Further, the image detection method of the present invention is an image detection method for detecting a black display portion of a display image, wherein a first detection of coordinates of the image signal is performed based on a vertical / horizontal synchronization signal of the image signal of the display image. A second step of adding the image data of the coordinates detected in the first step, and a third step of determining the magnitude relationship of the pixel data added in the second step with respect to the black display unit reference. And a fourth step of determining whether or not the coordinates of the image data have a predetermined aspect ratio in accordance with the determination result of the image data with respect to the black display unit reference in the third step. And a fifth step of detecting that the image signal of the coordinate value is the black display portion when it is determined in Step 4 that the image signal is within the black display range.
[0016]
An image detection program of the present invention is an image detection program for detecting a black display portion of a display image, and includes a display region detection function of detecting a display region from an image signal, and a black display portion among the detected display regions. The computer is caused to function as a black display section detection function for detecting, and a screen position detection function for detecting whether the detected black display section is located at the top, bottom, left, or right of the screen.
Further, the image detection program of the present invention is an image detection program for detecting a black display portion of a display image, and calculates a coordinate of an image signal in a unit period based on a vertical / horizontal synchronization signal of the image signal of the display image. A coordinate detecting function for detecting, a pixel data adding function for adding pixel data on one line including the coordinates detected by the coordinate detecting function, and a black display part of the pixel data on one line added by the pixel data adding function A determination function for determining a magnitude relationship with respect to a reference, a black display unit detection function for determining that the coordinates of the image data belong to the black display unit according to a determination result of the image data with respect to the black display unit by the determination function. It is characterized by causing a computer to function.
[0017]
An image detection program according to the present invention is an image detection program that detects a black display portion of a display image, and a coordinate detection function that detects coordinates of an image signal based on a vertical / horizontal synchronization signal of an image signal of the display image. An image data addition function of adding image data of coordinates detected by the coordinate detection function, a determination function of determining the magnitude relationship of the pixel data added by the image data addition function with respect to a black display unit reference, An aspect ratio judging function for judging whether or not the coordinates of the image data have a predetermined aspect ratio in accordance with the judgment result of the image data with respect to the black display portion standard, and judging that the image data is within the black display range by the aspect ratio judging function. In this case, the computer functions as a black display section detection function of detecting that the image signal at the coordinates is a black display section. And wherein the Rukoto.
Further, an image display device according to the present invention includes any one of the image detection devices described above.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of an image detection device, an image detection method, and an image detection program according to the present invention will be described in detail with reference to FIGS.
As an example of an image display device provided with an image detection device using the image detection method of the present invention, a three-panel projection display device provided with a liquid crystal light valve for each color of RGB will be described.
FIG. 1 is a schematic configuration diagram illustrating an example of a projection display device. As shown in FIG. 1, the projection display device includes a light source 510, a dimming element 26, dichroic mirrors 513, 514, reflection mirrors 515, 516, 517, relay lenses 518, 519, 520, and a liquid crystal light valve 522 for red light. , A green light liquid crystal light valve 523, a blue light liquid crystal light valve 524, a cross dichroic prism 525, and a projection lens system 526.
The light control element 26 is configured by, for example, a liquid crystal panel whose transmittance is variable.
[0019]
The light source 510 includes a lamp 511 such as an ultra-high pressure mercury lamp and a reflector 512 that reflects light from the lamp 511. Between the light source 510 and the dichroic mirror 513, the dimming element 26 for adjusting the amount of light from the light source 510 is arranged.
The dichroic mirror 513 that reflects blue light and green light transmits red light of white light from the light source 510 and reflects blue light and green light. The transmitted red light is reflected by the reflection mirror 517 and enters the red light liquid crystal light valve 522.
[0020]
On the other hand, the green light reflected by the dichroic mirror 513 is reflected by the dichroic mirror 514 for reflecting green light, and is incident on the liquid crystal light valve 523 for green light.
Further, the blue light reflected by the dichroic mirror 513 also passes through the dichroic mirror 514, passes through a relay system 521 including a relay lens 518, a reflection mirror 515, a relay lens 519, a reflection mirror 516, and a relay lens 520, and is used for blue light. The light enters the liquid crystal light valve 524.
[0021]
The three color lights modulated by the liquid crystal light valves 522, 523, and 524 enter the cross dichroic prism 525. This prism has four rectangular prisms bonded together, and a dielectric multilayer film that reflects red light and a dielectric multilayer film that reflects blue light are formed in a cross shape on its inner surface. The three color lights are combined by these dielectric multilayer films to form light representing a color image. The combined light is projected onto a screen 527 by a projection lens system 526, which is a projection optical system, and an image is enlarged and displayed.
[0022]
Each of the liquid crystal light valves 522, 523, and 524 is connected to an image processing unit (not shown in FIG. 1) that performs predetermined image processing on each color light based on an image signal. The image processing unit is connected to a black display detection unit (not shown in FIG. 1) for detecting a black display unit in the image signal of the display image. The image processor corrects the black display detected by the black display detector in accordance with the amount of illumination light, thereby suppressing a change in brightness of the black display and performing image processing for suppressing image flicker. It has become. Then, the image signal subjected to the predetermined image processing in the image processing unit is supplied to each of the liquid crystal light valves 522, 523, 524 via a light valve driver.
The image detection apparatus according to the present embodiment detects a black display portion of an image signal of a display image in a black display detection portion, performs predetermined image processing on the detected black display portion in an image processing portion, and performs image display. Is what you do. It is assumed that the image detection device includes a black display detection unit described later, or a black display detection unit and an image processing unit.
[0023]
Here, an image detection method of the image detection device according to the present embodiment will be described.
FIG. 2 is a block diagram illustrating a configuration of a drive circuit of the image detection device. As shown in FIG. 2, the black display detection unit 20 is connected to the image processing unit 21, and supplies a black display detection signal to the image processing unit 21 when detecting the black display unit.
First, the image signal is input to the black display detection unit 20, the image processing unit 21, and the image analysis unit 24. The black display detection section 20 detects a black display section from the input image signal and supplies the black display section to the image processing section 21 as a black display section detection signal.
[0024]
The image analysis unit 24 analyzes the image signal to calculate an expansion coefficient, an offset value, and a dimming control signal, and supplies them to the image processing unit 21 as an image control signal.
Further, the image analysis unit 24 controls the dimming element driver 25 based on the dimming control signal. The dimming driver 25 controls the dimming element 26. The dimming element driver 25 changes the amount of illumination from the light source 510 depending on whether or not the image signal supplied to each of the liquid crystal light valves 522, 523, and 524 by the image processing unit 21 is expanded. This makes it possible to realize a smooth gradation expression while expanding the brightness range of the display image.
[0025]
The black display detection unit 20 detects the coordinate values of one vertical or horizontal line of the image signal of the display image based on the horizontal / vertical synchronization signals. Further, the detected image data of the image signal for one vertical or horizontal line is added, and it is determined whether or not the line is a black display unit for each line. Then, when it is determined that the image is the black display section, a black display section detection signal is generated.
On the other hand, the image processing unit 21 performs offset processing, black correction, and expansion processing on the image signal. Then, it is determined which of the image signal subjected to the black correction or the expansion processing is a suitable signal based on the black display section detection signal.
[0026]
Next, detection of black display by the black display detection unit 20 according to the first embodiment will be described with reference to FIG.
FIG. 3 is a block diagram illustrating a configuration of the black display detection unit 20 according to the first embodiment. In this embodiment, the black display detection unit 20 includes a counter 30, a calculation unit 31, a determination unit 32, a memory 33, and a signal generator.
The counter (coordinate detection means) 30 adds up the horizontal / vertical synchronization signals to generate the coordinate of the image signal within one frame, that is, how much the image signal has been input. Here, a case where coordinate values for one horizontal line are created will be described.
The arithmetic unit (image data adding means) 31 adds image data for one horizontal line based on the coordinate values supplied from the counter 30 and supplies the result to the determining unit 32 as an arithmetic value.
In addition, the counter 30 and the calculation unit 31 also function as a display area detection unit that detects a display area from an input image signal.
[0027]
The determination unit (determination means) 32 determines whether or not the calculated value supplied from the calculation unit 31 is a black display unit by determining a magnitude relationship with a predetermined black display unit determination reference. Here, the black display portion determination criterion refers to a determination criterion value for determining whether or not the image is a black display portion. For example, if image data is regarded as 1 and a value obtained by adding one horizontal line is used as a reference value, If most of the image data on one horizontal line is 0, it can be determined that the image is a black display portion.
The determination result by the determination unit 32, that is, the result of whether or not one predetermined horizontal line is a black display unit is stored in the memory 33.
[0028]
The memory 33 stores the determination result from the determination unit 32. Further, the memory 33 stores the size of the black display portion of the immediately preceding frame, and updates the coordinate value of the black display portion in one frame when the size of the black display portion changes.
The signal generator (black display section detection means) 34 generates a black display section detection signal in accordance with the coordinate value from the counter 30 and the determination result from the determination section 32 as to whether or not it is a black display section, It is supplied to the image processing unit 21. In addition, the black display unit detection unit 34 is a screen position detection unit that detects whether the detected black display unit is located at the top or bottom of the screen or at the left or right of the screen based on the coordinates detected by the counter 30. Also works.
[0029]
Next, the image processing unit 21 according to the first embodiment will be described with reference to FIG. The image processing unit 21 according to the first embodiment includes a line memory 40, an offset processing unit 41, a black correction unit 42, a decompression processing unit 43, and a determination unit 44.
The line memory 40 stores the detected image signal of one horizontal line. In the first embodiment, the black display detection unit 20 determines whether or not the image data for each line is a black display unit, so that the line memory 40 stores the image data for the previous line. This means that the image data is stored.
[0030]
The offset processing unit 41 performs offset processing on the image signal, that is, subtracts a predetermined subtraction amount (offset value) from the image signal based on the offset value supplied from the image analysis unit 24. Here, the offset value refers to, for example, the darkest value in the image data, and a value that can suppress unnecessary black floating of the image signal by subtracting only the offset value from the image signal as an offset process. .
[0031]
The black correction unit (correction unit) 42 performs black correction on the image signal after the offset processing. Assuming that the image signal is V, the expansion magnification is p, and the amount of light leakage is Δv, the image signal V ′ of the black display portion is V ′ = V + (1-1 / p) Δv
It can be corrected by such an equation.
Here, the light leakage amount Δv refers to the brightness on the screen when the image signal is set to 0. More specifically, even though the amount of light from the light source 510 in FIG. 1 is blocked by the dimming device, even if all the liquid crystal light valves 522, 523, and 524 are dark, the amount of light that still leaks onto the screen Means
The light leakage amount Δv may be stored by default at the time of inspection before shipment, or may be measured and stored at the time of power input or startup of the image detection device. Good.
[0032]
By performing such correction, for example, for a black display portion having a large area, when the display of each of the liquid crystal light valves 522, 523, and 524 is large, that is, when the amount of illumination light is maximum (p in the above equation is 1), the black display section is corrected to a dark display. When the illumination light amount is small, the black display section is corrected to a bright display. As a result, the change in the illumination light amount and the change in the black display portion cancel each other out, and it is possible to display an image in which the black display portion does not flicker.
[0033]
The extension processing unit 43 performs an extension process on the image signal after the offset process based on the extension coefficient from the image analysis unit 24.
The determination unit 44 determines which of the image signal from the black correction unit 42 or the expansion processing unit 43 is to be supplied to the light valve driver 22 based on the black display unit detection signal from the black display detection unit 20.
[0034]
As described above, in the first embodiment, the black display detecting section 20 detects the black display section from the image signals of the display image, and supplies the detected signal to the image processing section 21 as a black display section detection signal. The image processing unit 21 can correct the black display unit based on the black display unit detection signal according to the amount of illumination light for image signals other than the black display unit. As a result, it is possible to suppress a change in the brightness of the black display portion and prevent flickering of the image. Further, even when image signals having different aspect ratios are input, it is possible to flexibly cope with the aspect ratio of the image signals, and it is possible to accurately detect a black display portion.
[0035]
Next, black display detection by the black display detection unit 20 according to the second embodiment will be described with reference to FIG. Note that the same components as those of the black display detection unit of the first embodiment in FIG. 3 are denoted by the same reference numerals, and description thereof will be omitted as appropriate. In the second embodiment, it is assumed that the image signal includes information on the aspect ratio.
The black display detection unit 20 of FIG. 5 has a configuration in which an aspect ratio determination unit 35 is added instead of the memory 33 of the black display detection unit 20 of FIG.
[0036]
The aspect ratio determining unit (determining means) 35 determines a pattern of an aspect ratio (ratio of aspect ratio of the screen) such as 4: 3, 16: 9, that is, position information of a black band portion as a black display portion within one screen. It is determined whether or not the predetermined coordinates determined to be the black display unit by the determination unit 32 are within the range of the stored black display position information. If the coordinates of the image data determined to be black display are within the range of the black display portion at a certain aspect ratio, it is determined that the image is the black display portion. For example, when a title roll of a movie is displayed, characters such as a title are displayed while the entire screen is dark, so that it is easy to mistakenly determine a black display portion. Therefore, by comparing with some patterns stored in the aspect ratio determination unit 35 in advance, it is possible to prevent erroneous determination due to a small image signal.
[0037]
Next, an image processing unit 21 according to the second embodiment will be described with reference to FIG. The image processing unit 21 according to the second embodiment differs from the image processing unit 21 according to the first embodiment in that the image processing unit 21 does not include the line memory 40. Note that the same components as those of the image processing unit of the first embodiment in FIG. 4 are denoted by the same reference numerals, and description thereof will be omitted as appropriate.
In the second embodiment, since the black display detection unit 20 determines black display based on the aspect ratio, there is no line memory 40.
[0038]
As mentioned above, although one embodiment of the present invention was described, the present invention is not limited to the above-mentioned embodiment.
For example, in the first embodiment, the description has been made on the assumption that image data for one horizontal line is determined. However, the present invention is not limited to this. The counter 30 may detect image data for one vertical line. When determining the black display unit for one vertical line, the determination unit 32 determines after storing the operation value for one frame. As described above, since black display is determined for one vertical line, not only the upper and lower portions of the screen but also the black band portions on the left and right sides of the screen can be detected.
When the black display detection unit 20 performs detection based on one vertical line, the determination is performed for each frame. Therefore, the image processing unit 21 has a configuration in which the line memory 40 is not provided as in the second embodiment. Become.
[0039]
Also, for example, in the present embodiment, the projection type display device has been described as an image display device capable of using the image detection device, the image detection method, and the image detection program of the present invention, but the present invention is not limited to this. Instead, for example, a direct-view display device may be used. Further, the image detection method and the image detection program of the present invention can also be used for processing image signals of LCDs, electroluminescence, plasma displays, digital mirror devices, field emission devices, and the like.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an example of a projection display device.
FIG. 2 is a configuration diagram of a drive circuit of the image detection device.
FIG. 3 is a configuration diagram of a black display detection unit according to the first embodiment.
FIG. 4 is a configuration diagram of an image processing unit according to the first embodiment.
FIG. 5 is a configuration diagram of a black display detection unit according to a second embodiment.
FIG. 6 is a configuration diagram of an image processing unit according to a second embodiment.
[Explanation of symbols]
Reference Signs List 20 black display detection section, 21 image processing section, 22 light valve driver, 24 image analysis section, 25 dimming element driver, 26 dimming element, 30 counter, 31 operation section, 32 determination section, 33 memory, 34 signal generator , 35 aspect ratio judgment unit, 40 line memory, 41 offset processing unit, 42 black correction unit, 43 decompression processing unit, 44 judgment unit

Claims (12)

An image detection device that detects a black display portion of a display image,
Display area detecting means for detecting a display area from the image signal;
Black display unit detection means for detecting a black display unit in the detected display area,
An image detecting apparatus, comprising: a screen position detecting unit that detects whether the detected black display unit is located at the top or bottom of the screen or at the left or right of the screen. An image detection device that detects a black display portion of a display image,
Coordinate detection means for detecting an image signal during a unit period based on a vertical / horizontal synchronization signal of an image signal of a display image,
Pixel data adding means for adding pixel data on one line including the coordinates detected by the coordinate detecting means,
Determining means for determining a magnitude relation of pixel data on one line added by the pixel data adding means with respect to a black display portion reference;
A black display unit detecting unit that determines that the coordinates of the image data belong to the black display unit according to a determination result of the image data with respect to the black display unit reference by the determining unit. apparatus. 2. The image detection apparatus according to claim 1, wherein the determination unit performs the determination after storing one frame of image data. An image detection device that detects a black display portion of a display image,
Coordinate detection means for detecting the coordinates of the image signal based on a vertical / horizontal synchronization signal of the image signal of the display image;
Image data adding means for adding the image data of the coordinates detected by the coordinate value detecting means,
Determining means for determining the magnitude relationship of the pixel data added by the image data adding means with respect to a black display portion reference;
Aspect ratio determining means for determining whether or not the image data has a predetermined aspect ratio, according to a determination result of the image data with respect to a black display unit reference,
An image detecting apparatus, comprising: a black display section detecting section that detects that an image signal of the coordinates is a black display section when the aspect ratio determining section determines that the image signal is within the black display range. The image detection apparatus according to claim 1, further comprising a correction unit configured to perform black display correction of an image signal based on detection by the black display unit detection unit. An image detection method for detecting a black display portion of a display image, comprising:
A first step of detecting a display area from the image signal;
A second step of detecting a black display portion in the display area detected in the first step;
A third step of detecting whether the black display section detected in the second step is at the top or bottom of the screen or at the left or right of the screen. An image detection method for detecting a black display portion of a display image, comprising:
A first step of detecting coordinates of an image signal during a unit period based on a vertical / horizontal synchronization signal of an image signal of a display image;
A second step of adding pixel data on one line including the coordinates detected in the first step;
A third step of determining the magnitude relationship of the pixel data on one line added in the second step with respect to the black display portion reference;
A fourth step of determining that the coordinates of the image data belong to the black display unit according to a determination result of the image data with respect to the black display unit reference in the third step. Method. An image detection method for detecting a black display portion of a display image, comprising:
A first step of detecting coordinates of the image signal based on a vertical / horizontal synchronization signal of the image signal of the display image;
A second step of adding the image data of the coordinates detected in the first step;
A third step of determining a magnitude relationship of the pixel data added in the second step with respect to a black display unit reference;
A fourth step of determining whether or not the image data is within a range of a predetermined aspect ratio according to a determination result of the image data with respect to a black display unit reference in the third step;
And a fifth step of, when it is determined in the fourth step that the image signal is within the black display range, detecting that the image signal of the coordinate value is a black display section. An image detection program for detecting a black display portion of a display image,
A display area detection function for detecting a display area from an image signal,
A black display unit detection function of detecting a black display unit in the detected display area;
An image detection program for causing a computer to function as a screen position detection function for detecting whether the detected black display portion is located at the top or bottom of the screen or at the left or right of the screen. An image detection program for detecting a black display portion of a display image,
A coordinate value detection function for detecting the coordinates of the image signal during a unit period based on a vertical / horizontal synchronization signal of the image signal of the display image;
A pixel data addition function for adding pixel data on one line including the coordinates detected by the coordinate value detection function,
A determination function of determining a magnitude relationship of pixel data on one line added by the pixel data addition function with respect to a black display unit reference;
An image characterized by causing a computer to function as a black display section detection function for determining that the coordinates of the image data belong to the black display section in accordance with a determination result of the image data with respect to the black display section reference by the determination function. Detection program. An image detection program for detecting a black display portion of a display image,
A coordinate detection function for detecting the coordinates of the image signal based on a vertical / horizontal synchronization signal of the image signal of the display image,
An image data addition function of adding image data of coordinates detected by the coordinate detection function,
A determination function of determining the magnitude relationship of the pixel data added by the image data addition function with respect to the black display unit reference;
An aspect determination function of determining whether the image data has a predetermined aspect ratio in accordance with a determination result of the image data with respect to a black display unit reference by the determination function;
An image detection program for causing a computer to function as a black display section detection function for detecting that an image signal at the coordinates is a black display section when the aspect determination function determines that the image signal is within the black display range. An image display device comprising the image detection device according to claim 1.

Images