JP2014505390A - Digital color monitor and digital color monitor calibration method - Google Patents

Abstract

The present invention relates to a new digital color monitor and a digital color monitor calibration method that can adjust a deviation generated when displaying an image output from an ultrasonic inspection apparatus. According to the digital color monitor and the calibration method thereof according to the present invention, the brightness characteristic curve (40) that outputs the image closest to the standard screen is selected in a state where the standard image is input to the monitor and displayed. Later, since the white balance of the brightness characteristic curve (40) is adjusted, it is possible to prevent a deviation from occurring when the same image is displayed on different monitors, thereby improving the reliability of the ultrasonic inspection apparatus. There is an advantage that you can.
[Selection] Figure 1

Description

  The present invention relates to a new digital color monitor and a digital color monitor calibration method that can adjust a deviation generated when displaying an image output from an ultrasonic inspection apparatus.

  In general, an ultrasonic diagnostic apparatus mainly used for fetal diagnosis or the like includes an ultrasonic sensor and a monitor, and is configured so that the shape of the fetus measured by the ultrasonic sensor can be displayed as an image on the monitor.

  At this time, the monitor used in such an ultrasonic diagnostic apparatus uses a digital color monitor such as an LCD monitor, a PDP monitor, or an LED monitor, and such a color monitor is usually a red color called RGB. And green and blue are mixed to show the image.

  However, such a digital color monitor has a slight deviation for each monitor, and when the same video data is displayed on different monitors, the brightness and white balance of the displayed video are slightly different. Therefore, when displaying an ultrasound diagnostic image using such a digital color monitor, there is a possibility that the fetal body becomes invisible or a shadow that does not exist is generated, resulting in misdiagnosis. In particular, when the same fetus image data is displayed on another digital monitor, different images are output, which hinders accurate diagnosis.

  Such a problem occurs in the same manner in all types of monitors other than the monitor used in the above-described ultrasonic diagnostic apparatus. However, in the case of the monitor provided in the ultrasonic diagnostic apparatus, the diagnostic result changes due to a subtle difference. Such a problem becomes even more pronounced.

  On the other hand, the color monitor is composed of a monitor panel that outputs video and a control unit that controls the monitor panel. As shown in FIG. 1, the control unit includes input values and output values of video signals. When a table having a characteristic curve indicating the correlation of the video signal is stored and a video signal is input, the values of red, green, and blue (hereinafter referred to as “RGB”) of the video signal are changed according to the characteristic curve to the monitor. By outputting the image, an image with a changed RGB value is output to the monitor. At this time, the control unit is a general monitor driving panel. The characteristic curve has a linear curve shape having a substantially constant slope.

  Then, a calibration function is provided for inputting a control signal to the control unit using an input means, changing the characteristic curve, and correcting an image output from the color monitor.

  As described above, the calibration method for correcting the output image includes the white balance adjustment method for adjusting the inclination of the entire RGB characteristic curve as shown by the dotted line in FIG. 1 and the one-dot chain line in FIG. The gamma adjustment method adjusts the curvature of the RGB characteristic curve according to the input gamma value.

  However, in the method of adjusting the white balance, the ratio of the input value and the output value of red (R), green (G) and blue (B) is adjusted proportionally to adjust the white balance. There is a problem that loss occurs in the output video for each level of the input signal, and it is practically impossible to adjust so that an optimal video is expressed.

  Furthermore, in the case of a method for adjusting gamma, the signal value at the time of data communication between different video equipments, such as outputting data stored in the camera to a monitor or transferring to a printer for printing, is unified. However, there is a problem that it is not suitable for correcting a deviation that occurs when the same video data is displayed on different digital color monitors.

  In particular, such a conventional calibration method has a problem that when adjusting the brightness, it is impossible to adjust the brightness deviation of each part of the image only by making the entire screen brighter or darker. .

  Therefore, a new calibration method that can correct a deviation generated when displaying an image on a digital color monitor is required.

  The present invention is to solve the above-mentioned problems, and the present invention is a new digital monitor that can adjust the deviation of each monitor that occurs when an image output from an ultrasonic inspection apparatus is displayed on a digital color monitor. The purpose is to provide a calibration method.

  In order to achieve the above-described object, the present invention stores the display panel 10 and a table having a characteristic curve indicating the correlation between the input value and the output value of the video signal, and stores the video signal input according to the characteristic curve. In a digital color monitor including a control unit 20 that converts and outputs to the display panel 10 and an input unit 30 connected to the control unit 20, the table includes a gray map having a plurality of brightness characteristic curves 40, A chroma map having a plurality of RGB characteristic curves 50 assigned to the lightness characteristic curve 40 and having the lightness characteristic curve 40 adjusted so that the color temperatures thereof are different from each other, and using the input means 30, a specific lightness characteristic curve After selecting 40, the chroma map RGB characteristic curve 50 assigned to the selected brightness characteristic curve 40 is displayed. Select a specific RGB characteristic curve 50, to provide a digital color monitor, characterized in that it is possible to adjust the white balance of the brightness characteristic curve 40.

  According to another feature of the present invention, the lightness characteristic curve 40 of the gray map has a quadratic curve shape with an intermediate portion bent upward or downward, and the maximum value and the minimum value of each lightness characteristic curve 40 converge. A digital color monitor is provided.

  According to another feature of the present invention, the RGB characteristic curve 50 of the chroma map has a quadratic curve shape in which an intermediate portion curves upward or downward, and the maximum value and the minimum value of each RGB characteristic curve 50 converge. A digital color monitor is provided.

  According to another aspect of the present invention, in the calibration method for adjusting the deviation of the video output to the digital color monitor, the standard video signal is input to the control unit 20 so that the standard video is displayed on the monitor. A step of visually confirming an image displayed on the screen, selecting a lightness characteristic curve 40 that outputs an image closest to the standard image among the lightness characteristic curves 40 input to the table, and the selected lightness characteristic curve 40. A method for calibrating a digital color monitor, comprising: selecting a specific RGB characteristic curve 50 from among the RGB characteristic curves 50 of the chroma map assigned to 40 and adjusting the white balance of the brightness characteristic curve 40. Is provided.

  According to the digital color monitor and the calibration method thereof according to the present invention, after selecting the brightness characteristic curve 40 that outputs the image closest to the standard screen in a state where the standard image is input and displayed on the monitor, Since the white balance of the brightness characteristic curve 40 is adjusted, it is possible to prevent a deviation from occurring when the same image is displayed on different monitors, and the reliability of the ultrasonic inspection apparatus can be improved. is there.

The reference figure which shows the conventional calibration method. 1 is a configuration diagram showing a digital color monitor according to the present invention. FIG. 4 is a reference diagram showing a brightness characteristic curve of a digital color monitor according to the present invention. FIG. 3 is a reference diagram showing RGB characteristic curves of a digital color monitor according to the present invention. FIG. 7 is a reference diagram illustrating a calibration method for a digital color monitor according to the present invention.

  Hereinafter, the present invention will be described in detail with reference to accompanying drawings.

  2 to 4 show a digital color monitor according to the present invention, in which a display panel 10 and a table having a characteristic curve indicating a correlation between an input value and an output value of a video signal are stored. It is the same as the conventional digital color monitor that it includes a control unit 20 that converts the video signal input according to the above and outputs it to the display panel 10 and an input means 30 connected to the control unit 20. At this time, the input means 30 indicates an operation switch or a remote controller provided integrally with the monitor.

  In addition, according to the present invention, the table includes a gray map having a plurality of lightness characteristic curves 40 and a plurality of chroma maps having a plurality of RGB characteristic curves 50 assigned to each lightness characteristic curve 40. map).

  Explaining this in detail, the brightness characteristic curve 40 of the gray map is a graph showing the correlation between the brightness value of the input video signal and the brightness value of the video output to the monitor, as shown in FIG. And is previously input to the memory 21 of the control unit 20. Therefore, when a video signal is input in a state where one lightness characteristic curve 40 is selected using the input means 30, the control unit 20 causes the video signal input according to the selected lightness characteristic curve 40 to be input. After adjusting the brightness, it is output to the display panel 10 so that an image with the adjusted brightness is displayed. The function of the brightness characteristic curve 40 is similar to that of the conventional ICC profile except that the brightness value is adjusted, and thus detailed description thereof is omitted.

  Further, each of the brightness characteristic curves 40 is compared with the input image and the displayed image in a state in which the producer inputs the image data to the control unit 20 and is displayed on the monitor. Correlation values between an input value and an output value at which the lightness deviation between the two values is the smallest for each input value are obtained by arranging them in a graph. At this time, the lightness characteristic curve is preferably composed of four as shown in FIG. 3 so as to be able to cope with four kinds of lightness deviation generation patterns.

  In addition, the brightness characteristic curve 40 obtained in this way has a quadratic curve form in which the intermediate portion bends upward or downward by different amounts, while the maximum value and the minimum value of each brightness characteristic curve 40 converge. That is, the minimum value of the input and output of the plurality of brightness characteristic curves 40 input to the gray map is the same as 0, the maximum value of the input and output is also the same, and the input value is between 0 and the maximum value. In some cases, the output values of the lightness characteristic curves 40 are different from each other. The brightness characteristic curve 40 is based on the same white balance.

  The method for obtaining the lightness characteristic curve 40 is similar to a method for calibrating a general ICC profile, and selecting one lightness characteristic curve 40 in a gray map can be used for various types of ICC profiles. Since it is conceptually similar to pre-installing in the control unit 20 and selecting and using one of them, detailed description is omitted.

  The RGB characteristic curve 50 of the chroma map is obtained by adjusting the brightness characteristic curve 40 to which the chroma map is assigned so that the color temperatures are different from each other, and functions to adjust the white balance of each brightness characteristic curve 40. At this time, the RGB characteristic curve 50 is configured to adjust the RGB values of the lightness characteristic curve 40 in seven types. Since the brightness characteristic curve 40 is composed of four, when all chroma maps are displayed in one graph, there are a total of 28 curves as shown in FIG. Further, the RGB characteristic curve 50 has a quadratic curve shape in which the middle portion is bent upward or downward like the lightness characteristic curve 40, and the maximum value and the minimum value of each RGB characteristic curve 50 converge. .

  A calibration method using the digital color monitor configured as described above will be described as follows.

  First, a standard video is input to the control unit 20 so that the standard video is displayed on the monitor.

  Then, the operator visually confirms the image displayed on the screen, and operates the input means 30 to obtain a brightness characteristic curve 40 in which the brightness of the image displayed on the screen is the same as the brightness of the standard image. Select and specify.

  When the lightness characteristic curve is selected, a specific RGB characteristic curve 50 is selected from the RGB characteristic curves 50 of the chroma map assigned to the lightness characteristic curve 40, and the white balance of the lightness characteristic curve 40 is adjusted.

  Then, the stored brightness characteristic curve 40 and RGB characteristic curve 50 are stored and completed.

  According to such a digital color monitor and its calibration method, a plurality of preset brightness characteristic curves 40 are input in advance to the control unit 20 in accordance with a deviation generation pattern that occurs when an image is displayed on the digital color monitor. Therefore, after selecting the brightness characteristic curve 40 that outputs the image closest to the standard screen according to the deviation of the displayed image, the same image is displayed on different monitors in order to adjust the white balance of the selected brightness characteristic curve 40. There is an advantage that it is possible to prevent a deviation from occurring when displaying, and to improve the reliability of the ultrasonic inspection apparatus.

  In particular, the lightness characteristic curve 40 of the gray map and the RGB characteristic curve 50 of the chroma map are configured in the form of a quadratic curve whose middle portion is bent upward or downward, and each lightness characteristic curve 40 and the RGB characteristic curve 50 are Since the maximum value and the minimum value are converged, there is an advantage that the entire screen does not become bright or dark when the deviation is adjusted.

  The above is merely an example of a preferred embodiment of the present invention, and those skilled in the art of the present invention can make modifications and changes to the present invention without changing the gist of the present invention. We must recognize that.

Claims (4)

A display panel (10) and a table having a characteristic curve indicating the correlation between the input value and the output value of the video signal are stored, and the video signal input according to the characteristic curve is converted and output to the display panel (10). In a digital color monitor including a control unit (20) that performs control and input means (30) coupled to the control unit (20),
The table includes a gray map having a plurality of lightness characteristic curves (40) and a plurality of RGB characteristics assigned to each lightness characteristic curve (40), wherein the lightness characteristic curves (40) are adjusted to have different color temperatures. A chroma map having a curve (50),
After selecting a specific brightness characteristic curve (40) using the input means (30), a specific RGB characteristic curve among the RGB characteristic curves (50) of the chroma map assigned to the selected brightness characteristic curve (40). (50) is selected, and the white balance of the brightness characteristic curve (40) can be adjusted.   The lightness characteristic curve (40) of the gray map has a quadratic curve shape in which an intermediate portion is bent upward or downward, and the maximum value and the minimum value of each lightness characteristic curve (40) converge. The digital color monitor according to claim 1.   The RGB characteristic curve (50) of the chroma map has a quadratic curve shape in which an intermediate portion curves upward or downward, and the maximum value and the minimum value of each RGB characteristic curve (50) converge. The digital color monitor according to claim 1. In the calibration method to adjust the deviation of the video output to the digital color monitor,
Inputting a standard video signal to the control unit (20) so that the standard video is displayed on a monitor;
Visually checking the image displayed on the screen, and selecting a brightness characteristic curve (40) that outputs an image closest to the standard image among the brightness characteristic curves (40) input to the table;
Selecting a specific RGB characteristic curve (50) among the RGB characteristic curves (50) of the chroma map assigned to the selected lightness characteristic curve (40), and adjusting the white balance of the lightness characteristic curve (40); A method for calibrating a digital color monitor, comprising:

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