JP2007233064A - Display system and display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide display devices which have superior eye-catch effects, when displaying a message and are capable of displaying beautiful images having hues adjusted, when displaying images. <P>SOLUTION: A display system includes various display devices for performing color display by a plurality of light-emitting diodes and a display data generator 1, capable of generating display data of the various display devices 2. A medium-sized display device 2B, included in the various display devices 2, is provided with a display state changing means, capable of changing a display state to a hue priority display state of giving priority to hue adjustment and luminance priority display state of giving priority to enhancement of luminance. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a display system having various display devices and a display data creation device, and a display device that performs color display using a plurality of light emitting diodes, and more particularly, to a display device that is used for both message display and image display. The present invention relates to a display system including a display.

  Display devices that perform color display using a plurality of light emitting diodes (LEDs) are widely used. Examples of this type of display include a small display mainly used for message display, a medium display for both message display and image display, and a large display mainly used for image display.

  Generally, in a display device that displays an image, so-called gamma correction is performed in order to adjust the color tone (white balance or the like). This is because the type, dot pitch, brightness, etc. of the light emitting diodes are different for each display, and even if the same image data is applied, the color tone of the displayed image varies greatly.

  As a method of gamma correction, there is a method in which display data before being input to the display is corrected in advance according to the gamma characteristics of the display (see, for example, the column of the prior art in Patent Document 1). However, in this method, when changing the color tone, it is necessary to correct the display data with a display data creation device (such as a personal computer). Therefore, not only the color tone change operation is troublesome, but also the display data creation device is at hand. If not, there is a problem that it is difficult to change the color tone.

Therefore, the display unit is equipped with gamma correction means, and the illumination around the display unit changes depending on the time of day and weather, making it difficult to see the display, or depending on conditions such as video data being transmitted from different video devices Some have automatically corrected the gamma correction value (see, for example, Patent Documents 1 and 2).
JP 2000-293119 A JP 2000-293133 A

  However, in the display devices described in Patent Documents 1 and 2, gamma correction is executed regardless of the intention even when gamma correction using an automatically set correction value is not desired. There is a possibility that a display state according to the user's preference cannot be obtained, and there is a problem to be solved by the present invention. For example, a gamma correction value that prioritizes color tone is automatically applied to a message display application that prioritizes luminance, and the eye catching effect of the display device may be reduced.

The present invention has been created in order to solve these problems in view of the above circumstances, and various displays that perform color display using a plurality of light emitting diodes, and display data of the various displays. In a display system having a display data creation device that can be created, at least one of the various displays includes a color priority display state in which priority is given to adjusting the color tone, and a brightness priority display state in which priority is given to increasing the brightness. And a display state changing means capable of changing the display state. If the display system is configured in this way, the display state (color tone priority display state or luminance priority display state) of the display unit can be changed on the display side according to the usage of the display unit or the user's preference. As a result, an excellent eye-catching effect can be obtained by selecting the brightness priority display state when displaying a message, while a beautiful image whose color tone is adjusted by selecting a color priority display state when displaying an image. Can be displayed.
Further, the display state changing means changes the display state based on a manual setting of a gamma correction value. If the display system is configured in this way, the display state of the display can be finely adjusted according to the use of the display and the user's preference.
The display state changing means stores and holds a gamma correction value suitable for the tone priority display state and a gamma correction value suitable for the luminance priority display state, and changes the display state based on switching of the gamma correction value to be applied. It is characterized by changing. When the display system is configured in this way, the display state can be easily switched as compared with the case where the gamma correction value is manually set, and the switching can be quickly performed.
Further, the display state changing means discriminates a data type based on display data or a command included in the display data, and automatically switches a gamma correction value to be applied based on the discrimination result. If the display system is configured in this way, not only the manual switching operation of the display state becomes unnecessary, but also the display state suitable for the data type can be applied without error. That is, the brightness priority display state can be automatically applied in message display, and the color tone priority display state can be automatically applied in image display.
In addition, in a display that performs color display using a plurality of light emitting diodes, the display state can be changed between a color priority display state where priority is given to adjusting the color tone and a luminance priority display state where priority is given to increasing the brightness. Means are provided. If the display device is configured in this way, the display state (color tone priority display state or luminance priority display state) of the display device can be changed on the display side according to the use of the display device or the user's preference. As a result, an excellent eye-catching effect can be obtained by selecting the brightness priority display state when displaying a message, while a beautiful image whose color tone is adjusted by selecting a color priority display state when displaying an image. Can be displayed.
Further, the display state changing means changes the display state based on a manual setting of a gamma correction value. By configuring the display device in this way, it becomes possible to finely adjust the display state of the display device according to the use of the display device and the user's preference.
The display state changing means stores and holds a gamma correction value suitable for the tone priority display state and a gamma correction value suitable for the luminance priority display state, and changes the display state based on switching of the gamma correction value to be applied. It is characterized by changing. If the display is configured in this way, the display state can be easily switched as compared with the case where the gamma correction value is manually set, and the switching can be performed quickly.
Further, the display state changing means determines a data type based on display data or a command included in the display data, and automatically switches a gamma correction value to be applied based on the determination result. In this way, not only the manual switching operation of the display state becomes unnecessary, but also the display state suitable for the data type can be applied without error. That is, the brightness priority display state can be automatically applied in message display, and the color tone priority display state can be automatically applied in image display.

  According to the present invention as described above, the display state (color tone priority display state or luminance priority display state) of the display can be changed on the display side according to the use of the display and the user's preference. As a result, an excellent eye-catching effect can be obtained by selecting a brightness priority display state when displaying a message, while a beautiful image with a color tone adjusted by selecting a color tone priority display state when displaying an image. Can be displayed.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a display system. The display system creates a display data creation device 1 that creates display data, and displays messages and images based on the display data created by the display data creation device 1. It is comprised from the various indicator 2 to perform.

The display data creation device 1 of this embodiment shown in FIG. 2 is configured by introducing a display data creation program into a personal computer, and at least the display data is edited as a functional component. Editing means 3 for output and output means 4 for outputting display data edited by the editing means 3.
The display data edited by the editing means 3 includes control commands in addition to message data for displaying characters and image data for displaying images. The control command is setting information for setting various display conditions. For example, various display modes can appear by specifying the display size, display font, display color, display pattern, and the like with the control command. Become.

A data input unit 5 and a setting input unit 6 are connected to the editing unit 3. The data input means 5 is an input device for inputting message data and image data to the editing means 3. Specifically, a keyboard for inputting message data, a hard disk drive for storing message data and image data, a CD- A CD-ROM drive that reads data from a ROM, a browser that downloads data from a server on the Internet, and the like are conceivable. The setting input unit 6 can be configured using an input device equivalent to the data input unit 5.
The output means 4 outputs the display data edited / created by the editing means 3 to the display device 2 via the portable memory 7, or transfer means such as a modem or a router provided in the display data creation device 1. 8 and the communication line via the communication line.

The various display devices 2 perform color display by a plurality of light emitting diodes (LEDs). In the present embodiment, the small display device 2A mainly used for message display and the message display and image display are combined. Medium size display 2B and a large display 2C mainly used for image display are included.
The small display 2A is suitable for signboards installed at the front of a store or the like, and is required to have a display state with a high eye-catching effect giving priority to luminance. Further, in the general small display 2A, the processing capability and processing accuracy of the embedded processor are not sufficient, and the necessity thereof is low, and therefore gamma correction is not performed.

  On the other hand, the large display 2C can display a message, but is mainly used for image display, and therefore a display state in which color tone is given priority is required. The general large display 2C is equipped with a built-in processor with high processing capability and high processing accuracy and performs automatic gamma correction. The purpose of this is due to the type of light emitting diode, dot pitch, brightness, and the like. This is a gamma correction that prioritizes color tone by correcting variations in color tone and adjusting white balance. There is also known a large display 2C that automatically corrects the brightness according to the weather and day and night, but this gamma correction is a correction that changes the overall brightness while giving priority to the color tone. Corrections that increase brightness are not performed.

  The medium size display 2B is used for an intermediate use between the small display 2A and the large display 2C, and is also used for message display and image display. When used for image display, since a display state that prioritizes color tone is required, a medium-sized display 2B that performs gamma correction is also known. However, the gamma correction performed by the conventional medium-sized display 2B is a large display. This is not a sophisticated gamma correction in which the correction value is automatically adjusted as in the case 2C, but a simple gamma correction in which the correction value is fixed. Therefore, the medium-size display 2B in which the gamma correction value giving priority to the color tone cannot perform gamma correction giving priority to the luminance, and the medium-size display 2B in which the gamma correction value giving priority to the luminance is set. There was a problem that gamma correction with priority on color tone could not be performed.

  The medium-sized display 2B of the present embodiment includes a display state changing unit in order to solve the above problems. The display state changing means is capable of changing the display state of the medium-sized display 2B to a color priority display state in which priority is given to adjusting the color tone and a luminance priority display state in which priority is given to increasing the luminance. In this way, the display state (color tone priority display state or luminance priority display state) of the medium-sized display 2B can be changed on the display side according to the application and user's preference. By selecting the luminance priority display state, an excellent eye-catching effect can be obtained. On the other hand, when displaying an image, it is possible to display a beautiful image with adjusted color tone by selecting the color tone priority display state.

  Next, a specific configuration of the medium size display 2B will be described with reference to FIG. As shown in this figure, the medium-sized display 2B of the present embodiment includes a display data reading means 9 for reading display data output from the display data creating device 1, and a display data read by the display data reading means 9. Display data control means 10 for performing display control according to the command, gamma correction means 11 for gamma correcting the LED drive command signal output from the display data control means 10, and a light emitting diode based on the gamma corrected LED drive command signal And a display unit 13 in which a plurality of light emitting diodes are arranged in a matrix. The display reading means 9 can read data from the portable memory 7 and can read display data from the display data creation device 1 via the communication line and the receiving means 14.

The medium-sized display 2B of this embodiment includes two display state changing means. The first display state changing means changes the display state based on the manual setting of the gamma correction value. For example, a setting input unit 15 such as a remote controller is connected to the display data control unit 10 or the gamma correction unit 11, and a gamma correction value suitable for a color tone priority display state or a luminance priority display based on an operation of the setting input unit 15. Allows manual setting of a gamma correction value suitable for the condition. In this way, it becomes possible to finely adjust the display state of the medium-sized display device 2B according to the application and user's preference. The manual setting of the gamma correction value by the setting input means 16 can be performed in the range of 0.1 to 1.0 for each color of “red”, “green”, and “blue”, for example. It is preferable to enable fine adjustment of the balance and color tone.
The first display state changing means in the present invention is realized by the control processing in the display data control means 10, and the processing content is to change the gamma correction value according to the input signal from the setting input means 15. Since the processing is as easy as possible, the description of the flowchart and the description thereof are omitted.

The second display state changing means stores and holds a gamma correction value suitable for the color priority display state and a gamma correction value suitable for the luminance priority display state, and displays based on switching of the gamma correction value to be applied. Change the state. In this way, the display state can be easily switched as compared with the case where the gamma correction value is manually set, and quick switching is possible.
Further, when the second display state changing means is adopted, the data type (message data or image data) is determined based on the display data or the control command included in the display data, and the gamma to be applied based on the determination result. It is easy to switch the correction value automatically. In this way, not only the manual switching operation of the display state becomes unnecessary, but also the display state suitable for the data type can be applied without error. That is, the brightness priority display state can be automatically applied in message display, and the color tone priority display state can be automatically applied in image display.

Next, the control procedure of the medium-sized display 2B that realizes the second display state changing means will be described with reference to FIG. As shown in this figure, in the display state changing process, first, display data is read (S1), and its data type is determined (S2). The data type of the display data may be determined based on the data type of message data or image data, but may be determined based on the description content of the control command.
When the data type of the display data is image data, a previously stored gamma correction value for tone priority display is applied (S3), and when it is message data, a gamma correction for luminance priority display stored in advance is applied. The value is applied (S4). Then, after performing the gamma correction process (S5) based on the applied gamma correction value, the LED drive command signal after the gamma correction is output to the drive unit 12 (S6), and the tone priority display or luminance is displayed on the display unit 13. Priority display is performed.

  Of course, the present invention is not limited to the present embodiment. For example, the change between the luminance priority display state and the color tone priority display state by the display state changing means is limited to the medium size display 2B. Instead, it can be executed even with the small display 2A or the large display 2C.

  In the embodiment of the present invention configured as described above, a display having various display devices 2 that perform color display using a plurality of light emitting diodes and a display data generating device 1 that can generate display data of the various display devices 2. The medium-sized display 2B included in the various displays 2 can change the display state between a color tone priority display state where priority is given to adjusting the color tone and a luminance priority display state where priority is given to increasing the luminance. Since the display state changing means is provided, it is possible to change the display state (color tone priority display state or luminance priority display state) of the medium-sized display 2B on the display side according to the application and user's preference. As a result, an excellent eye-catching effect can be obtained by selecting the brightness priority display state when displaying a message, while a beautiful image whose color tone is adjusted by selecting a color priority display state when displaying an image. Can be displayed.

Further, since the first display state changing means changes the display state based on the manual setting of the gamma correction value, it is possible to finely adjust the display state of the medium-sized display 2B according to the usage and the user's preference. become.
The second display state changing means stores and holds a gamma correction value suitable for the color priority display state and a gamma correction value suitable for the luminance priority display state, and displays based on switching of the gamma correction value to be applied. Since the state is changed, the display state can be easily switched as compared with the case where the gamma correction value is manually set, and quick switching is possible.

  The second display state changing means can determine the data type based on the display data or a command included in the display data, and can automatically switch the gamma correction value to be applied based on the determination result. In this way, not only the manual switching operation of the display state becomes unnecessary, but also the display state suitable for the data type can be applied without error. That is, the brightness priority display state can be automatically applied in message display, and the color tone priority display state can be automatically applied in image display.

It is a block diagram of a display system. It is a block diagram of a display data creation device. It is a block diagram of a display. It is a flowchart figure which shows the control procedure of a display state change process.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display data preparation apparatus 2A Small display 2B Medium display 2C Large display 3 Editing means 4 Output means 5 Data input means 6 Setting input means 7 Memory 8 Transfer means 9 Display data reading means 10 Display data control means 11 Gamma correction means 12 driving unit 13 display unit 14 receiving unit 15 setting input unit

Claims (8)

  In a display system having various displays that perform color display using a plurality of light emitting diodes and a display data creation device capable of creating display data of the various displays, at least one of the various displays adjusts the color tone. A display system comprising display state changing means capable of changing a display state between a color priority display state in which priority is given to brightness and a brightness priority display state in which priority is given to increasing brightness.   The display system according to claim 1, wherein the display state changing unit changes the display state based on a manual setting of a gamma correction value.   The display state changing means stores and holds a gamma correction value suitable for a tone priority display state and a gamma correction value suitable for a luminance priority display state, and changes the display state based on switching of the gamma correction value to be applied. The display system according to claim 1.   4. The display state changing unit determines a data type based on display data or a command included in the display data, and automatically switches a gamma correction value to be applied based on the determination result. Display system.   In a display that performs color display using a plurality of light emitting diodes, display state changing means capable of changing a display state between a color tone priority display state in which priority is given to adjusting color tone and a luminance priority display state in which priority is given to increasing luminance. A display characterized by comprising.   6. The display device according to claim 5, wherein the display state changing unit changes the display state based on a manual setting of a gamma correction value.   The display state changing means stores and holds a gamma correction value suitable for a tone priority display state and a gamma correction value suitable for a luminance priority display state, and changes the display state based on switching of the gamma correction value to be applied. The display according to claim 5.   8. The display state changing means determines a data type based on display data or a command included in the display data, and automatically switches a gamma correction value to be applied based on the determination result. Indicator.

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