JP4424920B2 - Outdoor display device, display method for outdoor display device, and outdoor display device control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an outdoor display device that lights up any of a plurality of light emitting elements to display characters and designs, a display method for an outdoor display device, and an outdoor display device control program.
[0002]
[Prior art]
Conventionally, as this type of outdoor display device, a road information display device that is installed on a highway or at the rear of a road work vehicle and displays traffic information is known. In this display device, for example, pixels composed of a red LED and a yellow-green LED are arranged in a dot matrix, and red, yellow-green, orange (red and yellow) are controlled by controlling whether or not the LED is lit for each pixel. Characters and designs (including moving images) are displayed in each color (simultaneous lighting with green) (for example, Non-Patent Document 1). At this time, the background brightness of the display device is high due to the influence of sunlight from sunrise to sunset, for example, about 1000 cd / m in daylight weather. ² Therefore, the background brightness is about 3800 cd / m. ² About 4800 cd / m ² Characters and designs are lit up with the brightness value. That is, since the luminance value of the background is high at daytime, it is easy to see by lighting up characters and symbols with a luminance contrast of about 5 times (1: 4.8) as described above against the luminance value. The display is done.
[0003]
However, the brightness value of the display surface is 0.1 cd / m at night when it is not affected by sunlight. ² For the following brightness values, characters and designs are about 120 cd / m ² Since the display is performed with the lighting brightness of nighttime brightness, the display is performed with a brightness contrast of 1200 times or more. For this reason, a phenomenon (glare) that makes it difficult to see the surroundings of the light source due to high-intensity light occurs, hindering visual recognition from a distance (because characters and designs are hardened), and at the same time increase the display brightness at night to suppress glare There was a problem that it was not possible (see FIG. 8). However, in road information display devices, etc., it is necessary to show that the information is being provided by displaying it with a bright display brightness with high attractiveness. Therefore, as the maximum bright display that can secure the minimum viewing distance required About 120cd / m ² The display is performed according to the display brightness. However, it has been reported that the viewing distance is reduced by 10 to 20% compared to the daytime viewing distance even when this display luminance is used in consideration of both the visibility reduction due to the glare phenomenon and the securing of the viewing distance.
[0004]
Therefore, in order to solve this problem, the applicant of the present application can switch the display on the display device between the daytime display and the nighttime display according to the brightness of the surroundings. In addition to the conventional method of lighting only the light emitting element corresponding to the display position, a configuration for lighting the light emitting element corresponding to the background position other than the display position was invented. Accordingly, it is possible to significantly reduce the contrast between the light emitting element corresponding to the display position and the light emitting element corresponding to the background position as compared with the state where the light emitting element corresponding to the background position is not lit (Patent Document 2 below). .
[0005]
[Non-Patent Document 1]
"General Catalog""NEW METHOD & NEW TECHNOLOGY"
Issuer Nagoya Electric Industry Co., Ltd.
Date of issue April 2002 (back cover K0204 indicates date of issue)
Photos of the corresponding pages “P.34 and P.49”
[0006]
[Patent Document 2]
Japanese Patent Application No. 2002-342802
[0007]
[Problems to be solved by the invention]
In the conventional display device described above, in the dynamic scan lighting generally applied in the display device, display of only the display position and display of the display position plus the display of the background position other than the display position are each 1 Think of it as a screen, display a single screen that displays only the display position several times, and then display one screen with the display of the display position plus the display of the background position. The luminance ratio between the luminance of the position and the luminance of the background position is variable. In this case, switching between the display of only the display position and the display obtained by adding the display of the background position to the display of the display position is performed based on the refresh interval of dynamic lighting.
[0008]
Here, assuming that the refresh interval is the speed at which the display of only the display position is repeatedly displayed, the speed at which the background position is displayed once every n times is clearly slower than this, and only the display of the background position is displayed. The result will flicker in the human eye. Therefore, the refresh rate must be based on the display rate of the background position (display + background) shown in FIG. (In FIG. 9, the luminance ratio is displayed at 4: 1.) At this time, the refresh rate must be changed every time the luminance ratio between the display position display and the background position display is changed. While the proposed display method is effective even when the luminance ratio is large, there is a problem that the refresh rate has to be increased as the luminance ratio is increased. However, in the method to cope with the increase in the refresh rate, the amount of data related to the display increases when the display panel is large, and thus there is a limit due to the restriction of the data transfer rate in the shift register.
[0009]
The present invention has been made in view of the above-mentioned problems, prevents glare around characters and symbols without being restricted by the refresh rate limit, and illuminance even in an environment where the ambient illuminance of the display board is low (for example, at night). It is an object of the present invention to provide an outdoor display device capable of realizing a viewing distance equivalent to an environment with high (for example, daytime), a display method for an outdoor display device, and a medium on which an outdoor display device control program is recorded.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, an invention according to claim 1 is an outdoor display device that displays a character or a design by lighting any one of a plurality of light emitting elements disposed on a display surface disposed outdoors. Ambient illuminance measuring means for measuring the ambient illuminance on the display surface, a light emitting element corresponding to the display position of the character or design on the display surface, and a light emitting element corresponding to a background position other than the display position are individually provided. When the ambient illuminance measured by the ambient illuminance measuring means is less than or equal to a predetermined illuminance, the light emitting element corresponding to the display position and the light emitting element corresponding to the background position are alternately arranged. Light-emitting element lighting control means is also provided that controls the lighting time of the light-emitting element corresponding to the background position to be relatively shorter than the lighting time of the light-emitting element corresponding to the display position.
[0011]
In the invention concerning Claim 1 comprised as mentioned above, the outdoor display apparatus which lights up one of the several light emitting elements arrange | positioned on the display surface arrange | positioned outdoors and displays a character and a design is provided. To do. Here, in the outdoor display device according to the present invention, the light emitting element lighting means individually corresponds to the display position of the characters and symbols on the display surface and the light emitting element corresponding to the background position other than the display position. It can be lit. The light emitting element lighting control means measures the ambient illuminance on the display surface by the ambient illuminance measuring means, and corresponds to the light emitting element corresponding to the display position and the background position when the measured ambient illuminance is less than or equal to the predetermined illuminance. The light emitting elements are turned on alternately. At this time, the light emitting element lighting control means controls the lighting time of the light emitting element corresponding to the background position relatively shorter than the lighting time of the light emitting element corresponding to the display position.
[0012]
That is, when the ambient illuminance is less than or equal to a predetermined illuminance (for example, at night), the light emitting element corresponding to the display position of characters and symbols is turned on and the light emitting element corresponding to the background position is alternately turned on to display The contrast between the light emitting element corresponding to the position and the light emitting element corresponding to the background position is reduced from the state where the light emitting element corresponding to the background position is not lit. At this time, the display position display and the background position display are alternately displayed while controlling the lighting time of the light emitting element corresponding to the background position to be shorter than the lighting time of the light emitting element corresponding to the display position. Further, an excessive contrast is prevented from occurring between the light emitting element corresponding to the display position and the light emitting element corresponding to the background position. Thereby, the viewing distance of characters and symbols on the outdoor display device can be made equal to the viewing distance in the daytime. At this time, the predetermined contrast given between the light emitting element corresponding to the display position and the light emitting element corresponding to the background position is preferably a contrast that prevents glare caused by excessive contrast, so that this contrast can be obtained. It is preferable to adjust the relative time relationship between the lighting time of the light emitting element corresponding to the background position and the lighting time of the light emitting element corresponding to the display position.
[0013]
According to a second aspect of the present invention, in the outdoor display device according to the first aspect, the light emitting element lighting control means turns on the light emitting element corresponding to the display position as the illuminance increases. A lighting time correspondence table storage means for storing a lighting time correspondence table that predefines a correspondence relationship between each lighting time in which the time difference between the lighting time of the light emitting elements corresponding to the time and the background position is set to be gradually longer; When the measured ambient illuminance is less than or equal to the predetermined illuminance, the lighting time correspondence table stored in the lighting time correspondence table storage means is searched based on the measured ambient illuminance, and the display result corresponds to the display position. The lighting time of the light emitting element to be turned on and the lighting time of the light emitting element corresponding to the background position are controlled.
[0014]
In the invention according to claim 2 configured as described above, in the lighting time correspondence table storage means of the light emitting element lighting control means, the lighting time and background of the light emitting element corresponding to the display position as the same illuminance increases. A lighting time correspondence table preliminarily defining a correspondence relationship with each lighting time in which the time difference of the lighting time of the light emitting element corresponding to the position is set to be gradually longer is stored. With this configuration, when the light emitting element lighting control unit controls the lighting time, the lighting time correspondence table stored in the lighting time correspondence table storage unit is searched based on the measured ambient illuminance. Based on the search result, the lighting time of the light emitting element corresponding to the display position and the lighting time of the light emitting element corresponding to the background position are controlled.
[0015]
Furthermore, the invention according to claim 3 is the outdoor display device according to claim 1 or 2, wherein the light emitting element lighting control means includes a display color of the light emitting element corresponding to the display position. The display color of the light emitting element corresponding to the background position is turned on in a different color or the same color.
In the invention according to claim 3 configured as described above, the display color of the light emitting element corresponding to the display position and the display color of the light emitting element corresponding to the background position are different colors or the same color by the light emitting element lighting control means. Light up. If displayed in different colors, the contrast between the display position and the background position can be formed with color contrast, and if displayed in the same color, the contrast between the display position and the background position is formed with luminance contrast. It becomes possible to make it.
[0016]
Furthermore, the invention according to claim 4 is the outdoor display device according to any one of claims 1 to 3, wherein the light emitting element lighting control means is the ambient illuminance measured by the ambient illuminance measurement means. Is equal to or greater than a predetermined illuminance, the light emitting element corresponding to the display position is continuously turned on instead of being alternately turned on with the light emitting element with respect to the background position.
In the invention according to claim 4 configured as described above, when the ambient illuminance measured by the ambient illuminance measuring means is equal to or higher than a predetermined illuminance (for example, daytime), the light emitting element lighting control means corresponds to the display position. The light emitting element is turned on continuously. Thereby, the conventional high lighting brightness which resisted the background brightness in the daytime can be ensured.
[0017]
Further, the invention according to claim 5 is the outdoor display device according to claim 4, wherein the light emitting element lighting control unit is continuously lit in accordance with the measured ambient illuminance. The lighting time of the light emitting element corresponding to is changed.
In the invention according to claim 5 configured as described above, the light emitting element lighting control means changes the lighting time of the light emitting element corresponding to the display position that is continuously lit in accordance with the measured ambient illuminance. . Thereby, the lighting brightness of characters and symbols can be changed according to the ambient illuminance.
[0018]
The invention according to claim 6 is the outdoor display device according to any one of claims 1 to 5, wherein the light emitting element lighting control means updates the display on the display surface at a predetermined refresh interval. Based on the above, the lighting of the light emitting element corresponding to the display position and the lighting of the light emitting element corresponding to the background position are alternately turned on.
In the invention according to claim 6 configured as described above, the light emitting element lighting control means controls the light emitting element lighting means based on a predetermined refresh interval for updating the display on the display surface where no flicker is felt. At this time, lighting of the light emitting element corresponding to the display position and lighting of the light emitting element corresponding to the background position are alternately turned on at the refresh interval.
[0019]
Here, the outdoor display device that displays a character or a design by lighting any one of the plurality of light emitting elements disposed on the display surface disposed outdoors described above is a method of presenting a display procedure for the display surface. Needless to say, this is true.
Accordingly, in the invention according to claim 7, there is provided a display method for an outdoor display device in which any one of a plurality of light emitting elements disposed on a display surface disposed outdoors is turned on to display characters and designs. Ambient illuminance measurement step for measuring the ambient illuminance on the display surface, and a light emitting element corresponding to the display position of the character or design on the display surface and a light emitting element corresponding to a background position other than the display position are individually turned on. When the ambient light intensity measured in the ambient light intensity measuring step is equal to or lower than a predetermined light intensity, the light emitting element corresponding to the display position and the light emitting element corresponding to the background position are alternately turned on. And a light emitting element lighting control step for controlling the lighting time of the light emitting element corresponding to the background position to be relatively shorter than the lighting time of the light emitting element corresponding to the display position.
There is no difference in being effective as a display method of an outdoor display device as well as a substantial outdoor display device.
[0020]
A display method and apparatus for displaying a character or a design by lighting any one of a plurality of light emitting elements arranged on a display surface arranged outdoors is realized by the above-described outdoor display apparatus alone. The idea of the invention includes various aspects such as being used in a state where it is incorporated in a certain device, and may be changed as appropriate, such as software or hardware. It is. In the case of software for controlling an outdoor display device as an embodiment of the idea of the invention, the invention can also be realized as a recording medium for the hardware or software.
As an example, in the invention according to claim 8, an outdoor display device that displays a character or a design by lighting any one of a plurality of light emitting elements disposed on a display surface disposed outdoors is realized by a computer. An outdoor display device control program that enables the ambient illuminance measurement function to measure the ambient illuminance on the display surface, the light emitting element corresponding to the display position of the characters and symbols on the display surface, and other than the display position When the ambient illuminance measured by the ambient illuminance measurement function is less than or equal to a predetermined illuminance, the light emitting element corresponding to the display position and the above The light emitting elements corresponding to the background position are alternately turned on, and the lighting time of the light emitting elements corresponding to the background position is set to be relatively shorter than the lighting time of the light emitting elements corresponding to the display position. Gosuru it is constituted comprising a light emitting element lighting control function.
In other words, the invention may be formed by a program that can be realized by a computer. Of course, the software recording medium may be a magnetic recording medium, a magneto-optical recording medium, or any recording medium to be developed in the future.
[0021]
The same is true without any question about the duplication stage of the primary reproduction product and the secondary reproduction product. In addition, even when the communication method is used as a supply method, the present invention is not changed, and the same applies to the case where data is written on a semiconductor chip. Further, even when a part is software and a part is realized by hardware, the idea of the invention is not completely different, and a part is recorded on a recording medium, and it is appropriately changed as necessary. It may be in the form of being read.
[0022]
【The invention's effect】
As described above, according to the present invention, when the ambient illuminance is less than or equal to a predetermined illuminance (for example, at night), lighting of the light emitting element corresponding to the display position of characters and symbols and lighting of the light emitting element corresponding to the background position are performed. Provided is an outdoor display device in which the contrast between a light emitting element corresponding to a display position and a light emitting element corresponding to a background position can be reduced by alternately performing the light emitting element corresponding to the background position without lighting the light emitting element. be able to.
According to the second aspect of the present invention, it is possible to form an appropriate contrast between the light emitting element corresponding to the display position and the light emitting element corresponding to the background position corresponding to the ambient illuminance.
[0023]
Furthermore, according to the third aspect of the present invention, it is possible to form the contrast between the display position and the background position with color contrast or luminance contrast. Furthermore, according to the invention concerning Claim 4, it becomes possible to utilize the display period which displays the background displayed alternately as a display period which displays a display position.
Furthermore, according to the invention concerning Claim 5, it can be set as the light emission state according to ambient illuminance by changing lighting time.
Further, according to the invention of claim 6, the contrast between the display position and the background position can be adjusted by controlling the lighting time without changing the refresh interval.
[0024]
Furthermore, according to the invention according to claim 7, when the ambient illuminance is less than or equal to a predetermined illuminance (for example, at night), the light emitting element corresponding to the display position of characters and symbols and the light emitting element corresponding to the background position The display method for outdoor use can reduce the contrast between the light-emitting element corresponding to the display position and the light-emitting element corresponding to the background position by alternately turning on the light from the state where the light-emitting element corresponding to the background position is not turned on. Can be provided.
Furthermore, according to the eighth aspect of the present invention, when the ambient illuminance is less than or equal to a predetermined illuminance (for example, at night), the light emitting element corresponding to the display position of characters and symbols and the light emitting element corresponding to the background position are displayed. The display device for outdoor use is capable of reducing the contrast between the light emitting element corresponding to the display position and the light emitting element corresponding to the background position from the state where the light emitting element corresponding to the background position is not turned on by alternately turning on A control program can be provided.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Here, embodiments of the present invention will be described in the following order.
(1) Configuration of outdoor display device:
(2) Background lighting processing:
(3) Operation of outdoor display device:
(4) Modification:
(5) Summary:
[0026]
(1) Configuration of outdoor display device:
FIG. 1 shows the appearance of an outdoor display device according to the present invention.
In the figure, an outdoor display device 10 is a device that is attached to a column that stands on the side of a road, and displays traffic information and the like on its display surface 11. The display surface 11 is provided with a plurality of LEDs as pixels, and characters and symbols can be displayed on the display surface by lighting any of these LEDs. The enlarged view A is a view schematically showing an enlarged part of the display surface 11. The display unit 11 is formed by arranging pixels P composed of red LEDs (R) and yellow-green LEDs (G) in a matrix, and controls the lighting of each color LED for each pixel so that characters in three colors are displayed. And display symbols. That is, when only the red LED is turned on for each pixel, red letters and designs can be displayed when only the red LED and the yellow-green LED are turned on, yellow-green, and when the red LED and the yellow-green LED are turned on.
[0027]
FIG. 2 is a block diagram illustrating a main internal configuration of the outdoor display device 10.
In the figure, an outdoor display device 10 includes a control unit 20 that controls characters and symbols displayed on the display surface 11, an LED display unit 30 that drives a plurality of LED display units 31, and the surroundings of the outdoor display device 10. And an illuminometer 40 for detecting the illuminance. The illuminometer 40 is attached to the outer frame of the display surface 11 and is connected to the luminance control unit 25 a of the LED control unit 25. As will be described later, the luminance control unit 25a determines whether the periphery of the outdoor display device 10 is daytime or nighttime based on the measurement result of the illuminometer 40. The LED display unit 30 includes a plurality of LED display units 31 on which a certain number of LEDs are mounted, and a shift register is mounted on each unit. The shift register is a storage device that sequentially transmits digital data to an adjacent register in synchronization with an input clock, and a register corresponds to each color LED. In the present embodiment, the corresponding LED is turned on when the digital data stored in the register is “1”, and the corresponding LED is turned off when the digital data is “0”. .
[0028]
In order to display characters and symbols on the entire display surface 11, the LED display unit 30 acquires digital data serially transferred from the control unit 20, and transfers data for the entire screen to the shift register of each LED display unit. To remember. The data is shifted to a driver, which will be described later, and temporarily stored, and a lighting signal is given to the driver, thereby displaying characters and designs corresponding to the digital data transferred from the control unit 20 for the time when the lighting signal is given. Lights and displays on the surface 11. When the LED on the display surface 11 is turned on once, data for the entire screen is transferred again to the shift register, and the LED is turned on after the data transfer is completed. However, the clock described above is very fast. Therefore, blinking is repeated in a short cycle, and it seems to the human eye that the LED is continuously lit.
[0029]
The control unit 20 includes a CPU 21, a control program memory 22, a display data memory 23, a ROM 24, and an LED control unit 25. The control program memory 22 is a storage medium that stores display data consisting of the above-described digital data and stores a program for controlling lighting of pixels corresponding to characters and symbols and lighting of pixels corresponding to the background. Executes the control program while using the display data memory 23 as a work area. The ROM 24 stores display data 24a indicating characters and symbols to be displayed. The display data 24a is data in which the display position of the LED is designated for each character or design displayed on the display surface 11 of the outdoor display device 10, and red display data (R data) and yellow-green are displayed for each LED color. Display data (G data). In the present embodiment, the display data 24a is display data for turning on the light emitting element corresponding to the display position according to the present invention. At the time of display, display data 24 a is stored in the display data memory 23 under the control of the CPU 21. Further, the CPU 21 serially transfers the display data 24 a stored in the display data memory 23 to the LED control unit 25 in synchronization with a clock at a predetermined timing. The LED control unit 25 receives the serially transferred display data 24a and controls the pixels to be lit by the data control unit 25b.
[0030]
(2) Background lighting processing:
FIG. 3 is a block diagram illustrating a configuration of the LED control unit 25.
In the figure, the LED control unit 25 includes the luminance control unit 25a and the data control unit 25b as described above. The luminance control unit 25a includes an illuminance value acquisition unit 25a1, a day / night switching determination unit 25a2, and a lighting enable switching unit 25a3. The data control unit 25b includes a background data generation unit 25b1, a lighting enable output unit 25b2, and display data. And an output unit 25b3. The illuminance value acquisition unit 25a1 is connected to the illuminometer 40, and the brightness around the outdoor display device 10 measured by the illuminometer 40 can be acquired as the ambient illuminance value. Based on the ambient illuminance value of the outdoor display device 10 acquired by the illuminance value acquisition unit 25a1, the day / night switching determination unit 25a2 determines that it is daytime when the ambient illuminance is greater than the predetermined illuminance, and is equal to or less than the predetermined illuminance. It is determined that it is nighttime.
[0031]
The day / night switching determination unit 25a2 outputs the display / background switching signal b to the lighting enable output unit 25b2 of the data control unit 25b and the display / background switching signal a to the display data output unit 25b3 according to the determination result. Yes. The display / background switching signals a and b are controlled to a high level and a low level. When the level is low, the LED corresponding to the display position of characters and symbols is lit, and when the level is high, the display position is displayed. It is a signal for lighting LED corresponding to background positions other than. However, since it is necessary to output a lighting enable corresponding to the above-mentioned lighting signal after outputting display data to the LED display unit 30, the display / background switching signal b is equivalent to one refresh interval for the display / background switching signal a. Output with a delay. Here, the day / night switching determination unit 25a2 controls the display / background switching signal to the low level when it is determined to be daytime, and alternately switches to the low level based on the refresh interval of the display on the display surface 11 when it is determined to be nighttime. Control to high level. In this embodiment, when it is determined that it is daytime by the control of the display / background switching signal, the LED corresponding to the display position is continuously lit. On the other hand, when it is determined that it is nighttime, the LED corresponding to the display position and the LED corresponding to the background position are alternately turned on.
[0032]
As described above, in the present embodiment, the contrast between the LED area corresponding to the display position and the LED area corresponding to the background position corresponds to the background position by alternately lighting the LEDs of the display position and the background position at night. Reduced from the state where the LED is not lit. Here, since the display data 24a described above in the present embodiment is data for lighting the LED corresponding to the display position of the character or design, the data for lighting the LED corresponding to the background position depending on the display data 24a. It is not. Therefore, in the present embodiment, the data control unit 25b acquires R data and G data for lighting the LED corresponding to the display position, and generates background data (R ′ data and G ′ data). Then, control is performed to turn on the LED corresponding to the background position based on the background data. On the other hand, for the LED corresponding to the display position for displaying characters and symbols, control for lighting the LED is performed by the display data 24a. Hereinafter, data for lighting the LED corresponding to the display position is referred to as display data, and data for lighting the LED corresponding to the background position is referred to as background data.
[0033]
In order to realize such control, the data control unit 25b includes a background data generation unit 25b1, a lighting enable output unit 25b2, and a display data output unit 25b3. The background data generation unit 25b1 acquires R data and G data serially transferred from the display data memory 23 under the control of the CPU 21, respectively. Further, the background color can be set to red, yellow-green, or orange by a predetermined control signal (background color selection flag) output from the CPU 21. The user sets this background color to an arbitrary color in advance. When the background data generation unit 25b1 acquires R data, G data, and a background color selection flag, the background data generation unit 25b1 generates background data based on these data. The display data output unit 25b3 switches display data and background data output based on the display / background switching signal a described above and outputs the output data to the LED display unit 30 as output data. That is, when the display / background switching signal a is at a low level, display data is output as output data to the LED display unit 30, and when the display / background switching signal a is at a high level, background data is output as output data. Output to 30.
[0034]
Here, a lighting enable is output from the lighting enable output unit 25 b 2 of the LED control unit 25 to the LED display unit 30. The lighting enable defines the lighting time of the output data, and causes the LED display unit 30 to perform display based on the display data or the background data by transitioning to a high level for a predetermined period from the start of the refresh interval. That is, when the lighting enable becomes high level for the stored display data, the LED corresponding to the display position of the character or symbol is turned on, and when the lighting enable becomes high level for the stored background data. The LED corresponding to the background position is turned on. In the present embodiment, for this lighting enable, the lighting enable high level period when the LED corresponding to the background position is lit is relatively higher than the lighting enable high level period when the LED corresponding to the display position is lit. Control in a short time. This control is performed by the lighting enable switching unit 25a3. The lighting enable switching unit 25a3 outputs a lighting control signal for display data and a lighting control signal for background data to the lighting enable output unit 25b2 based on the day / night determination in the day / night switching determination unit 25a2. The lighting enable output unit 25b2 outputs the lighting enable described above based on the input of the lighting control signal.
[0035]
Thus, the LED corresponding to the display position and the LED corresponding to the background position are controlled while the lighting time of the LED corresponding to the background position is controlled to be relatively shorter than the lighting time of the LED corresponding to the display position at night. Are alternately lit to give a predetermined contrast between the LED region corresponding to the display position for displaying characters and symbols and the LED region corresponding to the other background positions. This makes it possible to prevent the human eyes from feeling the glare of characters and designs. Further, by making the glare not felt, it is possible to increase the viewing distance for the characters and symbols displayed on the display surface 11. That is, it is possible to improve the visibility of characters and symbols displayed on the display surface 11 at night.
[0036]
FIG. 4 is a circuit diagram showing a configuration example of a logic circuit configured to realize the functions of the background data generation unit 25b1, the display data output unit 25b3, and the lighting enable output unit 25b2 described above.
In the figure, R and G data read out and output from the display data memory 23 is serial data whose level can be varied in synchronization with a predetermined clock signal CLK. The background data generation unit 25b1 includes a NOR element N1 to which R and G data are input, and the output of the NOR element N1 is input to the AND elements A1 and A2. The background color selection flag a is input to the AND element A1, and the background color selection flag b is input to the AND element A2.
[0037]
Therefore, the output of the AND element A1 is a high level signal when both the R data and the G data are at the low level and the background color selection flag a is at the high level. The output of the AND element A2 is a high level signal when both the R data and the G data are at the low level and the background color selection flag b is at the high level. The output data (R ′ data) of the AND element A1 is background data when the LED corresponding to the background position is lit in red. The output data (G ′ data) of the AND element A2 is background data when the LED corresponding to the background position is lit in yellow green. If both the R ′ data and the G ′ data are used, it is possible to perform control for lighting the LED corresponding to the background position in orange.
[0038]
That is, in the background data generation unit 25b1, a selector is formed by the AND elements A1 and A2 so that the data output from the background data generation unit 25b1 can be freely selected by the combination of the background color selection flags a and b controlled by the CPU 21. Has been. Specifically, when the high level of the background color selection flags a and b is “1” and the low level is “0”, the combination is (a, b) is (1, 0). If there is, the LED corresponding to the background position is red and R ′ data is output. If (a, b) is (0, 1), the LED corresponding to the background position is yellow-green and G ′ data is output, and if (a, b) is (1, 1), it corresponds to the background position. The LED to be turned on is orange and outputs both R ′ data and G ′ data. If (a, b) is (0, 0), the LED corresponding to the background position is not lit. Therefore, in the daytime when the LED corresponding to the background position is not turned on, the background color selection flag combination (a, b) may be (0, 0).
[0039]
The display data output unit 25b3 includes AND elements A3 to A6 and OR elements O1 and O2. The AND element A3 receives R data and an inverted signal of the display / background switching signal a output from the day / night switching determination unit 25a2, and the AND element A4 receives G data and an inverted signal of the display / background switching signal a. Is done. Accordingly, the AND element A3 generates an output when the R data is high level and the display / background switching signal a is low level, and the AND element A4 is when the G data is high level and the display / background switching signal a is low level. Output is formed. On the other hand, R ′ data and the display / background switching signal a output from the day / night switching determination unit 25a2 are input to the AND element A5, and G ′ data and the display / background switching signal a are input to the AND element A6. . Accordingly, the AND element A5 generates an output when the R ′ data is high level and the display / background switching signal a is high level, and the AND element A6 has the G ′ data high level and the display / background switching signal a high level. In this case, an output is formed.
[0040]
The output of the AND element A3 and the output of the AND element A5 are input to the OR element O1, and the output of the AND element A4 and the output of the AND element A6 are input to the OR element O2. Here, one of the AND element A3, the AND element A5, the AND element A4, and the AND element A6 forms an output in response to the display / background switching signal a. Therefore, when the display / background switching signal a is at the low level and only the R data is at the high level, the R data is transferred from the OR element O1 to the R shift register 31a of the LED display unit 31. That is, the output data becomes display data, and the LED corresponding to the display position is lit in red. When the display / background switching signal a is at the low level and only the G data is at the high level, the G data is transferred from the OR element O2 to the G shift register 31a of the LED display unit 31. That is, the output data becomes display data, and the LED corresponding to the display position is lit in yellow green. When the display / background switching signal a is at the low level and the R and G data are at the high level, the R and G data are transferred from the OR elements O1 and O2 to the R shift register 31a of the LED display unit 31. That is, the output data becomes display data, and the LED corresponding to the display position is lit in orange.
[0041]
On the other hand, when the display / background switching signal a is at the high level and only the R ′ data is at the high level, the R ′ data is transferred from the OR element O1 to the R shift register 31a of the LED display unit 31. That is, the output data becomes background data, and the LED corresponding to the background position is lit in red. When the display / background switching signal a is at the high level and only the G ′ data is at the high level, the G ′ data is transferred from the OR element O2 to the G shift register 31a of the LED display unit 31. That is, the output data is background data, and the LED corresponding to the background position is lit in yellow green. When the display / background switching signal a is at the high level and the R ′ and G ′ data are at the high level, the R ′ and G ′ data from the OR elements O1 and O2 are the R and G shift registers of the LED display unit 31. It is transferred to 31a and 31b. That is, the output data is background data, and the LED corresponding to the background position is lit in orange.
[0042]
The lighting enable output unit 25b2 includes AND elements A7 to A10 and OR elements O3 and O4. The display / background switching signal b output from the day / night switching determination unit 25a2 and the R data lighting control signal from the lighting enable switching unit 25a3 are input to the AND element A7, and the display / background switching signal b is input to the AND element A8. A G data lighting control signal is input from the lighting enable switching unit 25a3. Therefore, the AND element A7 generates an output when the R data lighting control signal is at the high level and the display / background switching signal b is at the low level, and the AND element A8 has the G data at the high level and the display / background switching signal b is at the low level. Output is formed in the case of levels. On the other hand, the R ′ data lighting control signal output from the lighting enable switching unit 25a3 and the display / background switching signal b output from the day / night switching determination unit 25a2 are input to the AND element A9, and the G ′ data is input to the AND element A10. A lighting control signal and a display / background switching signal b are input. Accordingly, the AND element A9 generates an output when the R ′ data lighting control signal is at the high level and the display / background switching signal b is at the high level, and the AND element A10 outputs the G ′ data lighting control signal at the high level and the display / background. An output is formed when the switching signal b is at a high level.
[0043]
The output of the AND element A7 and the output of the AND element A9 are input to the OR element O3, and the output of the AND element A8 and the output of the AND element A10 are input to the OR element O4. Here, any one of the AND element A7, the AND element A9, the AND element A8, and the AND element A10 forms an output in response to the display / background switching signal b. Therefore, when the display / background switching signal b is at the low level and only the R data lighting control signal is at the high level, the lighting enable for the R data is transferred from the OR element O3 to the R driver 31c of the LED display unit 31. . When the display / background switching signal b is at the low level and only the G data lighting control signal is at the high level, the lighting enable for the G data is transferred from the OR element O4 to the G driver 31d of the LED display unit 31. Further, when the display / background switching signal b is at a low level and the R, G data lighting control signal is at a high level, the lighting enable for the R, G data from the OR elements O3, O4 is R, G of the LED display unit 31. The data is transferred to the G drivers 31c and 31d.
[0044]
On the other hand, when the display / background switching signal b is at the high level and only the R ′ data lighting control signal is at the high level, the lighting enable for the R ′ data is transferred from the OR element O3 to the R driver 31c of the LED display unit 31. Is done. When the display / background switching signal b is at the high level and only the G ′ data lighting control signal is at the high level, the lighting enable for the G ′ data is transferred from the OR element O4 to the G driver 31d of the LED display unit 31. When the display / background switching signal b is at the high level and the R ′, G ′ data lighting control signal is at the high level, the lighting enable for the R ′, G ′ data from the OR elements O3, O4 is set to the LED display unit 31. To the R and G drivers 31c and 31d. Then, lighting for each color is performed at the display position or the background position described above by the lighting enable controlled to a high level by the above operation.
[0045]
The processing by the data control unit 25b may be performed by software, or may be performed by hardware or a combination of hardware and software. Moreover, the drive control of the LED display part 30 is implemented by the data control part 25b. That is, the LED on the LED display 30 is turned on by designating the position where the LED is turned on by the serial data (output signals of the OR elements O1 and O2) output from the display data output unit 25b3 and from the lighting enable output unit 25b2. This is realized by controlling the brightness at which the LED is lit in the high level time of the lighting enable that is output. That is, the amount of current supplied to the LED display unit 30 is controlled during the high level time when lighting is enabled, and the display luminance of the LED is determined by this amount of current. Then, the above-mentioned predetermined contrast is formed by making the lighting enable high level time for displaying the background data relatively shorter than the lighting enable high level time for displaying the display data. I try to do it.
[0046]
(3) Operation of outdoor display device:
Next, the operation of the present embodiment according to the configuration and processing will be described.
FIG. 5 is a timing chart showing the operation at night, and FIG. 6 is a timing chart showing the operation at daytime.
In the figure, based on display / background switching signal a, output data (display data or background data), display / background switching signal b, lighting enable (R, G data lighting control signal, R ′, G ′ data lighting control signal). The timing chart is shown. When it is determined that it is nighttime, the display / background switching signal transitions to a high level and a low level at the refresh interval. As output data, background data and display data are alternately output at refresh intervals. At this time, the background data is output when the display / background switching signal a is at a high level, and the display data is output when it is at a low level.
[0047]
When the display / background switching signal b is at the high level, the lighting enable based on the R ′, G ′ data lighting control signal corresponding to the background position is shifted to the high level at the predetermined time T1 from the start of the refresh interval. When the display / background switching signal b is at the low level, the lighting enable based on the R, G data lighting control signal corresponding to the display position is shifted to the high level at the predetermined time T2 from the start of the refresh interval. In the present embodiment, the predetermined time T1 << the predetermined time T2. This refresh interval is configured so that the display surface 11 does not flicker. By controlling the high level time of lighting enable while maintaining this refresh interval, the display position display and the background position display are repeated while repeating the display position display and the background position display at the screen update speed of the refresh interval. It is possible to form an appropriate contrast for the display of the background position.
[0048]
On the other hand, when it is determined that it is daytime, the display / background switching signal a is always set to the low level, and the display data is always output as the output data. Since the display / background switching signal b is always at a low level, the lighting enable based on the R, G data lighting control signal is changed to a high level at a predetermined time T2 at every refresh interval. Thereby, only the LED corresponding to the display position is turned on in the daytime, thereby increasing the lighting brightness of the display position and improving the visibility of the characters and symbols displayed on the display surface 11. At this time, the brightness of the characters and symbols can be adjusted by controlling the time for which the lighting enable is set to the high level, so that the device can be simplified. Further, if the predetermined time T2 is variably controlled corresponding to the ambient illuminance measured by the illuminometer 40, it is possible to adjust the brightness of characters and symbols according to the ambient illuminance with a simple configuration.
[0049]
FIG. 7 shows a case where the lighting of the LED corresponding to the display position of characters and symbols and the lighting of the LED corresponding to the background position are alternately performed at predetermined intervals in the present invention to give a predetermined brightness to the background. A display example of characters and designs is shown. On the other hand, FIG. 8 shows a display example of conventional characters and designs with the background not illuminated. In the figure, how the display surface 11 is seen by the human eye is schematically shown, with white indicating a bright part and a darker part as it becomes blacker. Further, in this figure, the characters “Astringent” in the character display “Congested” are extracted and shown. When the background is always turned off at night, a very large contrast is generated between the display position of the characters and symbols and the background position as shown in FIG. 8, and the characters and symbols are blurred by glare. On the other hand, as shown in FIG. 7, the LEDs corresponding to the background position are alternately turned on with respect to the LEDs corresponding to the display position to give a predetermined background luminance, thereby providing the display luminance and background luminance of characters and symbols. When a predetermined contrast is given, the glare is reduced and the edges of characters and designs are clearly visible. As a result, a viewing distance equivalent to that in daytime can be easily secured.
[0050]
(4) Modification:
In the embodiment described above, the lighting enable switching unit 25a3 outputs the RG data lighting control signal and the R′G ′ data lighting control signal to the lighting enable output unit 25b2 when the day / night switching determination unit 25a2 determines that it is nighttime. In this case, the high level time of the R′G ′ data lighting control signal (= LED lighting time corresponding to the background position) is determined from the high level time of the RG data lighting control signal (= LED lighting time corresponding to the display position). A mode in which the output is adjusted so as to be a short time based on a predetermined time difference defined in advance is adopted. On the other hand, this time difference may be fixed or may be varied according to the ambient illuminance. In such a case, as the ambient illuminance increases, the correspondence between the lighting time of the LED corresponding to the display position and the lighting time of the LED lighting time corresponding to the background position is set longer in advance. Is preferred. Then, this correspondence relationship is stored in the ROM 24 as a lighting time correspondence table, the ambient illumination value acquired by the illumination value acquisition unit 25a1 is acquired by the lighting enable switching unit 25a3, and the lighting is performed based on the acquired ambient illumination value. A mode in which the high-level time of the RG data lighting control signal and the R′G ′ data lighting control signal is controlled by searching the time correspondence table may be adopted. This makes it possible to perform appropriate lighting control according to ambient illuminance that changes every moment, such as early morning or twilight.
[0051]
(5) Summary:
In this way, the LED and background corresponding to the display position at the refresh interval are controlled while the LED lighting time T1 corresponding to the background position is controlled to the LED lighting time T2 (T1 << T2) corresponding to the display position at night. By alternately lighting the LED corresponding to the position, a predetermined contrast is given to the LED area corresponding to the display position for displaying characters and symbols and the LED area corresponding to the other background positions. This makes it possible to prevent the human eyes from feeling the glare of characters and designs. Further, by making the glare not felt, it is possible to increase the viewing distance for the characters and symbols displayed on the display surface 11. That is, it is possible to improve the visibility of characters and symbols displayed on the display surface 11 at night.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an external appearance of an outdoor display device.
FIG. 2 is a block diagram showing a main internal configuration of an outdoor display device.
FIG. 3 is a block diagram showing a detailed configuration with a control unit.
FIG. 4 is a diagram illustrating a circuit configuration example of each unit.
FIG. 5 is a timing chart of signals and the like at night time.
FIG. 6 is a timing chart of signals and the like at daytime.
FIG. 7 is a display example of characters and designs on the outdoor display device of the present invention.
FIG. 8 is a display example of characters and symbols on a conventional outdoor display device.
FIG. 9 is an explanatory diagram for explaining the difference between the previously proposed display control method and the display control method of the present invention.
[Explanation of symbols]
10 ... Outdoor display device
11 ... Display surface
20 ... Control unit
21 ... CPU
22 ... Control program memory
23: Display data memory
24 ... ROM
25 ... LED control unit
25a: Brightness control unit
25a1 ... Illuminance value acquisition unit
25a2 ... Day / night switching judgment part
25a3 ... lighting enable switching part
25b ... Data control unit
25b1 ... Background data generation unit
25b2 ... Lighting enable output section
25b3: Display data output section
30 ... LED display
40 ... Illuminance meter

Claims (8)

An outdoor display device that displays characters and designs by lighting any of a plurality of light emitting elements disposed on a display surface disposed outdoors,
Ambient illuminance measuring means for measuring the ambient illuminance of the display surface;
A light emitting element lighting means capable of individually lighting a light emitting element corresponding to a display position of the character or design on the display surface and a light emitting element corresponding to a background position other than the display position;
When the ambient illuminance measured by the ambient illuminance measurement means is less than or equal to a predetermined illuminance, the light emitting element corresponding to the display position and the light emitting element corresponding to the background position are alternately turned on, and the background position is supported. And a light emitting element lighting control means for controlling a lighting time of the light emitting element to be relatively shorter than a lighting time of the light emitting element corresponding to the display position.   The light emitting element lighting control means is configured to gradually increase the time difference between the lighting time of the light emitting element corresponding to the display position and the lighting time of the light emitting element corresponding to the background position as the illuminance increases. A lighting time correspondence table storage means for storing a lighting time correspondence table in which a correspondence relationship with time is preliminarily stored, and when the measured ambient illuminance is less than or equal to a predetermined illuminance, Searching the lighting time correspondence table stored in the lighting time correspondence table storage means, and controlling the lighting time of the light emitting element corresponding to the display position and the lighting time of the light emitting element corresponding to the background position based on the search result. The outdoor display device according to claim 1, wherein the display device is for outdoor use.   The light emitting element lighting control unit lights the display color of the light emitting element corresponding to the display position and the display color of the light emitting element corresponding to the background position in different colors or the same color. Item 3. An outdoor display device according to any one of Items 2 to 3.   The light-emitting element lighting control means continuously turns on a light-emitting element corresponding to the display position when the ambient illuminance measured by the ambient illuminance measuring means is greater than or equal to a predetermined illuminance. The outdoor display device according to claim 3.   The said light emitting element lighting control means changes the lighting time of the light emitting element corresponding to the said display position lighted continuously according to the said measured surrounding illumination intensity, The said Claim 4 characterized by the above-mentioned. Outdoor display device.   The light emitting element lighting control means displays on the display surface the lighting of the light emitting element corresponding to the display position and the lighting of the light emitting element corresponding to the background position based on a predetermined refresh interval for updating the display on the display surface. The outdoor display device according to any one of claims 1 to 5, wherein the lights are alternately turned on. A display method for an outdoor display device that lights up any of a plurality of light emitting elements arranged on a display surface arranged outdoors and displays characters and designs,
Ambient illuminance measurement step of measuring the ambient illuminance of the display surface with an illuminometer provided in the outdoor display device ,
When the ambient illuminance measured in the ambient illuminance measurement step is equal to or lower than a predetermined illuminance, the control unit included in the outdoor display device and the light emitting element corresponding to the display position of the character or symbol on the display surface and the same The light emitting elements corresponding to the background positions other than the display position are alternately lit, and the lighting time of the light emitting elements corresponding to the background position is controlled to be relatively shorter than the lighting time of the light emitting elements corresponding to the display position. A display method for an outdoor display device, comprising: a light emitting element lighting control step. An outdoor display device control program for controlling an outdoor display device that lights up any of a plurality of light emitting elements disposed on a display surface disposed outdoors and displays characters and designs,
Ambient illuminance measurement function for measuring the ambient illuminance of the display surface with an illuminometer provided in the outdoor display device ,
When the ambient illuminance measured by the ambient illuminance measurement function is less than or equal to a predetermined illuminance, the control unit included in the outdoor display device and the light emitting element corresponding to the display position of the character or symbol on the display surface and the same The light emitting elements corresponding to the background positions other than the display position are alternately lit, and the lighting time of the light emitting elements corresponding to the background position is controlled to be relatively shorter than the lighting time of the light emitting elements corresponding to the display position. An outdoor display device control program which causes a computer to realize a light emitting element lighting control function.

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