KR102182803B1 - Method and apparatus for adjusting screen image expressed on display - Google Patents

Abstract

The present invention relates to an apparatus and method for adjusting a screen displayed on a display. A screen adjustment apparatus according to an embodiment of the present invention receives a visual sensor unit for collecting visual information of a screen displayed on a display, a lighting unit for illuminating at least a portion of the display, and the visual information of the screen collected by the visual sensor unit. The screen analysis unit that analyzes at least one of the uniformity and color of the screen using an artificial intelligence model in which machine learning is performed in advance, and the uniformity and color of the screen expressed on the display based on the analysis of the screen analysis unit It may include a control unit for controlling the lighting unit to adjust at least one.

Description

Apparatus and method for adjusting the screen displayed on the display {METHOD AND APPARATUS FOR ADJUSTING SCREEN IMAGE EXPRESSED ON DISPLAY}

The present invention relates to an apparatus and method for adjusting a screen displayed on a display. More specifically, by detecting the screen expressed on the display by using the visual sensor, the uniformity and color are analyzed, and based on this analysis, the lights that optically affect the display are selected to improve the uniformity and color. It relates to a screen adjustment method and apparatus to be used.

A display is a device that outputs input image data as an image that can be viewed from the outside, and is widely used to deliver visual information.
As display technology advances, displays can be used for various purposes, and accordingly, displays are used in various environmental conditions. However, even if the display outputs the same image, the image detected by a person's vision may vary depending on the environment in which the display is used, affected by ambient light.
Accordingly, even if a screen output by the same display device is installed, color or color temperature is changed according to an installation location or an installed environment, and there is a problem that screen uniformity or accurate color expression is not guaranteed. In particular, in a large display made by expanding the same display devices, these problems are more pronounced in terms of boundary surfaces.
In addition, problems may occur in screen uniformity or color expression of the display due to deterioration in performance of the display itself or a setting error.
Accordingly, a method of adjusting the screen of the display by photographing an image representation on a display with a camera and directly sending a correction signal to a portion controlling the display based on the photographing result has been attempted.
For example, as shown in FIG. 1, after the camera 110 photographs the display 100 and analyzes parts to be corrected by the correction control unit 120 based on the photographed image information, a correction signal is generated, A method of transmitting a correction signal to the display controller 160 that directly controls the display driver through the control value transfer unit 140 has been used.
As an example, in U.S. Patent No. 6,549,183, an image signal reproduced on a display device having a nonvolatile memory is acquired, the image signal is converted into digital data, and correction data is obtained based on this, and the correction data is connected to the display. Disclosed is an invention of correcting a display defect by writing to a nonvolatile memory.
In addition, in Korean Patent Publication No. 2017-0035382, in an LED lighting inspection apparatus having an LED driver that drives a plurality of LEDs, image data is generated and generated by photographing a light receiving surface on which light output from the LED lighting is incident. Disclosed is a method of controlling brightness by controlling an LED driver when the output of the LED lighting calculated from the image data is out of a certain condition.
The method as described above is a method of changing the output of the LED itself or the display itself by transmitting a correction signal or a control signal directly to the driver of the LED itself constituting the display or the memory of the display, but in order to interlock with the drivers of various displays There is a problem that a separate interface development is required, a high cost for measurement and response is required, and a professional installation manpower is required.
In other words, in the conventional method of controlling the display driver, since the operation method of the display controller differs depending on the type of device, chip vendor, and manufacturer, an appropriate interface must be implemented for each model, which requires a lot of cost, time, and professional manpower. There is a problem that it is.
Therefore, there is a need for a new method for improving the uniformity and color sense of a screen displayed on a display without being directly linked to a driver of the display.

An object of the present invention is to solve a problem in that high cost and professional installation personnel are required when a method of directly controlling drivers of various displays in order to optimize the uniformity and color of the display to the surrounding environment is taken.
More specifically, the present invention does not directly control the driver of the display device in order to output appropriate screen uniformity and color in accordance with the environment of the place where the display device is installed, but a screen adjustment that allows the manufacturer to independently control it at a low cost. It is an object to provide a method and apparatus.
In addition, the present invention detects the screen uniformity and color of the display in real time, determines an additional lighting method and a display screen adjustment method for realizing optimal screen uniformity and color, and provides ambient lighting without directly controlling the driver of the display. And a screen adjustment method and apparatus for implementing optimal screen uniformity and color by selecting a screen option using an existing interface of a display.
In addition, the present invention analyzes the degree of compensation for optimization using artificial intelligence in order to optimize the screen uniformity and color expressed on the display to the surrounding environment, and improves the screen uniformity and color by using compensation lighting. It is an object of the present invention to provide an efficient screen adjustment method and apparatus.
In addition, in order to overcome the problem of not supporting uniformity adjustment within one screen in most display devices except for LED billboards, the present invention provides installation cost and installation difficulty unlike the conventional method of directly controlling the display device. It is an object of the present invention to provide a screen adjustment method and apparatus capable of effectively adjusting uniformity or color in one screen while being low.
In addition, the present invention analyzes the lighting in the installed environment with a pre-learned artificial intelligence model instead of the method of directly controlling the display driver, and the screen uniformity or color sense expressed on the display using appropriately installed compensation lighting. It is an object of the present invention to provide a screen adjustment method and apparatus capable of satisfying consumer's display sensibility while reducing installation and management costs by adjusting.
In addition, the present invention provides a screen adjustment method and apparatus capable of providing a smooth and natural screen to the user by adjusting the screen uniformity and color sense of the display by controlling the illumination irradiated to the display instead of directly controlling the display driver. It is aimed at.
In addition, the present invention provides both an auto mode that automatically adjusts according to the environment and a custom mode that is directly adjusted by the user. When artificial intelligence analyzes and proposes a desired screen, the individual user's needs It is an object of the present invention to provide a screen adjustment method and an apparatus in which a user can select a screen adjustment method according to the present invention.
In addition, the present invention is a means independent from the control of the display driver so that a control interface suitable for the chip vendor manufacturer must be prepared in the conventional method of directly controlling the display driver, and this requires a lot of time and cost. It is an object of the present invention to provide a method and apparatus for adjusting a screen that can reduce complexity and cost for control by using a device.

To achieve the above object, the inventors of the present invention adjust the screen uniformity and color sense of the display through compensation lighting installed in a space that can optically affect the screen of the display rather than a method of directly controlling the driver of the conventional display. Invented a method and apparatus for the following.
In addition, an embodiment of the present invention provides a screen adjustment apparatus and method capable of adjusting the screen uniformity and color sense of the displayed screen by analyzing the lighting in the environment in which the display is arranged with artificial intelligence and using appropriately installed compensation lighting. do.
In addition, in an embodiment of the present invention, the visual information of the screen displayed on the display is collected through the visual sensor unit to recognize the uniformity and color of the displayed screen, and analyze it through artificial intelligence analysis. Provides a screen adjustment apparatus and method for adjusting the screen uniformity and color sense of the display by controlling the lighting device of the display to irradiate light.
An apparatus for adjusting a screen displayed on a display according to an embodiment of the present invention includes a visual sensor unit for collecting visual information of a screen displayed on the display, an illumination unit for illuminating at least a portion of the display, and a visual sensor unit. It may include a screen analysis unit for receiving the visual information of the screen collected by the analysis at least one of the uniformity and color of the screen.
Here, the visual sensor unit includes a plurality of image sensors, the illumination unit includes a plurality of lighting devices, and each of the plurality of image sensors is disposed corresponding to each of the plurality of lighting devices, and each image sensor and each image Each of the lighting devices corresponding to the sensor may be aligned to face the same direction.
In addition, the screen analysis unit may receive screen setting information of the display, and analyze the uniformity and color of the screen based on the screen setting information and the visual information of the screen collected by the visual sensor unit.
In addition, the screen analysis unit can use artificial intelligence to predict the optical change of the display screen according to the illuminance, color of the illumination, color temperature, etc. of the illumination unit illuminating the display, and generate a correction signal to adjust the uniformity and color sense of the displayed screen May be.
The screen adjustment apparatus according to an embodiment of the present invention may include a control unit that controls the lighting unit to adjust at least one of a uniformity and color sense of a screen displayed on a display based on an analysis of the screen analysis unit.
Here, the controller may control at least one of an illumination direction of the illumination unit, brightness of the illumination unit, and illumination color of the illumination unit.
In addition, the visual sensor unit further includes an illuminance sensor for measuring the brightness of the surrounding environment of the display, and the controller may control the brightness of the lighting unit based on information collected from the illuminance sensor.
In addition, in another embodiment of the present invention, the controller is connected to enable communication with the display, and the controller may control a screen setting value of the display based on the analysis of the screen analyzer.
A method for adjusting a screen expressed on a display according to another embodiment of the present invention includes, by a visual sensor unit, collecting visual information of a screen expressed on the display, by the screen analysis unit, Analyzing at least one of the uniformity and color of the screen based on the visual information of the screen, by the control unit, the screen of the display to adjust at least one of the uniformity and color of the screen expressed on the display based on the analysis. It may include the step of controlling the lighting unit having an optical effect.
Here, the visual sensor unit includes a plurality of image sensors, the illumination unit includes a plurality of lighting devices, each of the plurality of image sensors is disposed corresponding to each of the plurality of lighting devices, and the first of the plurality of image sensors The image sensor may be aligned to face the same direction as the first lighting device among the plurality of lighting devices.
In addition, controlling the lighting unit may include controlling an operation of the first lighting device based on analysis of information on the screen collected from the first image sensor.
In addition, the controlling may include controlling at least one of an illumination direction of the illumination unit, brightness of the illumination unit, and illumination color of the illumination unit.
In addition, the visual sensor unit further includes an illuminance sensor for measuring the brightness of the surrounding environment of the display, and the controlling may include controlling the brightness of the lighting unit based on information collected from the illuminance sensor.
In another embodiment of the present invention, the controller is connected to enable communication with the display, and the controlling of the controller may include controlling a screen setting of the display based on analysis.
In addition, the analyzing may include receiving screen setting information of a display, and analyzing the uniformity and color of the screen based on the screen setting information and the visual information of the screen collected by the visual sensor unit.

The screen adjustment apparatus and method according to the embodiments of the present invention can optimize the screen uniformity and color of the general Indian display according to the surrounding environmental conditions at low installation and management costs without the effort of configuring drivers of various displays directly. Provides the effect of doing.
In addition, the present invention provides an effect of allowing a manufacturer to independently control a screen adjustment device for outputting an appropriate screen uniformity and color sense according to an environment of a place where a display device is installed at low cost.
In addition, the present invention provides an effect of realizing optimal screen uniformity and color by using ambient lighting and an existing interface of the display while sensing the screen uniformity and color of the display in real time.
In addition, the present invention analyzes the compensation degree for optimization using artificial intelligence to optimize the screen uniformity and color expressed on the display to the surrounding environment, and adjusts the screen to improve the screen uniformity and color by using compensation lighting. Makes this possible.
In addition, the present invention analyzes the environment through artificial intelligence and controls compensation lighting based on this to adjust the screen uniformity and color of the display using the specificity of the light, thereby increasing the degree of freedom of the display control method. The complexity of this provides a reduction effect.
In addition, the present invention can provide a smooth and natural screen to a user by adjusting the screen uniformity and color sense of the display.
In addition, the present invention provides both an auto mode that automatically adjusts according to the environment and a custom mode that the user directly adjusts so that the user can select a screen adjustment method according to the needs of each individual user. Provides the effect of doing.
In addition, the present invention provides the effect of allowing the uniformity of the display screen to be sufficiently adjusted without measurement adjustment of a user camera unless it is a large professional display.
In addition, the present invention is a technology that changes lighting according to the surrounding environment, and may be used not only for adjusting the uniformity and color sense of a display screen, but also for aesthetically changing an interior or indoor environment.

1 is a view for explaining a method of calibrating a screen of a display using a camera in the prior art.
2 is a diagram schematically illustrating an apparatus for adjusting a screen displayed on a display according to an embodiment of the present invention.
3 is a diagram illustrating a visual sensor unit, a lighting unit, and an information transmission unit in an apparatus for adjusting a screen displayed on a display according to an embodiment of the present invention.
4 is a diagram schematically showing an apparatus for adjusting a screen displayed on a display according to another exemplary embodiment of the present invention.
5 is a flowchart of a method for adjusting a screen displayed on a display according to another exemplary embodiment of the present invention.
6 is a flowchart of a method for adjusting a screen displayed on a display according to another exemplary embodiment of the present invention.
7 illustrates a result of applying a method for adjusting a screen displayed on a display according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings. The present invention may be implemented in various different forms, and is not limited to the embodiments described herein. In the following embodiments, parts that are not directly related to the description are omitted in order to clearly describe the present invention, but it does not mean that the omitted configuration is unnecessary when implementing an apparatus or system to which the spirit of the present invention is applied. . In addition, the same reference numerals are used for the same or similar elements throughout the specification.
In the following description, terms such as first and second may be used to describe various components, but the components should not be limited by the terms, and the terms refer to one component from another component. It is used for identification purposes only. In addition, in the following description, expressions in the singular include plural expressions, unless the context clearly indicates otherwise.
In the following description, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other It is to be understood that the presence or addition of features, numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being excluded.
2 is a diagram schematically illustrating an apparatus for adjusting a screen displayed on a display according to an embodiment of the present invention.
An apparatus for adjusting a screen displayed on a display includes a display 200, a lighting unit 210 for illuminating at least a portion of the display 200, an information transmission unit 220 for transmitting received visual information, and a received display. A display information analysis unit 230 for analyzing visual information on a screen, and a display control unit 240 may be included.
The display 200 is a device that outputs input image data as an image that can be viewed from the outside. However, even if the same image is output by the same display, the uniformity and color of the image, which is displayed on the display according to the conditions of the surrounding environment, may vary.
For example, even if the display 200 expresses a single color with uniform brightness, if a part of the display 200 receives sunlight and a part is covered by a shadow, a screen displayed on the display 200 that the user observes Areas covered by silver sunlight appear bright, and areas covered by shadows appear dark.
Accordingly, even if the display 200 itself maintains the screen uniformity and expresses the intended color sense, the actually observed screen to the user may not be uniform and the color may not be transmitted as intended.
In one embodiment of the present invention, the change of the display 200 itself, which may be complicated to control the color distortion or non-uniformity of the screen due to the surrounding environment, color distortion or non-uniformity of the screen due to an error of the display itself, is minimized It provides a way to solve it using surrounding compensation lighting.
Meanwhile, when the screen adjustment apparatus and method according to an exemplary embodiment of the present invention is implemented, the display 200 may enter the screen adjustment mode and display a single color with the same screen uniformity. The reason why a uniform single color is expressed on the display 200 is because it is easy to grasp the problems of the uniformity and color sense of the screen displayed on the display. The display 200 may sequentially express different colors in the screen adjustment mode, and screen adjustment according to an embodiment of the present invention may be applied to each color.
The lighting unit 210 is a device that allows an optical effect on the display 200 and is a lighting means capable of adjusting brightness or color, and may be mainly composed of an LED lighting, an illuminance sensor, and a color sensor.
The lighting unit 210 may include a first lighting device 210-1, a second lighting device 210-2, and a third lighting device 210-3, and each of the lighting devices At least part of it is irradiated with light.
In FIG. 2, the first lighting device 210-1 illuminates area 3 of the display 200, the second lighting device 210-2 illuminates area 5 of the display 200, and the third lighting device ( 210-3) is shown to illuminate area 7 of the display 200, but such an illumination direction and illumination range may be arbitrarily adjusted. In addition, the number of lighting devices can be freely selected according to the embodiment.
An image sensor unit 213 for collecting visual information of a screen displayed on the display 200 may be disposed at a portion protruding from the center of each lighting device.
The image sensor unit 213 may be, for example, a combination of a CCD camera, a color sensor, and an illuminance sensor, and may be referred to as a visual sensor unit. As shown in FIG. 2, the visual sensor unit 213 is arranged to correspond to the first lighting device 210-1, the second lighting device 210-2, and the third lighting device 210-3, respectively. It may include a first image sensor 213-1, a second image sensor 213-2, and a third image sensor 213-3.
The image sensor 213 may collect uniformity and color of a screen displayed on the display 200. Here, the screen displayed on the display means the final screen displayed to the user by adding up the influence of the surrounding environment to the screen actually output by the display itself.
In addition, "color" is used to mean including various parameters related to visual effects expressed on a display. For example, the color sense may include various parameters used to provide visual effects such as color of light, illuminance, and color temperature.
It goes without saying that the image sensor 213 may collect visual information such as luminance, saturation, brightness of a screen, and lighting conditions of an installation environment.
Here, the color temperature is to detect the color temperature by analyzing the input image signal, and color temperature estimation has been conducted a lot of research. Representative examples are US Patent No. 4,685,071, US Patent No. 5,495,428, International Journal on Computer[Volume 4 number 1 pp7 ~ 38, 1990] can be referred. These patents or documents are methods of extracting the color temperature of an image by using highlight or similar information from an image, and the resulting color temperature can be expressed and analyzed as a CIE, XYZ color space, or a spectral curve of illumination.
The collected visual information is transmitted to the information delivery unit 220. As described above, the information delivery unit 220 may collect visual information of a screen displayed on the display and transmit it to the display information analysis unit 230. In addition, the information transmission unit 220 may receive a correction signal generated based on the analysis result from the information analysis unit 230 and transmit the correction signal to the lighting unit 210.
The correction signal of the information transmission unit 220 may be a signal for controlling at least one of lighting directions of lighting devices, brightness of lighting devices, lighting color of lighting devices, lighting angle, and lighting width.
That is, if the first lighting device 210-1 illuminates area 3 of the display 200 in the correction signal, if the first lighting device 210-1 needs to illuminate area 6 according to the correction signal, the first illumination device 210-1 It is possible to control the lighting direction of the device 210-1 to change, and to illuminate all areas 3, 6, and 9 of the display 200 by adjusting the illumination width of the first lighting device 210-1. You can also control it.
The display information analysis unit 230 synthesizes and analyzes the visual information of the screen received from the information delivery unit 220. For example, as shown in the left screen of FIG. 7, it is assumed that the screen displayed on the entire display 200 shows different brightness values for each part. The display information analysis unit 230 recognizes that different brightness values are expressed for each area on the display by synthesizing the visual information collected by the image sensors.
The display information analysis unit 230 recognizes a brightness value that is not uniform for each area, and derives a method for solving this non-uniformity by using an artificial intelligence model learned in advance. For example, as shown in FIG. 7, when the leftmost side shows a brightness of 20cd, the center shows a brightness of 40cd, and the rightmost side shows a brightness of 60cd, the display information analysis unit 230 illuminates the third lighting device 210- A correction signal may be generated to further increase the brightness of 3) and decrease the brightness of the first lighting device 210-1 that illuminates the far right.
The degree of illumination brightness of the lighting devices 210 changed by this correction signal may be determined by a pre-learned artificial intelligence model. The correction signal is transmitted to the information transmission unit 220, and the information transmission unit 220 causes the brightness of the first lighting device 210-1 to decrease according to the correction signal, and the brightness of the third lighting device 210-3 Can be controlled to increase.
Control for adjusting the brightness of the lighting devices may be performed so that the lighting devices reach the target brightness value after a specific brightness target value is determined according to the brightness adjustment amount predicted by the artificial intelligence model learned in advance.
Alternatively, after only the correction signal that the first lighting device should be darker and the third lighting device should be brighter is transmitted, the image sensors detect the screen displayed on the display in real time to match the uniformity of the screen. In case of loss, the screen adjustment device may be controlled so that the correction signal is stopped.
In addition to the brightness of the screen as in the above example, the display information analysis unit 230 may analyze color sense such as saturation, brightness, and color temperature of the screen expressed on the display.
If the color of the screen displayed on the display 200 varies according to the area of the display 200, the display information analysis unit 230 generates a correction signal to match the color and transmits it to the information delivery unit 220. , The information transmission unit 220 may control the lighting devices according to the received correction signal.
According to an embodiment of the present invention, in order to start setting lighting in the screen adjustment mode, a uniform single color is displayed on the display 200. The information analysis unit 230 of the screen adjustment device compares the visual information for each area under the premise that the visual information on the received screen is for a uniform single color screen, so that uniformity and color in some areas of the screen are different. You can analyze whether there is a difference with the area.
According to the analysis of the information analysis unit 230 and the artificial intelligence learned in advance, it is determined which correction should be made to improve the uniformity and color of the screen, and thus a correction signal may be generated.
The correction signal may be a signal for controlling at least one of the uniformity and color sense of the screen by controlling at least one of the lighting direction of each lighting device, the brightness of the lighting devices, the lighting color of the lighting device, the lighting angle, and the lighting width. .
The correction signal may be determined to be able to adjust the color according to the color information preferred by the user based on the previously stored user information. In addition, the display information analysis unit 230 receives from the remote control or the display 200 the setting information of the screen of the display 200 at the time of screen adjustment (eg, warm color, cool color, etc.), in addition to user information previously stored, Based on the screen setting information and the visual information of the screen collected by the image sensor unit 213, the uniformity and color of the screen may be analyzed, and a correction signal may be generated.
The correction signal as described above is transmitted to the lighting unit 210 through the information transmission unit 220, and the lighting unit 210 changes the lighting direction, lighting brightness, lighting color, lighting angle, and lighting width according to the correction signal. .
As shown in FIG. 2, each of the plurality of image sensors 213-1, 213-2, and 213-3 is arranged to correspond to each of the plurality of lighting devices 210-1, 210-2, and 210-3. And, each image sensor and each lighting device corresponding to each image sensor may be aligned to face the same direction.
When the directions of the image sensor 213 and the lighting device 210 are aligned, the image sensor 213 coupled with the lighting device 210 can detect the area where the lighting device 210 has an optical effect. More accurate screen adjustment for each area may be possible.
As shown in FIG. 3 below, the image sensor 213 may be located in the center of the lighting device 210, and may be protruded so as to be less directly affected by the lighting.
In addition to the image sensor, the visual sensor unit 213 may further include an illuminance sensor that measures the brightness of the surrounding environment of the display 200. In this case, the information transfer unit 220 transfers the information collected from the illuminance sensor to the display information analysis unit 230, and the display information analysis unit 230 adjusts the brightness of the display 200 when the brightness of the surrounding environment is bright. Stronger, when the surrounding environment is dark, a correction signal that weakens the brightness of the display 200 may be generated.
This correction signal is transmitted to the lighting unit 210 through the information transmission unit 220, and each of the lighting devices may adjust the brightness of the lighting appropriately to the surrounding environment according to the correction signal.
As shown in FIG. 2, a separate display control unit 240 may be additionally included in the screen adjustment apparatus according to an exemplary embodiment of the present invention.
The display controller 240 may be connected to enable communication with the display 200 through an interface already installed on the display 200. The display controller 200 may directly control the screen setting of the display 200 based on the analysis of the display information analysis unit 230.
Here, the interface to which the display controller 240 and the display 200 are connected is not for directly controlling the driver of the display, but is an interface that can be connected by wire or wirelessly such as UART, RS232, and I2C, and is a general screen of the display 200 It refers to a general-purpose interface that controls settings.
Control of the display through such a general interface may be a control method used in the display, for example, a screen setting method such as mode adjustment of an image, advanced user setting, gamma value setting, color value adjustment, and the like. Here, various screen setting methods may be screen settings that the user may manually adjust through a remote control or the like.
By adjusting the screen settings of the display 200 according to the display control unit 240 (for example, selecting a screen option such as a warm screen, a cold screen, or a clear screen), the overall image quality of the display is adjusted and compensation lighting is used. The display screen adjustment can be further supplemented, and this method can be used outdoors.
On the other hand, the screen adjustment apparatus according to an embodiment of the present invention may previously provide color information of various modes according to software such as firmware or application as a reference, When an external, that is, a user provides an image stored in a digital camera, a mobile device, a PC, or the like to the screen adjustment apparatus, various colors as a reference may be provided based on the provided image.
Adjustment of the screen settings of the display 200 by the above-described display control unit 240 may be optional, and in an embodiment of the present invention, the screen uniformity and color sense of the screen displayed on the display are mainly adjusted by the lighting devices 210 It may be implemented as possible.
3 is a diagram illustrating a visual sensor unit, a lighting unit, and an information transmission unit in an apparatus for adjusting a screen displayed on a display according to an embodiment of the present invention.
The lighting unit 210 may include a light source 211 for irradiating light, a direction control unit 217 for controlling the direction of illumination, a transmission/reception unit 215, and a control unit 219 for controlling them. The image sensor 213 may be disposed on the lighting unit 210 to protrude to the outside.
Here, the illumination direction by the light source 211 and the sensing direction of the image sensor 213 may be configured to be aligned with each other, and according to this configuration, the optical effect of the illumination unit 210 on the display 200 is more accurately detected. You can do it.
The image sensor 213 collects visual information of a screen displayed on the display, and transmits it to the information transmission unit 220 through the transmission/reception unit 215. The transmission/reception unit 215 transmits a command signal for performing an operation of the image sensor 213 according to an external instruction, for example, if the image sensor 213 is a camera, the image sensor 213 ).
In addition, the transmission/reception unit 215 receives a compensation signal for illumination through the information transmission unit 220, and the control unit 219 changes the illumination direction through the direction control unit 217 based on the received compensation signal. , Brightness or lighting color may be adjusted through the control of the light source 211.
In addition, although not shown in FIG. 3, if a lighting guide unit capable of controlling the direction of light emitted from the light source 211 is disposed near the light source 211, the control unit 219 controls the lighting guide unit to control the illumination angle and illumination width. You can also adjust your back.
Meanwhile, in FIG. 3, the controller 219 that controls the lighting device 210 is illustrated as being in the lighting device 210, but such a controller may be separately disposed outside the lighting device.
In addition, although it is shown that the display control unit 240 is configured separately in FIG. 2, there is one control unit in the screen adjustment apparatus, and the control unit includes a lighting control unit for controlling a lighting device and a display control unit for controlling the display. You can also have a configuration to do.
4 is a diagram schematically showing an apparatus for adjusting a screen displayed on a display according to another exemplary embodiment of the present invention.
The screen adjustment device of FIG. 4 is the same as the screen adjustment device of FIG. 3 in other configurations, except that the camera 250 performing the function of the image sensor unit is not disposed on each of the lighting units 210 and is installed separately.
Here, the camera 250 may capture visual information of the entire display 200 at one time, and transmits the entire screen information to the information delivery unit 220 so that the display information analysis unit 230 causes the uniformity of the screen. And color analysis.
In this case, the position of the camera 250 may be arranged at a position where the actual user observes the display 200, and accordingly, the screen adjustment can occur based on the screen actually viewed by the user.
5 is a flowchart of a method for adjusting a screen displayed on a display according to an embodiment of the present invention.
First, when the display 200 enters the screen adjustment mode, the screen adjustment device may start setting lighting (S300). The screen adjustment device may measure and collect visual information such as luminance and saturation of the screen expressed on the display by the image sensor unit 213 disposed on the lighting unit 210 installed as shown in FIGS. 2 and 3 (S310). .
The collected visual information is transmitted to the display information analysis unit 230 through the information transmission unit 220, and the display information analysis unit 230 adjusts the uniformity and color of the screen expressed on the display to the original display settings. Whether or not it is analyzed (S320).
If the uniformity and color of the screen are matched, the current setting value of the lighting unit 210 is stored (S350), and the screen adjustment process is terminated (S390).
However, if the uniformity and color of the screen are not matched, the setting value of the lighting to achieve the uniformity and color of the screen is calculated in the lighting device of each position through the artificial intelligence learned in advance, and the correction signal is used to the lighting unit 210. Transfer (S330).
Each lighting device receives the correction signal and changes the brightness and color of each light (S340) to adjust the uniformity and color of the screen displayed on the display, that is, the screen observed by the user.
As shown in FIG. 5, steps S310 to S340 may be repeated continuously so that the uniformity and color of the screen are adjusted to a desired degree.
6 is a flowchart of a method for adjusting a screen displayed on a display according to another exemplary embodiment of the present invention.
In FIG. 5, an automatic mode is selected in which the correction signal generated by the display information analysis unit 230 is transmitted to the lighting device 210 through the information transmission unit 220 and is automatically controlled. Shows how the lighting device is controlled.
First, when the display 200 enters the screen adjustment mode, the screen adjustment device starts setting lighting (S400). A user is asked whether to execute the automatic mode through a separate user interface connected to the screen adjustment device or the display 200 connected to the screen adjustment device (S410).
When the automatic mode execution signal is received by the user's input, the automatic mode as shown in FIG. 5 is executed (S420), and when the automatic mode is stopped afterwards or when the automatic mode execution rejection or manual mode execution signal is received in step S410, the installed image sensor unit Visual information such as luminance and saturation of a screen represented on the display by 213 is measured and collected (S430).
By analyzing the visual information collected by the display information analysis unit 230, it analyzes whether the uniformity and color of the screen is matched to the target (S440), the uniformity and color are matched, and the process is terminated with the current lighting setting as it is. (S490).
However, if the uniformity and color of the screen are different from the target value outside a certain range, the set values of the current screen luminance, saturation, brightness, and lighting are displayed and transmitted (S450). Information transfer to the user may be performed through a separate user interface of the screen adjustment device or through the display 200 connected to the screen adjustment device.
The user can adjust the uniformity and color of the screen by directly adjusting at least one of the lighting direction, brightness, lighting color, lighting angle, and lighting width of the lighting devices 210 based on the displayed values (S460). According to this, various parameters of the lighting device are changed (S470).
The image sensor 213 or 250 installed during the user's control can measure and collect visual information such as luminance and saturation of the screen displayed on the display in real time, and the user can see the displayed visual information value and Control of the lighting device can be repeated until the color sense reaches the target value.
According to the automatic control or manual control of the screen adjustment device as described above, the brightness of the screen reaches a uniform brightness as shown in the right of FIG. 7 in a state in which the brightness of the screen is uneven as shown in the left of FIG. 7 can do.
The left screen of FIG. 7 had a screen brightness of 20 cd on the left, 40 cd on the middle, and 60 cd on the right, but the brightness of the light shining on the left side of the screen was strengthened and the light shining on the right side of the screen was weakened. The same state as the right screen of FIG. 7 in which the brightness is uniformly 40cd can be achieved.
Such a screen adjustment device and method is a solution that can be achieved by adjusting the ambient lighting devices that have an optical effect on the display without directly controlling the driver of the display, and is advantageous in that installation and management costs are low, and that the general person can easily use it. Provides an effect.
The screen adjustment apparatus and method according to the embodiments of the present invention are not limited to the configuration and method of the described embodiments as described above, but all or part of each of the embodiments may be selectively applied so that various modifications can be made. It may be configured in combination.
In addition, although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications can be implemented by those of ordinary skill.

200: display 210: lighting unit
211: light source 213: image sensor
215: transceiver unit 217: direction control unit
219: control unit 220: information transmission unit
230: display information analysis unit 240: display control unit
250: camera

Claims (12)

An apparatus for adjusting a screen displayed on a display,
A visual sensor unit for collecting visual information of a screen displayed on the display;
A lighting unit that illuminates at least a portion of the display;
A screen analysis unit that receives visual information of the screen collected by the visual sensor unit and analyzes at least one of uniformity and color of the screen; And
And a control unit for controlling the lighting unit to adjust at least one of a uniformity and color sense of the screen displayed on the display based on the analysis of the screen analysis unit,
The visual sensor unit includes a plurality of image sensors,
The lighting unit includes a plurality of lighting devices,
Each of the plurality of image sensors is disposed corresponding to each of the plurality of lighting devices, and each image sensor and each of the lighting devices corresponding to each of the image sensors are aligned to face the same direction,
Each image sensor is disposed in a protruding portion of the center of each lighting device, and each image sensor is configured to detect an area in which the lighting device to which the corresponding image sensor is coupled has an optical effect.
Display screen adjustment device.
delete The method of claim 1,
The control unit controls at least one of an illumination direction of the illumination unit, brightness of the illumination unit, and illumination color of the illumination unit,
Display screen adjustment device.
The method of claim 1,
The visual sensor unit further includes an illuminance sensor for measuring the brightness of the surrounding environment of the display,
The control unit controls the brightness of the lighting unit based on information collected from the illuminance sensor,
Display screen adjustment device.
The method of claim 1,
The control unit is connected to enable communication with the display,
The control unit controls the screen setting of the display based on the analysis of the screen analysis unit,
Display screen adjustment device.
The method of claim 1,
The screen analysis unit receives screen setting information of the display, and analyzes the uniformity and color of the screen based on the screen setting information and visual information of the screen collected by the visual sensor unit,
Display screen adjustment device.
As a method for adjusting a screen displayed on a display,
Collecting, by the visual sensor unit, visual information of a screen displayed on the display;
Analyzing, by a screen analysis unit, at least one of uniformity and color of the screen based on visual information of the collected screen;
Controlling, by a control unit, a lighting unit that optically affects the screen of the display so as to adjust at least one of uniformity and color of the screen expressed on the display based on the analysis,
The visual sensor unit includes a plurality of image sensors,
The lighting unit includes a plurality of lighting devices,
Each of the plurality of image sensors is disposed to correspond to each of the plurality of lighting devices, and the first image sensor of the plurality of image sensors faces the same direction as the first lighting device of the plurality of lighting devices. Is aligned,
The controlling of the lighting unit includes controlling an operation of the first lighting device based on analysis of information on a screen collected from the first image sensor,
Each image sensor is disposed in a protruding portion of the center of each lighting device, and each image sensor is configured to detect an area in which the lighting device to which the corresponding image sensor is coupled has an optical effect.
How to adjust the display screen.
delete The method of claim 7,
The controlling comprises controlling at least one of an illumination direction of the illumination unit, a brightness of the illumination unit, and an illumination color of the illumination unit,
How to adjust the display screen.
The method of claim 7,
The visual sensor unit further includes an illuminance sensor for measuring the brightness of the surrounding environment of the display,
The controlling step includes controlling the brightness of the lighting unit based on information collected from the illuminance sensor,
How to adjust the display screen.
The method of claim 7,
The control unit is connected to enable communication with the display,
The controlling comprises controlling a screen setting of the display based on the analysis,
How to adjust the display screen.
The method of claim 7,
The analyzing comprises receiving screen setting information of the display, and analyzing uniformity and color of the screen based on the screen setting information and visual information of the screen collected by the visual sensor unit,
How to adjust the display screen.

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