KR101100489B1 - The apparatus for controlling light brightness of surrounding illumination system - Google Patents

Abstract

The illumination brightness around the image display device is adjusted according to the brightness of the image displayed on the image display device.

Determining the luminance of each pixel constituting the image by receiving the image signal displayed on the screen of the image display device and converting it into a digital signal, and deriving the average luminance value of the image using the luminance of each pixel, Adjust the brightness of the lighting accordingly. Alternatively, the camera may be attached to the front surface of the image display device to capture an image displayed on the screen of the image display device, determine the luminance of each pixel as a signal for the captured image, and use the luminance of each pixel to determine the image. After deriving the average luminance value, the brightness of the illumination is adjusted according to the derived value. Alternatively, the sensor unit is attached to the front surface of the image display device to detect the amount of light emitted by the image displayed on the screen of the image display device, amplify and convert it to digital, and convert the signal to digital for the amount of light. After deriving the average luminance value of the image by using, and adjusts the brightness of the illumination according to the derived value. As a result, the user may view the image under illumination suitable for the image displayed on the image display device, thereby enabling the user to watch the clear image.

Luminance, Illumination, Illumination Intensity, Video Display

Description

The apparatus for controlling light brightness of surrounding illumination system

1 is a block diagram showing a first embodiment of the ambient light brightness adjustment apparatus of the present invention.

FIG. 2 is a diagram for describing an operation of deriving an average luminance value for each region by dividing a screen of a video display device vertically at regular intervals. FIG.

Figure 3 is a block diagram showing a second embodiment of the ambient light brightness adjustment apparatus of the present invention.

Figure 4 is a block diagram showing a third embodiment of the ambient light brightness adjustment apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

100: analog / digital conversion unit 110: luminance determination unit

120: image average luminance value determiner 130: illumination intensity value determiner

140: light control unit 300: camera unit

310: luminance determination unit 320: image average luminance value determination unit

330: Illumination intensity value determination unit 340: Illumination control unit

400: sensor unit 420: analog / digital conversion unit

430: Image average luminance value determiner 440: Illumination intensity value determiner

450: light control unit

The present invention is a video display device for displaying an image signal on the screen, such as a television receiver, the brightness of the illumination such as incandescent lamps, LEDs (Light Emitting Diode) around the image display device according to the brightness of the image displayed on the screen It relates to an ambient light brightness control device.

In recent years, image display devices have become larger in size, and a user can view a clearer image by using an image display device in which the number of scanning lines is increased compared to a conventional television receiver such as a high definition (HD) television receiver.

 However, the image displayed on the image display device is greatly affected by the illumination of the surroundings of the image display device. For example, when the brightness of the image displayed on the image display device is low in a place where the brightness of the ambient light is high, the light emitted from the illumination is reflected from the surface of the image display device to contrast the bright and dark portions of the image. Since the contrast is lowered, that is, the contrast of the image is lowered, so that the user cannot see the clear image. In addition, when the image displayed on the image display device is changed from a low luminance to a high luminance in a place where the brightness of the ambient light is low, a glare phenomenon occurs due to the iris effect of the eye, and thus the user cannot see a clear image.

In addition, the user can manually adjust the brightness of the illumination to solve the inconvenience. However, since the image displayed on the image display device does not maintain an image having a constant luminance, the luminance changes according to the situation in which the image is unfolded. Therefore, whenever the luminance of the image displayed on the image display device changes, the image is manually turned on. Changing the brightness has been a lot of inconvenience for the user.

Therefore, an object of the present invention is to derive the average luminance value of the image displayed on the screen of the video display device, and then to adjust the luminance of the ambient light collectively according to the derived average luminance value so that the user can watch a clear image. It is to provide an ambient light brightness control device.

In addition, another object of the present invention, by dividing the screen of the image display device vertically at regular intervals to derive the average brightness value of each area, and then to independently adjust the brightness of the ambient light according to the derived average brightness value To provide a peripheral brightness control device for watching a clear image.

The peripheral lighting brightness control apparatus of the present invention having the above object receives an image signal displayed on the screen of the image display device and converts it into a digital signal, and converts a frame of the image into the digital signal. A luminance determination unit that determines the luminance of each constituent pixel, a user interface for inputting an illumination split control command, an illumination control time control command, and a reference luminance value according to a user's command, and displays the current image using the luminance of each pixel. The image average luminance value determination unit for deriving the average luminance value of the image displayed on the device, the illumination luminance value determination unit for determining the luminance value of the illumination according to the derived average luminance value, and the illumination intensity value of the determined illumination Consists of a light control unit to adjust.

In addition, the peripheral brightness control apparatus of the present invention is a camera unit for capturing the image displayed on the screen of the image display device, and a brightness determination unit for determining the luminance of each pixel constituting the frame of the image with the image signal captured by the camera unit And an image average for deriving an average luminance value of the image using a user interface for inputting an illumination split control command, an illumination control time control command, and a reference luminance value according to a user command, and luminance of each pixel determined by the luminance determiner. A luminance value determiner, an illumination intensity value determiner for determining an illuminance value of the illumination according to the average luminance value derived by the image average luminance value determiner, and an illumination intensity value for controlling illumination according to the illumination intensity value determined by the illumination intensity value determiner. Consists of a light control unit.

In addition, the ambient light brightness adjustment apparatus of the present invention is a sensor unit for detecting the amount of light emitted by the image displayed on the screen of the image display device, an amplifier for amplifying a signal for the amount of light detected by the sensor, and amplification An analog / digital conversion unit for converting the additionally amplified signal into a digital signal, a user interface for inputting an illumination split control command, an illumination control time control command, and a reference luminance value according to a user's command, and the amount of digitally converted light An image average luminance value determination unit for deriving an average luminance value of an image as a signal for a signal, an illumination luminance value determination unit for determining an luminance value of an illumination according to the derived average luminance value, and adjusting the illumination with the determined luminance value of the illumination It consists of a lighting control unit.

The image average luminance value determiner is configured to derive average luminance values of a plurality of frames when collectively changing a plurality of lights according to a user's command.

The image average luminance value determiner derives an average luminance value of each region in which the screen of the image display device is vertically divided at regular intervals when the plurality of illuminations are independently controlled according to a user's command. It is characterized in that to adjust the lighting located in each independently.

The reference luminance value is increased or decreased according to a user's command through the user interface.

Hereinafter, the ambient light brightness adjusting apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a first embodiment of the ambient light brightness adjustment apparatus of the present invention. As shown in FIG. 2, the analog / digital converter 100 receives a video signal displayed on a screen and converts the video signal into a digital signal, and the analog / digital converter 100 converts the video signal into a digital signal. A luminance determination unit 110 for determining luminance of each pixel constituting the frame of the image, a user interface 150 for inputting an illumination split control command, an illumination control time control command, and a reference luminance value according to a user command; An image average luminance value determiner which receives an illumination split control command and an illumination control time control command from the user interface 150 and derives an average luminance value of the image using the luminance of each pixel determined by the luminance determiner 110. 120 and the illumination 160 according to the average luminance value derived by the image average luminance value determiner 120 by receiving a reference luminance value from the user interface 150. The illumination intensity value determination unit 130 to determine the luminous intensity value of the illumination intensity value determination unit 130 and the illumination control unit 140 to adjust the illumination to the intensity value of the illumination determined by the 130.

The peripheral illumination brightness adjusting device of the present invention configured as described above converts the video signal displayed on the screen by the video display device into a digital signal by the analog / digital converter 100. The video signal is composed of a synchronization signal, color signals R, G, and B and a luminance signal to form a row of frames. The three signals constituting the video signal are converted to digital, respectively.

Since the image is represented by a change in the frame, the average luminance value of the image displayed on the image display device may be referred to as the average luminance value of the frame. Since a frame of an image is composed of a combination of many pixels, combining information about each pixel can derive information about one frame. Therefore, the brightness determining unit 110 determines the luminance of the pixels constituting each frame of the image displayed on the image display device by the image signal converted into digital by the analog / digital converter 100. The luminance of each pixel may be determined by analyzing the luminance signal of a predetermined bit that implements the luminance of each pixel in the series of digital image signals. For example, if an 8-bit luminance signal implements luminance of one pixel, the luminance of each pixel may be determined by analyzing a series of luminance signals for each 8-bit unit.

The image average luminance value determiner 120 derives an average luminance value by using the luminance of each pixel determined by the luminance determiner 110. The method of deriving the average luminance value is different according to the user's command input through the user interface 150.

When a user's command for collectively adjusting the brightness of the plurality of lights 160 is input through the user interface 150, the image average brightness value determiner 120 may be used by the user through the user interface 150. An average luminance value of a plurality of frames displayed for a predetermined time period is derived. The method of deriving the average luminance value of a plurality of frames displayed for a certain time period adds the luminance of all pixels constituting the frame displayed for a predetermined time by a circuit such as an adder, and then adds the value. By dividing by the number of added pixels, an average luminance value for a plurality of frames can be derived.

In addition, a user's command to increase the brightness of a portion of the plurality of lights 160 and to reduce the brightness of the other portions, that is, to independently adjust the brightness of the plurality of lights 160, may control the user interface 150. In the case of input through the above, it is impossible to independently change the luminance of the plurality of illuminations 160 with the average luminance values of the derived plurality of frames. This is because the average luminance value for the plurality of frames is the average luminance value of all images displayed on the image display device. Therefore, the brightness of the plurality of lights 160 may be independently controlled by dividing the screen of the image display device vertically at regular intervals to derive an average luminance value for each region.

2 is a diagram for describing an operation of deriving an average luminance value for each region by dividing a screen of a video display device vertically at regular intervals. As illustrated, when the screen of the video display device is vertically divided into three regions, 400 pixels are included in each line, and luminance of one pixel is realized by an 8-bit luminance signal. The counter is incremented by one every 8 bits using a counter to store the luminance of the pixels until reaching 400, and to reset the counter. As a result, the luminance of 400 pixels in the left region of the first row is stored in the first storage unit. The counter starts again from 1, and when the counter value reaches 400, the luminance of the pixels up to that time is stored in the second storage unit and the counter is initialized. When the value of the counter reaches 400, the counter is operated again to store the luminance of pixels up to that point in the third storage unit and initialize the counter. As a result, the luminance of the pixels in the center region is stored in the first row of the frame in the second storage unit, and the luminance of the pixels in the right region in the first row of the frame is stored in the third storage unit. Since the screen of the video display device is vertically divided into three regions, the counter for the second line of the frame is started after three counters. After the counter starts from 1 again, when the counter value reaches 400, the luminance of the pixel is stored in the first storage unit. This stores the luminance of the pixels in the left area in the second line of the frame. If the above process is repeated until one frame is achieved, the luminance of the pixel included in each of the three divided regions is stored in the first, second, and third storage units. The luminance of the pixels stored in the three storage units may be added using an adder, and then divided by the number of pixels included in each region to obtain an average luminance value of the three regions. When all of the frames are configured, the luminance of the pixels stored in the three storage units is initialized, and the average luminance value of each region is derived by using a counter in the next frame.

Even when the screen of the image display apparatus is vertically divided into N regions and the luminance signal implementing one pixel is K bits, the average luminance value of each region of the image display apparatus may be derived by the above process.

Even when the image average luminance value determiner 120 derives an average luminance value for each region of the image display device to independently adjust the luminance of the plurality of illuminations 160, the user may use the user interface 150. An average luminance value of each area is derived based on a plurality of frames displayed for a predetermined time set by.

The illumination intensity value determiner 130 sets a reference intensity value according to a user's command through the user interface 150, and inputs the average luminance value with respect to the set reference intensity value to the illumination intensity value determiner 130. The luminance value of the illumination 160 is determined by comparison with the average luminance value. For example, the reference luminance value according to the user's command is set to 200 candelas (cd), and the average luminance value input to the illumination luminance value determination unit 130 is 50. The reference luminance value set by the user is referred to as an luminance intensity of illumination that enables the user to clearly see an image displayed on the image display apparatus when the average luminance value is 100. Since the average luminance value input to the illumination intensity value determiner 130 is 50, this is lower than 50, which is an average luminance value with respect to the reference intensity value set by the user. Therefore, since the luminance value of the illumination must be reduced by 50, the luminance value of the illumination is determined as 150 candela minus 50 from the reference luminance value. On the contrary, when the average luminance value is 130, the luminance value of the illumination is also increased by 30, which is a difference between the average luminance values, and the luminance value of the illumination is determined as 230 candelas.

Even if the same image is displayed on the image display device, the luminance of the displayed image is different due to errors in process and design for each image display device. Therefore, it is impossible to apply the same reference luminance value set by the user to all image display devices. Do. Therefore, the user sets a reference luminance value suitable for the image display device through the user interface 150. In addition, since the lighting 160 is also various in type and the same lighting 160 has different luminance to emit light due to errors in process and design, the user may also use a reference luminance suitable for lighting through the user interface 150. Set the value.

The illumination controller 140 adjusts the illumination 160 located at the top of the image display device by varying the reference luminance value set by the illumination intensity value determiner 130 according to a user's command. For example, the lighting controller controls phases of AC power with phase control elements such as triacs and silicon control rectifiers (SCRs) to adjust the brightness of the lighting according to the amount of power applied to the lighting.

In addition, in the case where the brightness of the plurality of lights 160 is independently adjusted, the illumination intensity value determiner 130 uses the illumination 160 located at the top of each area in which the screen of the image display device is vertically divided at regular intervals. Adjust the brightness value of the determined lighting. For example, in FIG. 2, when the luminance value of the illumination determined by the illumination intensity value determiner 130 is 100 candelas and the center region is 150 candelalines, the illumination controller 140 is configured to display the left side of the plurality of illumination image display devices. Adjust the brightness of the light at the top of the area to 100 candelas and the brightness of the light at the top of the center area to 150 candelas.

The user interface 150 inputs an illumination split control command and an illumination control time control command to the image average luminance value determiner 120 according to a user's command, and inputs a reference luminance value to the illumination intensity value determiner 130. do.

Figure 3 is a block diagram showing a second embodiment of the ambient light brightness adjustment apparatus of the present invention. As shown in the drawing, a camera unit 300 for capturing an image displayed on a screen of the image display device and a luminance determiner 310 for determining the luminance of each pixel constituting a frame of the image using the image signal captured by the camera unit. And a user interface 350 for inputting an illumination split control command, an illumination control time control command, and a reference brightness value according to a user's command, and an illumination division control command and an illumination adjustment time control command from the user interface 350. The image average luminance value determiner 320 which derives the average luminance value of the image using the luminance of each pixel determined by the luminance determiner 310, and receives the reference luminance value from the user interface 350. An illumination intensity value determiner 330 for determining the luminance value of the illumination 360 according to the average luminance value derived by the average luminance value determiner 320, and the illumination intensity value determiner 3 It is composed of an illumination control unit 340 for adjusting the illumination 360 to the brightness value of the illumination determined by 30.

The camera unit 300 includes a device capable of capturing an image displayed on a screen of an image display device such as a camera and a camcorder. It is attached to the front surface of the outside of the image display device, the image signal captured by the camera unit 300 is input to the luminance determination unit 310 to determine the luminance of the pixel.

The luminance determining unit 310 receives an image signal photographed by the camera unit 300 and determines luminance of pixels constituting each frame of the image. For example, a camera or a camcorder constituting the camera unit 300, when the light entering the lens is input to a light collecting device called a plurality of cells, each cell stores a charge for the light, and determines the degree of contrast based on the magnitude of the charge After that, it uses CCD (Charge Coupled Device) method to send color to the converter. Therefore, by analyzing the magnitude of the charge for each cell in the image signal input from the camera unit 300, it is possible to determine the luminance of each pixel.

The image average luminance value determiner 320 derives an average luminance value of the image using the luminance of each pixel determined by the luminance determiner 310. The method of deriving the average luminance value is different according to the user's command input through the user interface 350.

When a user command for collectively adjusting the brightness of the plurality of lights 360 is input through the user interface 350, the image average brightness value determiner 320 may be used by the user through the user interface 350. An average luminance value of a plurality of frames displayed for a predetermined time period is derived. The method of deriving the average luminance value of a plurality of frames displayed for a certain time period adds the luminance of all pixels constituting the displayed frame for a predetermined time period, and then divides the value by the number of pixels added to the average of the plurality of frames. The luminance value can be derived.

In addition, a user's command to increase the brightness of a portion of the plurality of lights 360 and decrease the brightness of the other portions, ie, independently adjust the brightness of the plurality of lights 360, may cause the user interface 350 to operate. In the case of input through the screen, the screen of the image display device is vertically divided at predetermined intervals to derive an average luminance value for each region. Therefore, the luminance of the pixels included in each region may be added by using an adder, and then divided by the number of pixels included in each region to obtain an average luminance value of each region.

In order to independently adjust the brightness of the plurality of illuminations 360, even if the average brightness value of each area obtained by dividing the screen of the image display device vertically at regular intervals is derived, the user may use the user interface 350. An average luminance value of each area is derived based on a plurality of frames displayed for a predetermined time period.

The illumination intensity value determiner 330 compares the average luminance value derived by the image average luminance value determiner 320 with an average luminance value with respect to a reference luminance value set according to a user's command to determine the luminance of the illumination 360. Determine the value.

The lighting controller 340 adjusts the illumination 360 located at the top of the image display device by varying the reference luminance value set by the illumination intensity value determiner 330 according to a user's command.

The user interface 350 inputs an illumination split control command and an illumination control time control command to the image average luminance value determiner 320 according to a user's command, and inputs a reference luminance value to the illumination intensity value determiner 330. do.

Figure 4 is a block diagram showing a third embodiment of the ambient light brightness adjustment apparatus of the present invention. As shown in the drawing, the sensor unit 400 for detecting the amount of light emitted from the image displayed on the screen of the image display device and the signal for the amount of light detected by the sensor unit 400 are weak and amplified. An amplifying unit 410, an analog / digital converting unit 420 for converting the signal amplified by the amplifying unit 410 into a digital signal, an illumination split control command, an illumination control time control command, and a reference according to a user's command A user interface 460 for inputting a luminance value, an illumination split control command and an illumination control time control command are input to the user interface 460 to derive an average luminance value of the image using the digitally converted signal. The luminance value of the illumination 470 is determined according to the average luminance value derived by the image average luminance value determiner 430 by receiving a reference luminance value through the image average luminance value determiner 430 and the user interface 460. doing The illumination intensity value determiner 440, and the illumination intensity value determiner 440 is composed of an illumination control unit 450 for adjusting the illumination 470 to the intensity value of the illumination determined.

The sensor unit 400 is composed of a sensor that can detect the amount of light, such as photosensors, photosensors. This is attached to the front of the outside of the image display device detects the amount of light emitted by the image displayed on the screen of the image display device. For example, a photoconductive cell, one of the optical sensors, emits an image displayed on an image display device and converts light received by the sensor into a current, thereby emitting an image displayed on the image display device. Detect the amount of.

Since the amplification unit 410 has a very weak signal for the amount of light detected by the sensor unit 400, the amount of light detected by the sensor unit 400 using an element capable of amplifying a signal such as an amplifier. Amplify the signal for.

The analog / digital converter 420 converts a signal for the amount of light amplified by the amplifier 410 into a digital signal.

The image average luminance value determiner 430 derives an average luminance value of an image displayed on the image display apparatus by using a signal for the amount of light converted into digital by the analog / digital converter 420. The image average luminance value determiner 430 derives an average luminance value of a plurality of frames displayed for a predetermined time set by the user through the user interface 460. This adds a signal for the amount of light sensed by the sensor unit 400 for a predetermined time, and then divides the value into a plurality of frames displayed for a predetermined time to derive an average luminance value.

The illumination intensity value determiner 440 compares the average luminance value derived by the image average luminance value determiner 430 with an average luminance value with respect to a reference luminance value set according to a user's command to determine the luminance of the illumination 470. Determine the value.

The illumination controller 450 adjusts the illumination 470 located at the top of the image display device by varying the reference luminance value set by the illumination intensity value determiner 440 according to a user's command.

The user interface 460 inputs an illumination split control command and an illumination control time control command to the image average luminance value determiner 430 according to a user's command, and inputs a reference luminance value to the illumination intensity value determiner 440. do.

On the other hand, while the present invention has been shown and described with respect to specific preferred embodiments, various modifications and variations of the present invention without departing from the spirit or field of the invention provided by the claims below It can be easily understood by those skilled in the art.

As described above, the peripheral light brightness adjusting device according to the present invention provides a user with a clear or independent brightness by adjusting the brightness of the light located at the top of the image display device according to the brightness of the image displayed on the image display device. You can watch the video. In addition, it is possible to solve the inconvenience of the user to manually adjust all the lighting according to the change in the brightness of the image in order to watch a clear image.

In the case of having a device for controlling temperature instead of a device for controlling illumination, it is possible to adjust the ambient temperature according to the brightness of the image displayed on the image display device, and the color of the illumination is also the brightness of the image displayed on the image display device. According to the brightness of the image can be adjusted according to the appropriate atmosphere is possible.

In addition, instead of light intensity control using light emitting devices such as lighting, use a light shielding device such as a curtain or a blind to close the light blocking device when the brightness of the image is low, and block the light when the brightness of the image is high. The same effect as the brightness control of the illumination, such as transmitting light can be obtained.

Claims (6)

An analog / digital converter configured to convert the video signal displayed on the screen of the video display device into a digital signal; A luminance determination unit determining luminance of each pixel by a series of digital image signals converted by the analog / digital converter; An image average luminance value determiner which receives a user's command and derives an average luminance value of the image by using the luminance of the pixel determined by the luminance determiner; An illumination intensity value determiner configured to set a reference intensity value according to a user's command, and determine an intensity value of illumination according to the average luminance value derived from the image average luminance value determiner; And And an illumination control unit configured to adjust illumination by varying a reference intensity value set by the illumination intensity value determiner. A camera unit for capturing an image displayed on the screen of the image display device; A luminance determining unit determining the luminance of each pixel constituting a frame of the image as a signal for the image captured by the camera unit; An image average luminance value determiner which receives a user's command and derives an average luminance value of an image by using luminance of each pixel determined by the luminance determiner; An illumination intensity value determiner configured to set a reference intensity value according to a user's command, and determine an intensity value of illumination according to an average luminance value derived from the image average luminance value determiner; And And an illumination control unit configured to adjust illumination by varying a reference intensity value set by the illumination intensity value determiner. A sensor unit detecting an amount of light emitted from an image displayed on a screen of the image display device; An analog / digital conversion unit for converting a signal of the amount of light sensed by the sensor unit into a digital signal; An image average luminance value determiner which receives an input of a user command and derives an average luminance value of an image by using a signal of the amount of light converted into digital by the analog / digital converter; An illumination intensity value determiner configured to set a reference intensity value according to a user's command, and determine an intensity value of illumination according to the average luminance value derived from the image average luminance value determiner; And And an illumination control unit configured to adjust illumination by varying a reference intensity value set by the illumination intensity value determiner. The apparatus of claim 1, wherein the image average brightness value determiner; When the user's command to collectively adjust the brightness of the plurality of lights through the user interface is input, the peripheral illumination characterized in that the average luminance value of the plurality of frames displayed on the screen for a predetermined time set by the user is derived Brightness Control. The apparatus of claim 1 or 2, wherein the image average brightness value determiner; When a user's command to independently adjust the brightness of the plurality of lights is input through a user interface, the screen of the image display device is divided into a plurality of pieces to derive an average luminance value of each of the divided plurality of regions, and Adjusting unit; Peripheral lighting brightness control device, characterized in that for adjusting the brightness of the plurality of illumination respectively in accordance with the average luminance value of each of the plurality of areas. The method of claim 1, wherein the reference brightness value is; Ambient brightness control device characterized in that the increase or decrease according to the user's command through the user interface.

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