KR20070079221A - View and listening status optimizing apparatus for display and method thereof - Google Patents

Abstract

An apparatus and a method for optimizing a viewing state of a display device are provided to automatically optimize the viewing state according to the displacement of a user by measuring a 3D position of the user, adjusting the volume and a left and right symmetric rate of a sound on the basis of the position of the corresponding user, and adjusting the definition of an image. A display device has a display panel. A wireless operation detecting sensor unit is installed in the display device. The wireless operation detecting sensor unit detects a position of a user. A sensor control module(50) detects the position of the user according to the measured result of the wireless operation detecting sensor unit. An image processing unit(60) adjusts the definition of an image according to the position of the user provided from the sensor control module(50).

Description

Apparatus and method for optimizing display viewing conditions {VIEW AND LISTENING STATUS OPTIMIZING APPARATUS FOR DISPLAY AND METHOD THEREOF}

1 is a block diagram of a display device having a wireless motion detection sensor.

2 is a conceptual diagram illustrating a three-dimensional position measuring method using a wireless motion detection sensor.

3 is an exemplary view illustrating an application method of an embodiment of the present invention.

4 is a block diagram of an embodiment of the present invention.

5 is a conceptual diagram illustrating an auxiliary position measuring method of another embodiment of the present invention.

6 is a conceptual diagram illustrating additional functions of another embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

10: display device 20a-20d: motion detection sensor

30a, 30b: Left and right speakers 40: Screen

50: sensor control module 60: image processing unit

61: distance calculation unit 62: image quality control unit

63: sound controller 70: remote controller

75: wireless signal providing unit 100: driving support

The present invention relates to an apparatus and method for optimizing display viewing state, and more particularly, to an apparatus and method for optimizing display viewing state for providing an optimized image and sound according to a position of a user.

Since the image display device using a cathode ray tube (CRT) appeared, various kinds of display devices have appeared and are widely used. In particular, the display apparatus using the conventional analog display method is gradually reduced in use, and the use of image display apparatuses to which various flat panel display panels, including an LCD display and a plasma display, are rapidly increasing.

Video display devices using such flat panel display panels can prevent image quality deterioration according to the characteristics of the display panel itself through various image quality control functions, and improve image quality including contrast correction, color temperature adjustment, and sharpness increase through various image processing. It also provides functionality. In addition, the various image quality enhancement functions can be manually adjusted according to the user's preference or automatically optimized according to the user's selection.

In addition, the television which is most popular among the video display devices includes a sound processing function at the same time to provide high quality sound at the same time. In addition, by applying a remote control system so that a user can remotely control the video and audio settings, various functions of the video display device can be controlled within a certain distance regardless of the user's position by using a remote controller (aka remote controller). Can be controlled. However, in order to use the various setting functions which are not frequently used because of the limited input portion of the remote controller, complicated menu selection and item selection and adjustment processes are required, and these functions are not always used.

For example, when a user watches a video and an audio provided by a video display device at a certain position and moves a farther distance or moves to the side, the user can increase the sharpness or increase the sound using the remote controller. Manual adjustments can be made, such as optimizing the user's position. The optimization is still based on the user's manual adjustment. Sometimes, even if the user's position is measured through a sensor, the sound volume is adjusted. Only basic functions are used.

The object of the embodiment of the present invention, which is newly proposed to automatically perform audio-visual optimization of a display device that requires a cumbersome manual operation for the above reasons, is to add a means for measuring the user's position to the display device. The user's three-dimensional position, adjust the size and symmetry of the sound based on the user's position, and adjust the sharpness of the image to automatically optimize the viewing status according to the user's distance An apparatus and method for optimizing device viewing state are provided.

Another object of the embodiment of the present invention is to measure the position of the user based on the position of the user to adjust the brightness distribution of the image and the left and right symmetry ratio of the sound so that the user can enjoy the optimized image and sound even if viewing the display device from the side One aspect of the present invention is to provide an apparatus and method for optimizing viewing conditions.

Another object of the embodiments of the present invention is to enable the user's position to be measured more precisely by using the operation signal generator included in the remote controller, so as to correspond to a plurality of users, and even to a user's position located in a difficult measurement range. The present invention provides an apparatus and method for optimizing viewing condition of a display device to enable measurement and to provide an optimized image and sound even in various environments.

Another object of the embodiment of the present invention is to configure the drive unit that can adjust the opposite direction of the display device based on the user's position, so that the user can be positioned within the wide viewing angle of the display device to the user to enjoy the optimal image and sound The present invention provides an apparatus and method for optimizing viewing state of a display device.

In order to achieve the above object, the display device viewing state optimization device according to an embodiment of the present invention includes a display device having a display panel; A wireless motion detection sensor unit configured in the display device to detect a location of a user; A position detector for detecting a position of a user according to a measurement result of the wireless motion detection sensor unit; It includes an image processor for adjusting the sharpness of the image according to the user position provided by the position detector.

The image processor for adjusting the sharpness of the image according to the position of the user increases the sharpness and / or contrast of the image as the user is farther away according to the position of the user.

The image processor adjusting the sharpness of the image according to the user position relatively increases the luminance of the display panel portion that is far from the user according to the position of the user.

According to another aspect of the present invention, there is provided an apparatus for optimizing a viewing state of a display device, including: a display device having a display panel and a sound output unit; A wireless motion detection sensor unit configured in the display device to detect a location of a user; A position detector for detecting a position of a user according to a measurement result of the wireless motion detection sensor unit; An image processor for adjusting the sharpness of an image according to the user position provided by the position detector; And a sound processor that adjusts a volume and a symmetry ratio of the sound according to the user position provided by the position detector.

In addition, the display device viewing state optimization method according to another embodiment of the present invention comprises the steps of measuring the user's three-dimensional position through the user position measuring means installed in the display device having a display panel; And adjusting the sharpness and / or contrast and / or partial luminance of the image according to the position of the user obtained through the above steps.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 illustrates an external structure of a display device according to an exemplary embodiment of the present invention. As illustrated, a plurality of wireless motion detection sensors 20a to 20d are disposed at each corner of an outer frame of the display device 10. If the wireless motion detection sensor (20a ~ 20d) is a sensor for simply measuring the distance to the moving or the object having a volume, at least three is required, if the user is provided with a predetermined signal generating means by operating in a transmission and reception method Although one three-dimensional position measuring sensor (when using a magnetic induction method using an induction coil) may be used, it is preferable to use a plurality of simple distance measuring sensors because the user must carry a signal generating means. In general, ultrasonic or optical distance measuring methods are used.

FIG. 2 illustrates a method of detecting the position of the object 25 on the 3D by using the plurality of wireless motion detection sensors 20a to 20d. In this case, three points on the same plane are illustrated in this case. The basic geometrical principle is that knowing the distance between (sensors) and the target object (user) tells us the position of the object. (Any point in space if we know the distance from any point in space to three points on a plane. Since it is possible to know the coordinates for, the basic measurement is possible with only three wireless motion detection sensors 20a to 20c. Of course, adding one more 20d can improve the precision.

For example, suppose that the coordinates of the wireless motion detection sensor 20a are (x1, y1, z1), and the position of the measured object 25 is (x, y, z). Can be obtained as

Therefore, in order to apply this to the illustrated figure, the position of 20a is called (0,0,0), the position of 20b is called (a, 0,0), and the position of 20c is (0, b, 0). ), The illustrated distances d1, d2, and d3 may be obtained as in Equation 2 below.

The following equation (3) may be used to find an arbitrary object position (x, y, z) using the above equation.

If the value of z is less than or equal to zero, the user moves to the rear of the display device, and since it is already out of the measurement range, it should always be greater than or equal to zero. Accordingly, the distance z can be used to determine how far apart the user is, and the viewing angle between the user and the display device can be known according to the value x.

When the distance of the user can be known by using the above method, the display device can perform an appropriate image display optimization suitable for the distance of the user. By measuring the distance between them, the sharpness and contrast are corrected according to the distance. That is, if the distance between the user 25 and the display device 10 is within a predetermined distance, the set sharpness and contrast may be maintained. If the distance of the user is out of the predetermined distance, the sharpness and contrast may be increased to view a clear image from a distance. Make sure The degree of correction of the clarity and contrast and the method of updating the correction may vary depending on the location of the user, and may vary gradually depending on the distance, or may vary widely depending on the zone.

Beyond the above simple improvement of clarity and contrast, the application range of the above embodiment can be expanded to automatically perform the listening angle and sound-related correction between the user and the display device.

3 illustrates a case in which a wireless motion detection sensor is attached to a display device 10 having speakers 30a and 30b on the left and right sides as a sound generating unit, and the user 25 makes a predetermined angle with the display device 10. In the case of having the location, the user 25 should watch the image and sound provided by the display device 10 in a distorted state. Accordingly, in order to compensate for this case, in the present embodiment, the position of the user 25 is detected to obtain a distance and an angle from the display device 10, and based on this, the sharpness of the image provided by the display panel 40 and Correct the contrast and correct the sound level. The correction means that the greater the distance between the user 25 and the display device 10, the higher the sharpness and contrast, and the amplifying the sound.

In addition, in the case of the sound, the position of the user by appropriately adjusting the symmetry (balance) of the sound so that the volume provided by the speaker 30b far from the user is larger than the volume provided by the speaker 30a in close proximity to the user Allows you to enjoy a uniform level of left and right sound at.

In the illustrated case, when the user 25 observes the display panel 40 obliquely from the side, the portion adjacent to the user may feel relatively appropriate brightness, but the portion far away from the user 25 may have a sharp angle of view. It becomes impossible to feel normal brightness. Therefore, in order to compensate for this, the relative brightness becomes brighter by weighting the luminance toward the illustrated direction a. This method may be performed by dividing the display panel 40 into predetermined portions so that luminance deviation occurs for each divided area, or a method such that the luminance deviation occurs gradually, such as gradation.

Therefore, if the above configuration is used, the sound is optimized according to the user's position, and the image can be clearly distinguished even if the image is far from the distance, and even if the user observes the display device at an angle from the side, it is relatively uniform. Image quality can be expected.

FIG. 4 is a block diagram of a display device for performing the above-described user location-based image / sound optimization, and as illustrated, controls a plurality of motion detection sensors located outside the display device to measure a user's location. A distance calculator 61 for calculating a distance and a viewing angle between the user and the display device using a sensor control module 50, a location of the user provided by the sensor control module 50, and the distance calculator ( The image quality control unit 60 performs the sharpness / contrast / partial luminance correction using the position information between the user and the display device provided by the user 61, and the distance between the user and the display device provided by the distance calculator 61. It is composed of a sound control unit 63 for adjusting the size and the symmetry ratio of the sound by using the position information. The distance calculator 61, the image quality controller 60, and the sound controller 63 may be included in the image processor 60, and the image processor 60 may provide a substantial image to the display device and control various sounds. It may be a core module that includes image processing functions and sound amplification and control functions.

FIG. 5 illustrates an image as described above for malfunctioning due to inaccurate measurement, presence of a plurality of viewers, or other reasons when measuring a user's position using the plurality of motion detection sensors 20a to 20d. The wireless signal generator 75 is included in the remote controller 70 carried by the user so as to forcibly inform the motion detection sensors 20a to 20d of the user's position as a reference for sound correction. The wireless signal generator 75 includes an infrared light emitting diode for providing an infrared signal, which is a general remote controller 70 signal, an internally configured driver, and a reference position for the motion detection sensors 20a to 20d. An operation signal providing element and its driver may be provided.

The operation signal providing element may be different according to the type of the motion detection sensors. When the motion detection sensors 20a to 20d are configured as an ultrasonic transceiver, the motion signal providing element may be an ultrasonic transmitter. In this case, in the case of distance measurement using the ultrasonic wave, accurate distance measurement is possible only by exchanging constant reference timings. In other words, distance measurement using ultrasonic waves starts counting while transmitting a predetermined ultrasonic signal, stops counting when echoes of the corresponding ultrasonic pulse are received after ending the transmission of ultrasonic signals for a short time, until the echo after echo transmission. Time is obtained by multiplying the counted number by the operation period of the counter, and then converting the time into a distance (round trip distance) using an average speed of sound. Therefore, even if the wireless signal generator 75 of the remote controller 70 is separated from each other, the sensors 20a to 20d of the display device 10 do not know when the ultrasonic signal is transmitted. 20a to 20d may also be driven according to an arbitrary sequence of operations, so providing unilateral ultrasound is meaningless. Accordingly, ultrasonic transmission is performed by using infrared communication (infrared light emitting diode of the remote controller 70 and infrared receiver 15 of the display device 10) basically established between the remote controller 70 and the display device 10. The display device 10 can recognize the exact position of the remote controller 70 by utilizing a method of informing the display device that the display device is to be started. That is, when an infrared signal is transmitted to the display device 10 to perform infrared transmission after a predetermined time, the display device 10 receiving the signal interprets it and counts from a certain time later. Check whether 20a-20d is sensed. When the operation signal providing element included in the remote controller 70 transmits ultrasonic waves for a predetermined time after the predetermined time passes, between the remote controller 70 and the sensors 20a to 20d of the display device 10. The distance is calculated by sequentially receiving the ultrasonic signals according to the distance and storing the count values.

In other words, if the user's location is to be notified to the display device 10 more precisely, when the user's location measurement is difficult with only the sensors (when the user is located on the side), distance measurement is difficult because there are a plurality of users. It can be usefully used in cases.

FIG. 6 illustrates a case in which a driving unit capable of adjusting the directing direction of the display unit 10 is installed on a support for supporting the display unit 10 as a structure applicable to the various embodiments described above. The driving support unit 100 adjusts the directing direction of the display unit 10 up, down, left, and right based on the direction between the user and the display device, so that the user can watch the display in an optimal state. Although constraints on installation space and difficulties in configuring the drive support 100 exist, this may be a very useful optimization method for certain applications. That is, in addition to the movement of the display device 10, the addition of the various optimization methods described above may increase the viewing range for the user to watch the image and sound provided by the display device 10 in an optimal state. have.

As described above, the display device viewing state optimization apparatus and method according to an embodiment of the present invention, by adding a means for measuring the position of the user to the display device to measure the three-dimensional position of the user, By adjusting the size and symmetry of the sound based on the position, and controlling the sharpness of the image, it is possible to automatically optimize the viewing state of the image and sound provided by the display device according to the user's position. .

The apparatus and method for optimizing viewing state of a display device according to an embodiment of the present invention adjusts the luminance distribution and the symmetry ratio of the sound based on the position of the user, so that the optimized image and sound can be obtained even if the user views the display device from the side. By enjoying it, you can expand the range of high quality viewing.

The apparatus and method for optimizing a viewing state of a display device according to an exemplary embodiment of the present invention allows a user's position to be measured more precisely by using an operation signal generator included in a remote controller, thereby corresponding to a plurality of users, and thus difficult to measure. In order to accurately measure the position of the user in the effect that provides a more precisely optimized image and sound.

The apparatus and method for optimizing viewing state of a display device according to an embodiment of the present invention configures a driving unit that can adjust a direction in which the display device is opposed based on the position of the user, so that the user is positioned within an optimal wide viewing angle and leaves the corresponding area. In this case, there is an effect of allowing the user to enjoy the optimal image and sound through image compensation and sound compensation.

Claims (19)

A display device having a display panel; A wireless motion detection sensor unit configured in the display device to detect a location of a user; A position detector for detecting a position of a user according to a measurement result of the wireless motion detection sensor unit; And an image processing unit for adjusting the sharpness of an image according to the user position provided by the position detecting unit. The apparatus of claim 1, wherein the image processor that adjusts the sharpness of the image according to the position of the user increases the sharpness and / or contrast of the image as the user moves further away according to the position of the user. The display apparatus of claim 1, wherein the image processor for adjusting the sharpness of the image according to the user position increases the luminance of the portion of the display panel that is far from the user when the position of the user is biased toward one side of the display panel. Display apparatus viewing state optimization device. The display apparatus of claim 3, wherein the position of the user is biased toward the side of the display panel by a predetermined angle and a distance or more, and the luminance of the display panel portion is a direction away from the distance from the user by applying a gradient weighting method. The display device viewing state optimization device, characterized in that the brightness is gradually increased. The display apparatus according to claim 1, wherein the image processor for adjusting the sharpness of the image according to the user position divides the distance of the user into a predetermined unit distance and a unit angle to maintain the existing image within the unit value range. Device viewing optimizer. The wireless motion detection sensor unit of claim 1, wherein the wireless motion detection sensor unit configured to detect the location of the user is a distance measuring sensor disposed at different locations of the display device to obtain a distance from the user at different locations. Display apparatus viewing state optimization device, characterized in that. The wireless motion detection sensor unit of claim 1, wherein the wireless motion detection sensor unit is configured to detect a location of a user. A distance measuring sensor installed in the display device; And a remote controller having a signal providing unit for providing a position reference signal to the distance measuring sensor. The apparatus of claim 1, further comprising a driving support unit configured to change a direction of the display device according to the position of the user provided by the position detector detecting the position of the user. A display device having a display panel and a sound output unit; A wireless motion detection sensor unit configured in the display device to detect a location of a user; A position detector for detecting a position of a user according to a measurement result of the wireless motion detection sensor unit; An image processor for adjusting the sharpness of an image according to the user position provided by the position detector; And a sound processor configured to adjust a volume and a symmetry ratio of the sound according to the user position provided by the position detector. 10. The apparatus of claim 9, wherein the image processor for adjusting the sharpness of the image according to the position of the user increases the sharpness and / or contrast of the image as the user moves further away according to the position of the user. The display apparatus of claim 9, wherein the image processor for adjusting the sharpness of the image according to the user position increases the luminance of the portion of the display panel that is far from the user when the position of the user is biased toward one side of the display panel. Display apparatus viewing state optimization device. 10. The method of claim 9, wherein the image processing unit for adjusting the sharpness of the image according to the user position and the sound processing unit for adjusting the size and symmetry ratio of the sound according to the user position by dividing the distance of the user by a certain unit distance and unit angle Display device viewing state optimization device, characterized in that for maintaining the existing image and sound within the unit value range. The wireless motion detection sensor unit of claim 9, wherein the wireless motion detection sensor unit configured to detect the location of the user is a distance measurement sensor disposed at different locations of the display device to obtain a distance from the user at a different location. Display apparatus viewing state optimization device, characterized in that. The wireless motion detection sensor of claim 9, wherein the wireless motion detection sensor is configured to detect the location of the user. A position measuring sensor installed in the display device; And a remote controller having a signal providing unit for providing a position reference signal to the position measuring sensor. 10. The apparatus of claim 9, further comprising a driving support unit for changing the direction of the display device according to the position of the user provided by the position detecting unit detecting the position of the user. Measuring a three-dimensional position of the user through a user position measuring means installed in a display device having a display panel; And adjusting the sharpness and / or contrast and / or partial luminance of the image according to the position of the user obtained through the step. The method of claim 16, wherein adjusting the sharpness and / or contrast of the image according to the position of the user maintains a predetermined sharpness and contrast if the position of the user is within a predetermined distance, and the position of the user is outside the distance. And increasing the sharpness and / or contrast as the distance increases. The method of claim 16, wherein the adjusting of the partial luminance of the image according to the position of the user is gradually progressed from the display panel portion adjacent to the user to the display panel portion away from the user according to the viewing angle between the user and the display device. And increasing the relative luminance to the display device. 19. The method of claim 18, wherein the degree of increase and decrease of the brightness is adjusted according to the viewing angle of the user and the display device and the distance of the user, and the increase and decrease of the brightness is performed by adding a weight to the gray value of the image signal. Display device viewing state optimization method, characterized in that.

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