JP2008180860A - Display system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display system in which the image quality in an image displayed on a display section can be adjusted to the image considering all the members of a plurality of users viewing the display section from different directions. <P>SOLUTION: A CPU 181 and the like previously register the viewing angles of a plurality of viewers, acquire the image quality adjustment values corresponding to the respective registered viewing angles of the plurality of viewers from databases 1822a to 1822i for image quality adjustment, the databases storing the viewing angles of the viewers and the image quality adjustment values by associating them to each other, and perform the image quality adjustment of the image displayed in a liquid crystal display section 12 based on the average value of the acquired image quality adjustment values. Also, a controller 18 includes a registration key 22a outputting an angle registration signal Sg in a remote controller 2 and detects the receiving intensity in a plurality of azimuths of the angle registration signal Sg transmitted from the remote controller 2 at the viewing angles of the respective viewers to specify the viewing angles of the plurality of the viewers. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a display system that adjusts the image quality of an image displayed on a display unit.

  Conventionally, when an image displayed on a liquid crystal display is viewed obliquely, there has been a problem that image quality such as brightness, color tone, and contrast of the image deteriorates due to the viewing angle characteristics of the liquid crystal display.

Therefore, for example, in Patent Document 1, when a video signal is input, the output luminance level corresponding to the same input luminance level is determined from the reference pixel in the liquid crystal display panel in each pixel data contributing to the brightness of the video of the video signal. The distance is adjusted to an amount suitable for the range of the viewing angle obtained from the relative position between the user and the liquid crystal display panel, which is calculated from the incident angle detected by the distance measurement receiving unit, so that the distance between the pixels increases relatively. Thus, there has been proposed a video signal processing apparatus that corrects an in-plane luminance difference caused by viewing angle characteristics of a liquid crystal display panel.
JP 2006-005828 A

  However, the technique of the above-mentioned Patent Document 1 is a technique for adjusting the image quality of a single user who is looking at the display, and is intended for all users when a plurality of users are viewing the display. There was a problem that the image quality could not be adjusted. That is, when a plurality of users are viewing the display and the image quality adjustment is performed for one user, it may be difficult for other users to see.

  An object of the present invention is to provide a display system that can adjust the image quality of an image on a display unit to an image that is considered by all of a plurality of users who view the display unit from different angles.

In order to solve the above-mentioned problem, the invention according to claim 1 is a display system including a main body including a liquid crystal display that displays an image, and a remote controller that remotely operates the main body.
Registration means for pre-registering viewing angles of a plurality of viewers;
An image quality adjustment database that stores a viewing angle of a viewer and an image quality adjustment value in association with each other, and stores the image quality adjustment value corresponding to each viewing angle of the plurality of viewers registered by the registration unit. Image quality adjusting means for adjusting the image quality of the image to be displayed on the liquid crystal display unit based on the average value of the acquired image quality adjustment values
With
The registration means includes
A registration key provided in the remote controller for outputting an angle registration signal for registering a viewing angle;
A specifying means for specifying the viewing angle of the plurality of viewers by detecting reception intensities at a plurality of directions of the angle registration signal transmitted from the remote controller,
It is characterized by providing.

Invention of Claim 2 is a display system provided with the display part which displays an image,
Registration means for pre-registering viewing angles of a plurality of viewers;
Image quality adjusting means for adjusting image quality of the image displayed on the display unit based on viewing angles of the plurality of viewers registered by the registration means;
It is characterized by providing.

According to a third aspect of the present invention, in the display system according to the second aspect, the image quality adjusting means is
An image quality adjustment database that stores the viewing angle of the viewer and the image quality adjustment value in association with each other, obtains the image quality adjustment value corresponding to each viewing angle registered by the registration unit from the image quality adjustment database; The image quality adjustment of the image is performed based on the average value of the acquired image quality adjustment values.

Invention of Claim 4 is a display system of Claim 2 or 3, Comprising: The main-body part provided with the said display part, The remote controller which operates the said main-body part remotely,
The registration means includes
A registration key provided in the remote controller for outputting an angle registration signal for registering a viewing angle;
The viewing angle of each of the plurality of viewers is specified by detecting reception intensities of the angle registration signals transmitted from the remote controller at the viewing angles of each viewer provided in the main body. Specific means,
It is characterized by providing.

According to the first aspect of the present invention, a main body having a liquid crystal display for displaying an image and a remote controller for remotely operating the main body are provided, and the viewing angle of a plurality of viewers can be adjusted by the registration means. An image quality adjustment database that is registered in advance and stores the viewing angle of the viewer and the image quality adjustment value in association with each other is provided, and the image quality adjustment unit corresponds to each viewing angle of the plurality of viewers registered by the registration unit. The image quality adjustment value is acquired from the image quality adjustment database, and the image quality of the image displayed on the liquid crystal display unit is adjusted based on the average value of the acquired image quality adjustment values. In addition, a registration key for outputting an angle registration signal for registering the viewing angle is provided in the remote controller by the registration means, and at the viewing angle of each viewer by the specifying means provided in the main body, By detecting the reception intensity in a plurality of directions of the transmitted angle registration signal, the viewing angles of a plurality of viewers are specified.
Accordingly, the image quality of the image on the liquid crystal display unit is adjusted according to the viewing angles of a plurality of viewers registered in advance, and a plurality of images on the liquid crystal display unit are viewed from different angles. It is possible to provide a display system that can adjust the image quality to an image that is considered by all of the users. Further, the image quality adjustment is performed based on the image quality adjustment database provided in advance, and the image quality adjustment can be performed by a simple method without complicated calculation processing or the like. Furthermore, since the viewing angle is specified based on the angle registration signal transmitted from the remote controller, the viewing angle of each viewer can be registered accurately and easily.

According to the second aspect of the present invention, a display unit that displays an image is provided, and viewing angles of a plurality of viewers are registered in advance by the registration unit, and a plurality of registration angles registered by the registration unit by the image quality adjustment unit. The image quality of the image displayed on the display unit is adjusted based on the viewing angle of the viewer.
Therefore, the image quality of the display unit is adjusted according to the viewing angles of a plurality of viewers registered in advance, and the images of the display unit are viewed by a plurality of users who view the display unit from different angles. It is possible to provide a display system that can adjust the image quality to an image that everyone considers.

According to the third aspect of the present invention, the effect of the second aspect of the invention can of course be obtained, and the viewing angle of the viewer and the image quality adjustment value are stored in association with each other by the image quality adjusting means. The image quality adjustment database is provided, the image quality adjustment value corresponding to each viewing angle registered by the registration means is acquired from the image quality adjustment database, and the image quality adjustment of the image is performed based on the average value of the acquired image quality adjustment values. Done.
Accordingly, the image quality adjustment is performed based on the image quality adjustment database provided in advance, and the image quality adjustment can be performed by a simple method without complicated calculation processing.

According to the invention described in claim 4, it is needless to say that the effect of the invention described in claim 2 or 3 can be obtained, and a main body having a display unit and a remote controller for remotely operating the main body are provided. , A registration key for outputting an angle registration signal for registering the viewing angle by the registration means is provided in the remote controller, provided in the main body, and angle registration transmitted from the remote controller at each viewer's viewing angle. By detecting the reception intensity in a plurality of directions of the signal, the viewing angles of the plurality of viewers are specified.
Therefore, the viewing angle of each viewer can be registered accurately and easily.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
In the present embodiment, a display system including a liquid crystal display unit that displays an image will be described.

FIG. 1 is a diagram illustrating the overall configuration of a display system 100 according to this embodiment.
A display system 100 according to the present embodiment is a system realized in, for example, a liquid crystal display device. As shown in FIG. 1, an apparatus main body (main body) 1 including a liquid crystal display (display) 12, And a remote controller 2 for remotely operating the apparatus main body 1.

First, the remote controller 2 constituting the display system 100 will be described. FIG. 2 is a block diagram illustrating the main configuration of the apparatus main body 1 and the remote controller 2 of the display system 100 according to this embodiment.
As shown in FIG. 2, a remote controller (hereinafter referred to as a remote controller) 2 in the display system 100 includes a control unit 21, a key operation unit 22, an oscillation unit 23, a light emitting unit 24 including an infrared LED (Light Emitting Diode), and the like. It is configured with.

The key operation unit 22 includes a plurality of keys for a user to input various instructions to the apparatus main body unit 1. When the user performs a key pressing operation, a signal corresponding to the pressed key is generated. It is output to the control unit 21. Then, based on the control by the control unit 21, the oscillating unit 23 or the like operates to generate a remote control signal corresponding to the key pressed in the key operation unit 22, and the generated remote control signal is output by the light emitting unit 24. Is done.
Specifically, for example, the key operation unit 22 displays various menu screens on the display 12a in addition to the registration key 22a that outputs an angle registration signal Sg for registering the viewing angle of the viewer in the execution of a registration program 183a described later. A menu key 22b for displaying the input, a determination key 22c for confirming the input, a clear key 22d for erasing the input, and the like. Although not shown, the apparatus main body 1 is turned on / off. Power key for adjusting volume, volume key for adjusting volume, channel key for changing channel, numbers from “0” to “9” are assigned to each, and numeric keypad for inputting channel number etc. ing.
When the registration key 22 a is pressed by the operator in the key operation unit 22, an angle registration signal Sg corresponding to the registration key 22 a is generated and transmitted by the light emitting unit 24.

Next, the apparatus main body 1 constituting the display system 100 will be described.
For example, as shown in FIG. 2, the apparatus main body 1 in the display system 100 includes an antenna 3 that receives a broadcast signal, and a tuner 4 that selects a broadcast signal of a predetermined channel from the broadcast signal received by the antenna 3. A demodulator 5 for demodulating the broadcast signal selected by the tuner 4, a TS decoder 6 for separating the broadcast signal demodulated by the demodulator 5 into a plurality of streams, and a broadcast signal separated by the TS decoder 6 Video decoder 7 and audio decoder 8 for decoding, audio processing unit 9 for performing predetermined processing on the audio signal decoded by audio decoder 8, and audio output unit for outputting the audio signal processed by audio processing unit 9 10, a video processing unit 11 that performs predetermined processing on the video signal decoded by the video decoder 7, and a video processing unit 11 From the liquid crystal display unit 12 that outputs the processed video signal, the gate line driving unit 13 and the data line driving unit 14 that drive the liquid crystal display unit 12, the OSD circuit 15 that adds OSD data to the video signal, and the remote control 2 A remote control signal receiving unit 16 that receives a signal to be transmitted, an angle detection sensor 17 that receives an angle registration signal Sg transmitted from the remote control 2, a control unit 18 that performs overall control of the entire apparatus body 1, and the like. Each part is connected by a control bus 19.

For example, the antenna 3 is arranged outdoors in a predetermined direction, and receives a high-frequency (RF) television broadcast signal (RF signal) transmitted from a television broadcast station (not shown) or the like.
The tuner 4 includes, for example, a high-frequency amplifier circuit and a frequency conversion circuit including a local oscillation circuit and a mixing circuit, which are not shown in the figure. The tuner 4 receives a television broadcast signal input from the antenna 3 or the like. The signal is amplified in the high frequency amplifier circuit and mixed with the local oscillation signal output from the local oscillation circuit in the mixing circuit. Further, in response to a control output from the control unit 18 for selecting a specific frequency, an intermediate frequency signal (IF signal) in a specific frequency band is received, a predetermined process is performed on the intermediate frequency signal, and a demodulation unit 5 is output.
For example, the demodulator 5 performs processing such as digital demodulation and error correction on the intermediate frequency signal output from the tuner 4 based on the control from the controller 18 to generate a transport stream (TS). To the TS decoder 6.

The TS decoder 6 converts the transport stream input from the demodulator 5 into a data stream such as a video stream, an audio stream, and PSI / SI (Program Specific Information / Service Information) under the MPEG2 (Moving Picture Experts Group 2) standard. At the same time, the video stream is output to the video decoder 7, the audio stream is output to the audio decoder 8, and a data stream such as PSI / SI is supplied to the control unit 18 and the like.
The video decoder 7 decodes the video stream input from the TS decoder 6, performs inverse DCT conversion, motion compensation control, and the like, generates video data, and outputs the video data to the video processing unit 11. The audio decoder 8 decodes the audio stream input from the TS decoder 6, generates audio data, and outputs the audio data to the audio processing unit 9.

The audio processing unit 9 performs various processes such as D / A conversion on the audio data input from the audio decoder 8, generates an audio signal, and outputs the audio signal to the audio output unit 10.
The audio output unit 10 includes, for example, a speaker 10a, and causes the speaker 10a to output audio based on the audio signal input from the audio processing unit 9.

The video processing unit 11 performs various types of video processing including image quality adjustment processing on the video data input from the video decoder 7 to generate a video signal.
Specifically, as shown in FIG. 3, the video processing unit 11 includes a Y / C separation circuit 111, a color demodulation circuit 112, a matrix circuit 113, an image quality adjustment circuit 114, a scaler 115, and the like. Has been.

The Y / C separation circuit 111 performs a process of separating and extracting the luminance signal Y and the color signal C from the input video data. The luminance signal Y separated in the Y / C separation circuit 111 is output to the matrix circuit 113, while the color signal C is supplied to the color demodulation circuit 112.
The color demodulation circuit 112 demodulates the color signal C input from the Y / C separation circuit 111 into RY and BY color difference signals and outputs them to the matrix circuit 113.
The matrix circuit 113 matrixes the luminance signal Y and the RY and BY color difference signals to generate RGB three primary color signals.
The image quality adjustment circuit 114 performs image quality adjustment on the RGB color signals based on the image quality adjustment signal output from the control unit 18, and outputs the RGB signal whose image quality has been adjusted to the scaler 115. The image quality adjustment in the image quality adjustment circuit 114 will be described in detail in the description of the image quality adjustment program 183b described later.
The scaler 115 performs a scaling process for converting the number of pixels in accordance with the number of pixels of the display 12a on the RGB signal output from the image quality adjustment circuit 114, and outputs the result to the subsequent stage.

The liquid crystal display unit 12 includes, for example, a liquid crystal display (LCD) type display 12a, and displays video based on the video signal input from the video processing unit 11 on the display 12a.
The display 12a provided in the liquid crystal display unit 12 is not shown, but a glass substrate and a counter substrate disposed at a predetermined interval with respect to the glass substrate are bonded to each other, and the glass substrate and the counter substrate are bonded to each other. The liquid crystal layer is sealed between the glass substrate and the counter substrate, and a backlight is disposed on the back side of the glass substrate.
A plurality of pixel electrodes are arranged in a matrix on the glass substrate, and a counter electrode is formed on the counter substrate so as to face the pixel electrode. Each pixel electrode is arranged so that a thin film transistor (TFT: Thin Film Transistor) that drives the pixel electrode is connected to a matrix-like gate line and a data line, and a pixel electrode voltage supplied to the pixel electrode; Due to the potential difference with the counter electrode voltage supplied to the counter electrode, the liquid crystal layer in the region enclosed between the pixel electrode and the counter electrode changes the alignment direction and operates together with the polarizing plate and the alignment film to pass light or Shut off.

The gate line driving unit 13 is provided corresponding to each of the gate lines in the liquid crystal display unit 12, and supplies a voltage for turning on or off a thin film transistor connected to the same gate line to the gate line.
The data line driving unit 14 is provided corresponding to each of the data lines in the liquid crystal display unit 12, and a voltage corresponding to the video data input from the signal processing unit is synchronized with the data output from the gate line driving unit 13. Output to the data line in synchronization with the signal.
In the liquid crystal display unit 12 and the driving unit described above, a high potential voltage is supplied to one gate line by the gate line driving unit 13, and each data line is supplied with data output from the video processing unit 11. By supplying a voltage having the above voltage value and repeating this in order from the upper gate line to the lower gate line, an image for one frame is displayed on the display 12a.

The OSD circuit 15 performs a process of combining OSD data (not shown) with the video signal output from the video processing unit 11 in response to an instruction output from the control unit 18.
The remote control signal receiving unit 16 receives various remote control signals transmitted from the remote control 2, performs predetermined processing such as demodulation and error correction on the received remote control signal, and outputs the result to the control unit 18.

The angle detection sensor 17 is provided, for example, on the front surface of the apparatus body 1 and receives an angle registration signal Sg transmitted in response to a pressing operation of the registration key 22a of the remote controller 2 in the execution of a registration program 183a described later. By detecting the reception intensity of the angle registration signal Sg in a plurality of directions, the viewing angle of the viewer at the position of the remote controller 2 that has transmitted the angle oscillation signal Sg is detected.
FIG. 4 is a plan view of the angle detection sensor 17 provided on the front surface of the apparatus main body 1. The angle detection sensor 17 includes, for example, a plurality of infrared light receiving sensors 171 arranged in different directions, and each infrared light receiving sensor 171 has high directivity with respect to the angle registration signal Sg from a certain direction. It is comprised so that it may have. For example, as shown in FIG. 4, the angle detection sensor 17 includes 19 infrared light receiving sensors 171 a to 171 s. When the angle at which the display 12 a is viewed from the front is set to 0 degrees, the angle detection sensor 17 is 90 degrees on the right side ( An angle registration signal Sg transmitted from a range of 180 degrees from +90 degrees to 90 degrees (-90 degrees) on the left side can be detected every 10 degrees by the infrared light receiving sensors 171a to 171s.
In the angle detection sensor 17 configured as described above, when the user presses the registration key 22a in a state where the remote controller 2 is directed toward the display 12a, the angle registration transmitted based on the pressing of the registration key 22a. The signal Sg is received by any one or a plurality of infrared light receiving sensors 171. Then, the receiving intensity of the infrared light receiving sensor 171 that has received the angle registration signal Sg is detected, and the orientation of the infrared receiving sensor 171 having the highest receiving intensity is determined based on the detected receiving intensity of each infrared receiving sensor 171. Specify as viewing angle.

  The control unit 18 includes a CPU (Central Processing Unit) 181, a memory unit 182, a ROM (Read Only Memory) 183, and the like.

  The CPU 181 is stored in the ROM 183 in accordance with input signals input from each unit of the apparatus body 1 or remote control signals input via the remote control signal receiving unit 16 by pressing various keys on the remote control 2 or the like. In addition to executing various programs, the overall operation of the display system 100 is comprehensively controlled by outputting an output signal to each unit of the apparatus main body 1 based on the execution program.

  The memory unit 182 includes, for example, a work area 1821 made of a volatile memory such as a RAM (Random Access Memory). Processing results generated when various programs are executed by the CPU 181, input data, etc. The work area 1821 is stored.

  The memory unit 182 includes a data area 1822 made of a nonvolatile memory such as an EPROM (Erasable Programmable ROM). The data area 1822 stores, for example, a plurality of image quality adjustment databases 1822a to 1822i that store image quality adjustment values at other viewing angles at each viewing angle.

Each of the image quality adjustment databases 1822a to 1822i is provided corresponding to each viewing angle of 90 degrees (left side / right side) to 10 degrees (left side / right side). For example, each viewing angle is set as a viewing position. Are stored in association with image quality adjustment values for calculating each of the RGB signals.
Specifically, nine image quality adjustment databases 1822a to 1822i are prepared, for example, corresponding to viewing angles every 10 degrees from right / left 90 degrees to right / left 10 degrees. Each of the image quality adjustment databases 1822a to 1822i has the image quality of RGB signals at other viewing angles within the right / left 90 degrees to the right / left 10 degrees when a viewer exists at one viewing angle. The adjustment value is stored.
As the image quality adjustment databases 1822a to 1822i, for example, those created based on measured values of image quality at each viewing position are used. For example, the image quality adjustment database 1822a illustrated in FIG. 5A is provided corresponding to the viewing angle of 90 degrees on the right side and 90 degrees on the left side, and the image quality adjustment illustrated in FIG. 5B. The database 1822i is provided corresponding to the viewing angle of 10 degrees on the left side and 10 degrees on the right side.
Furthermore, each of the image quality adjustment databases 1822a to 1822i stores an adjustment value for adjusting the backlight output in the liquid crystal display unit 12 for each other viewing angle within the right / left 90 degrees to the right / left 10 degrees. is doing.

  The ROM 183 has a program storage area made up of, for example, a non-volatile memory, and specifically stores a registration program 183a and an image quality adjustment program 183b.

The registration program 183a specifies, for example, the viewing angles of a plurality of viewers based on the angle registration signal Sg transmitted from the remote controller 2 in response to the pressing operation of the registration key 22a to the CPU 181, and the viewing angles of the plurality of viewers. Is a program for realizing the function of previously registering.
Specifically, when a remote control signal for instructing display of a viewing angle registration screen is received by the remote control signal receiving unit 16 and input to the control unit 18 by a key operation such as a menu key on the remote control 2 by the user, the CPU 181. Reads out the viewing angle registration screen OSD data (not shown) stored in a predetermined area of the memory unit 182 and adds the OSD data to the video data output to the liquid crystal display unit 12 by the OSD circuit 15. Thus, a viewing angle registration screen is displayed on the display 12a of the liquid crystal display unit 12.

FIG. 6 is a diagram illustrating a viewing angle registration screen displayed on the display 12 a of the liquid crystal display unit 12.
In the viewing angle registration process, the viewer first selects the viewer who registers the viewing angle on the viewing angle registration screen of FIG. Then, as shown in FIG. 6B, a display prompting the user to press the registration key 22a such as “Please press the registration key while pointing the remote control at the screen” is displayed on the display 12a. According to this display, when the viewer presses the registration key 22a of the key operation unit 22 while pointing the remote controller 2 in the direction of the display 12a, an angle registration signal Sg is generated based on the pressing of the registration key 22a and the light emitting unit. 24, and the angle registration signal Sg is received by one or a plurality of infrared light receiving sensors 171 of the plurality of infrared light receiving sensors 171 constituting the angle detection sensor 17 provided on the front surface of the apparatus main body 1. The Rukoto.
When the angle registration signal Sg transmitted from the remote controller 2 is received by the angle detection sensor 17, the CPU 181 then detects the reception intensity of the angle registration signal Sg in each infrared light receiving sensor 171 of the angle detection sensor 17. The orientation of the infrared light receiving sensor 171 having the highest detected reception intensity is specified as the viewing angle of the viewer as the source of the angle registration signal Sg, and the specified viewing angle is set to a predetermined value in the memory unit 182 or the like. Store and register temporarily in the area.

Further, when the viewing angle of the viewer specified based on the angle registration signal Sg is registered, the CPU 181 registers the viewing angle of the viewer on the display 12a of the liquid crystal display unit 12 as shown in FIG. A display for notifying the completion is performed, and the process proceeds to another viewer's viewing angle registration process according to the viewer's key operation, or the viewing angle registration process for all viewers is terminated.
The CPU 181 functions as a registration unit and a specifying unit together with the registration key 22a by executing the image quality adjustment program 183b.

For example, the image quality adjustment program 183b stores, in the CPU 181 for example, image quality adjustment values corresponding to the viewing angles of a plurality of viewers registered by executing the registration program 183a in association with the viewing angles of the viewers and the image quality adjustment values. This is a program for realizing a function for adjusting the image quality of an image acquired from the image quality adjustment databases 1822a to 1822i to be displayed and displayed on the liquid crystal display unit 12 based on the average value of the acquired image quality adjustment values.
Specifically, the CPU 181 registers the viewing angles of a plurality of viewers by executing the registration program 183a, and temporarily stores them in a predetermined area of the memory unit 182 when the registration process ends according to the user's key operation. Each viewing angle of a plurality of viewers is read out. Then, one or more other viewing angles existing between the plurality of viewers are specified, and the image quality adjustment databases 1822a to 1822i corresponding to the specified viewing angles are respectively referred to, and the image quality adjustment databases 1822a to 1822i are respectively referred to. The image quality adjustment values associated with each of the registered viewing angles are read out, and the read image quality adjustment values are averaged for each RGB signal. Further, when there are a plurality of viewing angles among a plurality of viewers, based on the largest value among the average values calculated from the image quality adjustment databases 1822a to 1822i for each of the plurality of viewing angles, The image quality adjustment circuit 114 performs processing for calculating each RGB signal to perform image quality adjustment.
Then, an image that has been subjected to image quality adjustment that is considered by all of a plurality of viewers to be viewed is displayed on the display 12 a of the liquid crystal display unit 12.
The CPU 181 functions as image quality adjustment means by executing the image quality adjustment program 183b.

Here, for example, a case where image quality adjustment processing is performed for two viewers A and B will be described with reference to FIG.
First, the viewer presses the registration key 22a from the position where the first viewer A views, while pointing the remote controller 2 at the display 12a of the apparatus main body 1. Then, the remote controller 2 transmits an angle registration signal Sg based on the pressing of the registration key 22a, and this is received by the angle detection sensor 17 provided on the front surface of the apparatus main body 1. When the angle registration signal Sg is received by the angle detection sensor 17, the CPU 181 receives the infrared light having the highest reception intensity based on the reception intensity of the angle registration signal Sg in each of the infrared light reception sensors 171 constituting the angle detection sensor 17. The sensor 171m is detected. Then, based on the direction of the infrared light receiving sensor 171m, the viewing angle of the viewer A is identified as 30 degrees (-30 degrees) on the left side, and the identified viewing angle is temporarily stored and registered in a predetermined area.
Next, the viewer presses the registration key 22a to send the angle registration signal Sg from the position where the second viewer B views, while pointing the remote controller 2 toward the display 12a of the apparatus main body unit 1, and sends the angle registration signal Sg. Is received by the angle detection sensor 17 provided on the front surface of the apparatus main body 1. Then, the CPU 181 detects the infrared light reception sensor 171d having the highest reception intensity based on the reception intensity of the angle registration signal Sg in each of the infrared light reception sensors 171 constituting the angle detection sensor 17. Then, based on the orientation of the infrared light receiving sensor 171d, the viewing angle of the viewer B is identified as 60 degrees on the right side (+60 degrees), and the identified viewing angle is temporarily stored and registered in a predetermined area.

After registering the viewing angles of all viewers, the CPU 181 subsequently specifies other viewing angles that exist between the registered viewing angles. At this time, the right / left sides of the viewing angle are not distinguished, and only numerical values are targeted. That is, in this example, 40 degrees and 50 degrees existing between 30 degrees and 60 degrees are specified as other viewing angles.
Next, the CPU 181 refers to the image quality adjustment database 1822f corresponding to the other specified viewing angle 40 degrees and the image quality adjustment database 1822e corresponding to 50 degrees, and in each of the image quality adjustment databases 1822f and 1822e, Then, the image quality adjustment value associated with each of the registered viewing angles (30 degrees and 60 degrees) is read, and the average value of the read image quality adjustment values is calculated.
Further, the CPU 181 compares the average value calculated from the image quality adjustment database 1822f corresponding to the viewing angle 40 degrees with the average value calculated from the image quality adjustment database 1822e corresponding to the viewing angle 50 degrees, and the average having the largest value is compared. An image quality adjustment signal based on the value is output to the image quality adjustment circuit 114.
Then, the image quality adjustment circuit 114 performs image quality adjustment on the input RGB signals based on the image quality adjustment signal, and the image signal whose image quality has been adjusted is output to the liquid crystal display unit 12. Thus, image quality adjustment is performed on the display 12a of the liquid crystal display unit 12 for both the viewer A viewing from the viewing angle of 30 degrees on the left side and the viewer B viewing from the viewing angle of 60 degrees on the right side. The displayed image will be displayed.

  Further, the CPU 181 synchronizes with the image quality adjustment in the image quality adjustment circuit 114 described above, by a backlight control unit (not shown) based on the adjustment values read from the image quality adjustment databases 1822a to 1822i according to the registered viewing angle. The brightness of the backlight provided in the liquid crystal display unit 12 is adjusted.

  Next, image quality adjustment processing performed in the display system 100 will be described with reference to the flowchart of FIG.

  First, in step S1, the viewer who registers the viewing angle is selected by the viewer on the viewing angle registration screen displayed on the liquid crystal display unit 12. Next, in step S2, in accordance with the display on the viewing angle registration screen, when the viewer presses the registration key 22a provided in the key operation unit 22 while pointing the remote controller 2 toward the display 12a from the viewing angle position to be registered, An angle registration signal Sg based on the pressing operation of the registration key 22a is transmitted from the remote controller 2, and in step S3, an angle registration signal transmitted from the remote controller 2 is transmitted at the angle detection sensor 17 provided on the front surface of the apparatus body 1. Sg is received. In step S4, the CPU 181 detects the reception intensity of the angle registration signal Sg of each infrared light reception sensor 171 constituting the angle detection sensor 17, and in step S5, the infrared light reception sensor with the highest reception intensity of each infrared light reception sensor 171. The direction of 171 is specified as the viewing angle of the viewer, and is temporarily stored in a predetermined area and registered. In step S6, the CPU 181 determines whether or not the viewing angles of all the viewers are registered based on the user's key operation, and determines that the viewing angles of all the viewers are not registered (step S6; No), it returns to step S1 and repeats the above process. On the other hand, when the CPU 181 determines that the viewing angles of all the viewers have been registered (step S6; Yes), the CPU 181 proceeds to step S7, and the RGB associated with each of the registered viewing angles of the plurality of viewers. Are obtained from the image quality adjustment databases 1822a to 1822i using the method exemplified in the description of the image quality adjustment program 183b. Further, the CPU 181 calculates an average value of the image quality adjustment values acquired for each viewing angle from the image quality adjustment databases 1822a to 1822i in step S8, and outputs an image quality adjustment signal to the image quality adjustment circuit 114 in step S9. Then, the image quality adjustment process based on the average value of the calculated image quality adjustment values is performed, and this process is terminated.

According to the display system 100 in the present embodiment described above, the apparatus main body unit 1 including the liquid crystal display unit 12 for displaying an image and the remote controller 2 for remotely operating the apparatus main body unit 1 are provided and registered by the CPU 181. By executing the program 183a, viewing angles of a plurality of viewers are registered in advance, and provided with image quality adjustment databases 1822a to 1822i that store the viewing angles of the viewers and image quality adjustment values in association with each other. By execution, image quality adjustment values corresponding to the viewing angles of a plurality of viewers registered by the registration program 183a are acquired from the image quality adjustment databases 1822a to 1822i, and the liquid crystal display is performed based on the average value of the acquired image quality adjustment values. The image quality of the image displayed on the unit 12 is adjusted. In addition, a registration key 22a for outputting an angle registration signal Sg for registering a viewing angle is provided in the remote controller 2, and is transmitted from the remote controller 2 by executing a registration program 183a provided in the apparatus main body 1. By detecting the reception intensity of the angle registration signal Sg in a plurality of directions, the viewing angles of a plurality of viewers are specified.
Therefore, the image quality of the image on the liquid crystal display unit 12 is adjusted according to each viewing angle of a plurality of viewers registered in advance, and the image on the liquid crystal display unit 12 is viewed from different angles on the liquid crystal display unit 12. It is possible to provide the display system 100 that can adjust the image quality to an image that is considered by all of a plurality of users who view the video. Further, the image quality adjustment is performed based on the image quality adjustment databases 1822a to 1822i provided in advance, and the image quality adjustment can be performed by a simple method without using complicated calculation processing. Furthermore, since the viewing angle is specified based on the angle registration signal Sg transmitted from the remote controller 2, the viewing angle of each viewer can be registered accurately and easily.

  The present invention is not limited to the above embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.

For example, in the above embodiment, the case where the image quality adjustment is performed based on the viewing angle in the horizontal direction has been described. However, the viewing angle in the vertical direction is detected in addition to the angle in the horizontal direction, and the viewing angle in the horizontal direction and the vertical direction is set. The image quality adjustment may be performed based on the above.
Specifically, for example, the angle detection sensor shown in FIG. 9 has a configuration in which a plurality of infrared light receiving sensors are arranged in a circle, and based on the reception intensity of the angle registration signal Sg of each infrared light receiving sensor, In addition to the horizontal viewing angle, the vertical viewing angle is detected. Then, the image quality adjustment value is read from an image quality adjustment database (not shown) that stores image quality adjustment values corresponding to the horizontal direction and the vertical direction, and image quality adjustment is performed.

Further, for example, the image quality adjustment is not limited to the case where the image quality adjustment is performed based on the image quality adjustment database prepared based on the actual measurement value at each viewing angle, but is performed based on the image quality adjustment value calculated based on a predetermined arithmetic expression. It may be.
Further, when the reception intensity of the two infrared light receiving sensors in the angle detection sensor 17 is the same, for example, image quality adjustment values corresponding to the respective infrared light receiving sensors are read from the image quality adjustment databases 1822a to 1822i, respectively, and the read image quality adjustment is read out. The average value may be used as the image quality adjustment value.
In addition, setting means for setting the image quality adjustment databases 1822a to 1822i exemplified in the above-described embodiment to reflect user preferences may be provided.
The viewing angle registration is not limited to the case where the remote control 2 transmits the angle registration signal Sg from the viewing position, and a method of registering the viewing angle based on an image obtained by capturing the viewer side, the display 12a. Various methods such as a method in which the viewer selects an angle on the OSD screen displayed on the screen, and a method in which an audio signal / ultrasound is received and registered on the apparatus main body side can be applied.
The image quality adjustment is not limited to a simple average value, and for example, a value calculated by a weighted average or the like may be used.

It is a figure which illustrates the whole structure of the display system in this embodiment. It is a block diagram which illustrates the principal part composition of the main part of a device of a display system in this embodiment, and a remote controller. It is a block diagram which illustrates the composition of a video processing part. It is a top view of the angle detection sensor with which the front part of an apparatus main-body part is equipped. It is a figure which illustrates the database for image quality adjustment with which this display system is equipped. It is a figure which shows the viewing angle registration screen displayed on a display in execution of a registration program. It is a figure for demonstrating the image quality adjustment process performed by execution of a registration program and an image quality adjustment program. It is a flowchart which shows the image quality adjustment process performed in this display system. It is a front view of the angle detection sensor with which other embodiment is equipped.

Explanation of symbols

100 Display System 1 Device Main Body (Main Body)
12 Liquid crystal display (display)
181 CPU (registration means, identification means, image quality adjustment means)
1822a to 1822i Image quality adjustment database 183a Registration program (registration means, identification means)
183b Image quality adjustment program (image quality adjustment means)
2 Remote controller 22a Registration key

Claims (4)

In a display system comprising a main body unit including a liquid crystal display unit for displaying an image, and a remote controller for remotely operating the main body unit,
Registration means for pre-registering viewing angles of a plurality of viewers;
An image quality adjustment database that stores a viewing angle of a viewer and an image quality adjustment value in association with each other, and stores the image quality adjustment value corresponding to each viewing angle of the plurality of viewers registered by the registration unit. Image quality adjusting means for adjusting the image quality of the image to be displayed on the liquid crystal display unit based on the average value of the acquired image quality adjustment values
With
The registration means includes
A registration key provided in the remote controller for outputting an angle registration signal for registering a viewing angle;
A specifying means for specifying the viewing angle of the plurality of viewers by detecting reception intensities at a plurality of directions of the angle registration signal transmitted from the remote controller,
A display system comprising: In a display system including a display unit for displaying an image,
Registration means for pre-registering viewing angles of a plurality of viewers;
Image quality adjusting means for adjusting image quality of the image displayed on the display unit based on viewing angles of the plurality of viewers registered by the registration means;
A display system comprising: The image quality adjusting means is
An image quality adjustment database that stores the viewing angle of the viewer and the image quality adjustment value in association with each other, obtains the image quality adjustment value corresponding to each viewing angle registered by the registration unit from the image quality adjustment database; The display system according to claim 2, wherein the image quality of the image is adjusted based on an average value of the acquired image quality adjustment values. A main body unit including the display unit, and a remote controller for remotely operating the main body unit,
The registration means includes
A registration key provided in the remote controller for outputting an angle registration signal for registering a viewing angle;
The viewing angle of each of the plurality of viewers is specified by detecting reception intensities of the angle registration signals transmitted from the remote controller at the viewing angles of each viewer provided in the main body. Specific means,
The display system according to claim 2, further comprising:

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