JP2008090061A - Display controller, video display device, and display control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a remote operation relative to a video in a dual view display on the side of a viewer who has performed a remote control operation by a single remote-controlled transmitter. <P>SOLUTION: A remote control signal corresponding to a viewing position is received by one of a remote control receiver 6A and a remote control receiver 6B by a parallax barrier (optical separator) 3A enabling single view display or dual view display, and when a reception determination part 5 determines that one of the remote control receiver 6A or the remote control receiver 6B receives the remote control signal, video processing relative to first video data or second video data by a video processing circuit 2 is controlled by a video processing control circuit 4 in accordance with contents of the remote control signal on the basis of the determination results. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a display control device, a video display device, and a display control method for performing video display control in accordance with a remote control operation on a viewer side in dual view display.

  The liquid crystal display panel has a liquid crystal layer having an anisotropic dielectric constant injected between two glass substrates, and passes through the glass substrate by adjusting the strength of an electric field applied to the liquid crystal layer. The amount of light is adjusted to display a desired still image or moving image. Such a liquid crystal display panel is excellent in weight reduction, thinning, low power consumption, etc., and is not limited to familiar devices such as a mobile phone, a car navigation system, a PDA, a personal computer, and a television receiver, It is used as a display for medical equipment and industrial equipment in general.

  By the way, some liquid crystal display panels can perform dual view display by adopting dual view display technology. Here, the dual view display is such that different videos can be viewed at the respective viewing positions on the same display screen.

  The basic principle of such a dual view display is that a parallax barrier (optical separation element), which is a screen having a plurality of vertical light-transmitting slits separated by an opaque region, is arranged on the entire surface of a liquid crystal display panel having a plurality of pixels. Through the translucent slit, different images can be seen depending on the viewing position.

  By the way, in such a dual view display, when a video switching operation or the like is performed by each viewer, it is necessary to identify which video has been switched.

As an example in which switching in such dual view display is identified, in Patent Document 1, a viewer A touch-dedicated area and a viewer B touch-dedicated area are provided on the touch panel and obtained by touch detection using the touch panel. Based on the coordinate data, it is determined whether the viewer A touch-dedicated area or the viewer B touch-dedicated area has been touched, and the video corresponding to the viewer A touch-dedicated area or the viewer B touch-dedicated area is touched. Has been proposed to control the display operation by recognizing.
JP-A-2005-71286

  As described above, in the display device disclosed in Patent Document 1 described above, the viewer A touch-dedicated area and the viewer B touch-dedicated area are provided on the touch panel, and the touched area is determined to correspond to the area. By recognizing the video, the display operation of the video is controlled.

  However, if an image whose display operation is to be controlled is determined by a touch operation on the touch operation screen displayed on the screen, when one viewer performs a touch operation on the touch operation screen, the other viewing Will not be able to watch the video.

  Therefore, instead of a touch operation using the touch panel, only the video on one viewer side is operated by remote operation using a remote control transmitter, so that the other viewer cannot view the video. Is considered to be resolved.

  In this case, it is considered that a dedicated remote control transmitter for each viewer should be prepared so that the remote control signal from the remote control signal can be determined on the receiving side that receives the remote control signal. . At that time, for example, by making the frequency bands of the remote control signals of the respective remote control transmitters different, it is possible to determine which remote control signal is sent from the remote control transmitter. It becomes possible.

  However, if a dedicated remote control transmitter is prepared for each viewer in this way, a plurality of remote control transmitters are required, and a process for demodulating the remote control signal from each remote control transmitter is required. There is a problem in that the number of circuits required is the same as the number of remote control transmitters, and the configuration becomes complicated.

  The present invention has been made in view of such a situation, and an object thereof is to provide a display control device, a video display device, and a display control method capable of solving the above-described problems.

A display control apparatus according to the present invention is a display control apparatus that performs display control of a video displayed on a display unit based on a remote control signal, and performs dual view display based on first video data and second video data. Video processing means, first receiving means corresponding to the first video data and receiving a remote control signal related to video processing, and second receiver corresponding to the second video data and receiving a remote control signal related to video processing And the parallax that covers the first receiving means and the second receiving means, and allows the first receiving means or the second receiving means to receive the remote control signal corresponding to the viewing position. A discriminating unit for discriminating which one of the barrier and the first and second receiving units has received the remote control signal; and based on a discrimination result by the discriminating unit, the video processing unit It characterized in that it comprises a video processing control means for controlling in accordance with the content of the first video data and the remote control signal to video processing relating to the second image data.
The parallax barrier may be provided so as to cover the display unit, the first receiving unit, and the second receiving unit.
The parallax barrier may be provided so as to individually cover the first receiving unit and the second receiving unit.
Further, the first receiving means and the second receiving means are arranged according to the width of the light transmissive slit of the parallax barrier, and have a receiving section for receiving the remote control signal. Can do.
A video display device according to the present invention includes the display control device according to any one of claims 1 to 4.
The display control method of the present invention is a display control method for performing video display control based on a remote control signal, and performing dual view display based on first video data and second video data; Receiving a remote control signal corresponding to video data and related to video processing by a first receiving means; and receiving a remote control signal corresponding to the second video data and related to video processing by a second receiving means; Determining which one of the first and second receiving means has received the remote control signal via a parallax barrier covering the first and second receiving means, and based on the determination result, the first And controlling video processing related to the video data or the second video data in accordance with the content of the remote control signal.
In the display control device, the video display device, and the display control method of the present invention, the remote control signal corresponding to the viewing position is received by the first receiving unit or the second receiving unit by the parallax barrier, and the first and second receiving units are used. By determining which of the receiving means has received the remote control signal, the video processing relating to the first video data or the second video data is controlled according to the content of the remote control signal based on the determination result.

  According to the display control device, the video display device, and the display control method of the present invention, the remote control signal corresponding to the viewing position is received by either the first reception unit or the second reception unit by the parallax barrier, By determining which of the first and second receiving means has received the remote control signal, video processing related to the first video data or the second video data is controlled according to the content of the remote control signal based on the determination result. Therefore, it is possible to perform a remote operation related to the video on the viewer side who has performed the remote control operation with a single remote control transmitter.

  In the present embodiment, the remote control signal corresponding to the viewing position is received by either the first receiving means or the second receiving means by the parallax barrier, and either of the first and second receiving means receives the remote control signal. Based on the determination result, the video processing related to the first video data or the second video data is controlled according to the content of the remote control signal, and the remote control is performed by a single remote control transmitter. Remote operation related to the video of the viewer who performed the operation was performed.

  Details of the embodiments of the present invention will be described below. FIG. 1 is a diagram for explaining an embodiment when the display control apparatus of the present invention is applied to a television receiver.

  A television receiver 1 shown in FIG. 1 includes a liquid crystal display panel 3 and remote control receivers 6A and 6B. The liquid crystal display panel 3 and the remote control receivers 6A and 6B are covered with a parallax barrier (optical system separation element) 3A that enables single view display or dual view display.

  Here, the single view display is a display mode in which the viewer A and the viewer B can view a video corresponding to either one of the first video data or the second video data described later. . On the other hand, in the dual view display, for example, the viewer A can view only the video corresponding to the first video data described later, and the viewer B views only the video corresponding to the second video data described later. This is a display mode that can be used. In these display modes, for example, display switching is performed by a switching operation from the remote control transmitter 10. Details of the parallax barrier (optical system separation element) 3A will be described later.

  The remote control receivers 6 </ b> A and 6 </ b> B receive a remote control signal from a single remote control transmitter 10 and are arranged, for example, at a distance on the left and right below the liquid crystal display panel 3. Here, the reason why the two remote control receivers 6A and 6B are provided is to determine which of the viewers A and B has operated the remote control transmitter 10 during dual view display. The details will be described later.

  FIG. 2 is a diagram for explaining details of the parallax barrier (optical system separation element) 3A described above. As shown in the figure, the parallax barrier (optical system separation element) 3A is a screen having a plurality of vertical light-transmitting slits 3a separated by an opaque region 3b.

  Here, when the above-described dual view display is performed, for example, adjacent pixels a and b of the liquid crystal display panel 3 are driven according to the first video data or the second video data. In other words, the adjacent pixels a and b are driven according to different video data.

  In this way, when the adjacent pixels a and b are driven according to different video data, the viewer A passes the light from the pixel a through the translucent slit 3a of the parallax barrier (optical system separation element) 3A. The viewer B can see the light from the pixel b through the translucent slit 3a of the parallax barrier (optical system separation element) 3A.

  It should be noted that every other pixel a, b may be driven in accordance with different video data, or every other number, such as every second or every third. Needless to say, in any case, it is set according to the width of the translucent slit 3a of the parallax barrier (optical system separating element) 3A.

  Incidentally, in the case of single view display, for example, the adjacent pixels a and b of the liquid crystal display panel 3 are driven in accordance with either the first video data or the second video data, and viewers A and B are driven. You can watch the same video.

  Thus, the translucent slit 3a of the parallax barrier (optical system separating element) 3A allows light from the pixel a or the pixel b to be seen in the regions X and Y defined in space by the optical system separating characteristics. It is a thing.

  For this reason, the above-described remote control receivers 6A and 6B are covered with the parallax barrier (optical system separation element) 3A corresponding to the case where every other pixel a and b is driven according to different video data. At this time, the remote control light receiving portions 6a and 6b of the remote control receivers 6A and 6B are set to be approximately the same size as the pixels a and b, and the remote control light receiving portions 6a and 6b are arranged corresponding to the pixels a and b. As shown in FIG. 2, the number of remote control light receiving units 6a and 6b may be one corresponding to the pixels a and b, but a plurality of remote control light receiving units 6a and 6b are arranged corresponding to the pixels a and b. In this case, the light receiving area can be increased and the sensitivity can be increased.

  Thus, when the remote control transmitter 10 is operated in the region X, the remote control signal is received by the remote control light receiving unit 6a of the remote control receiver 6A. On the other hand, when the remote control transmitter 10 is operated in the area Y, the remote control signal is received by the remote control light receiving unit 6b of the remote control receiver 6B.

  When the above-described remote control receivers 6A and 6B are covered with the parallax barrier (optical system separation element) 3A corresponding to the case where every few pixels a and b are driven according to different video data, the remote control The remote control light receiving portions 6a and 6b of the receivers 6A and 6B are approximately the same size as several pixels a and b. Similarly to the above, one or a plurality of remote control light receiving portions 6a and 6b correspond to the pixels a and b. Deploy.

  FIG. 2 shows a case where the remote control light receiving unit 6a of the remote control receiver 6A is associated with the pixel a and the remote control light reception unit 6b of the remote control receiver 6B is associated with the pixel b. The remote control light receiving unit 6a may correspond to the pixel b, and the remote control light receiving unit 6b of the remote control receiver 6B may correspond to the pixel a. In this case, the remote control signal from the viewer A is received by the remote control light receiving unit 6b of the remote control receiver 6B, and the remote control signal from the viewer B is received by the remote control light receiving unit 6a of the remote control receiver 6A. .

  FIG. 3 is a diagram for explaining a control system of the television receiver 1. The control system 1A of the television receiver 1 shown in the figure includes a video processing circuit 2, a video processing control circuit 4, and a reception determination unit 5.

  For example, when dual view display is selected, the video processing circuit 2 decodes the first video data and the second video data, respectively, and the A / of the decoded first video data and second video data. The V signal is output to the liquid crystal display panel 3 to control the display operation of the liquid crystal display panel 3.

  In addition, when the single view display based on either the first video data or the second video data is selected, the video processing circuit 2 performs an A / of the decoded first video data or second video data. The V signal is output to the liquid crystal display panel 3 to control the display operation of the liquid crystal display panel 3.

  When the A / V signal is output to the liquid crystal display panel 3, for example, in the case of a selected digital broadcast signal, the digital broadcast signal is demodulated, and the video, audio, Various data such as video data, audio data, and electronic program guide data are separated and extracted from the transport stream in which the data is multiplexed, and decoding processing such as MPEG2 is performed on the separated and extracted video data and audio data.

  Further, when the display operation of the liquid crystal display panel 3 is controlled, a gate driver (not shown) of the liquid crystal display panel 3 and the like, based on the decoded A / V signal such as the first video data and / or the second video data The source driver is driven. The gate driver applies a scanning voltage for driving a plurality of pixels (not shown) of the liquid crystal display panel 3, and the source driver applies a writing voltage for driving a plurality of pixels (not shown) of the liquid crystal display panel 3.

  The first video data and the second video data may be video data in a digital broadcast signal, or may be video data from a playback device that plays back video, CD, DVD, or the like.

  The video processing control circuit 4 recognizes the first video data or the second video data to be subjected to video processing based on the remote control receiver 6A or 6B determined as having received the remote control signal by the reception determination unit 5, and the video The video processing by the processing circuit 2 is controlled according to the contents of the remote control signal.

  That is, it is assumed that the remote control receiver 6A corresponds to the first video data viewed by the viewer A, the remote control receiver 6B corresponds to the second video data viewed by the viewer B, and the reception determination unit 5 When it is determined that the remote control receiver 6A has received the remote control signal, only the video on the viewer A side can be operated. In addition, when the reception determining unit 5 determines that the remote control receiver 6B has received the remote control signal, only the video on the viewer B side can be operated.

  The reception determination unit 5 determines which of the remote control receiver 6A and the remote control receiver 6B has received the remote control signal.

  That is, when the viewer A operates the remote control transmitter 10 in the region X by the above-described parallax barrier (optical system separation element) 3A, the remote control signal is received by the remote control light receiving unit 6a of the remote control receiver 6A. The reception determining unit 5 determines that the remote control receiver 6A has received the remote control signal.

  On the other hand, when the viewer B operates the remote control transmitter 10 in the region Y, the remote control signal is received by the remote control light receiving unit 6b of the remote control receiver 6B, and the reception determination unit 5 causes the remote control receiver 6B to receive the remote control signal. Is received.

  Next, a display control method by the television receiver 1 will be described. In the following description, it is assumed that the viewer A is located closer to the remote control receiver 6A and the viewer B is located closer to the remote control receiver 6B. Further, in the selection of the display mode, when single view display is selected, a video based on the first video data is displayed. When dual view display is selected, the viewer A becomes the first video data. It is assumed that the viewer views a video based on the second video data.

  First, as shown in FIG. 4, selection of a display mode by the remote control transmitter 10 is determined (step S1). Here, if it is determined that the single view display is selected, the video processing control circuit 4 controls the video processing circuit 2, and the A / V signal of the decoded first video data is output to the liquid crystal display panel 3. (Step S2).

  On the other hand, when it is determined that the dual view display is selected, the video processing circuit 2 controlled by the video processing control circuit 4 decodes the first video data and the second video data, respectively. The A / V signals of the processed first video data and second video data are output to the liquid crystal display panel 3 (step S3).

  At this time, the viewer A can view the video based on the first video data and the viewer B can view the video based on the second video data by the above-described parallax barrier (optical system separation element) 3A. .

  Here, when the viewer A or the viewer B performs remote control operation such as channel selection by the remote control transmitter 10, the remote control signal from the remote control transmitter 10 is caused by the optical system separation characteristics of the parallax barrier (optical system separation element) 3A. Then, it is received by the remote control light receiving unit 6a of the remote control receiver 6A or the remote control light receiving unit 6b of the remote control receiver 6B (step S4).

  That is, for example, if the viewer A performs a remote control operation such as channel selection by the remote control transmitter 10, the remote control signal from the remote control transmitter 10 is received by the remote control due to the optical system separation characteristics of the parallax barrier (optical system separation element) 3A. Is received by the remote control light receiving unit 6a of the device 6A. On the other hand, if the viewer B performs a remote control operation such as channel selection by the remote control transmitter 10 in the region Y, the remote control signal from the remote control transmitter 10 is caused by the optical system separation characteristics of the parallax barrier (optical system separation element) 3A. Received by the remote control light receiving unit 6b of the remote control receiver 6B.

  When it is determined by the reception determination unit 5 that either the remote control receiver 6A or the remote control receiver 6B has received the remote control signal (step S5), the video processing control circuit 4 displays the determination result from the reception determination unit 5 as a result. Based on this, the remote control signal is recognized as a channel selection operation corresponding to the first video data viewed by the viewer A or the second video data viewed by the viewer B, and the video processing circuit 2 On the other hand, a video process such as channel selection for the first video data or the second video data is instructed (step S6).

  As described above, in this embodiment, the remote control signal corresponding to the viewing position is transmitted to either the remote control receiver 6A or the remote control receiver 6B by the parallax barrier (optical system separation element) 3A that enables single view display or dual view display. If the reception determination unit 5 determines which of the remote control receiver 6A and the remote control receiver 6B has received the remote control signal, the video processing control circuit 4 performs video processing based on the determination result. Since the video processing related to the first video data or the second video data by the circuit 2 is controlled in accordance with the content of the remote control signal, the video on the viewer side who performed the remote control operation with the single remote control transmitter 10 Remote control related to

  In this embodiment, since the liquid crystal display panel 3 and the remote control receivers 6A and 6B are covered with the parallax barrier (optical system separation element) 3A, the parallax barrier (optical system separation) normally used for the liquid crystal display panel 3 is used. The element 3A can be used for reception control of a remote control signal corresponding to the viewing position in the remote control receiver 6A or 6B.

  In the present embodiment, the case where the liquid crystal display panel 3 and the remote control receivers 6A and 6B are covered with the parallax barrier (optical system separation element) 3A has been described. However, the present invention is not limited to this example. As described above, the remote control receiver 6A and the remote control receiver 6B may be individually covered with the parallax barriers (optical system separation elements) 3B and 3C that are separate from the parallax barrier (optical system separation elements) 3A.

  In this case, the width of the translucent slit of the parallax barrier (optical system separation element) 3B can be formed different from the width of the translucent slit 3a of the parallax barrier (optical system separation element) 3A. The remote control light receiving portions 6a and 6b of the remote control receivers 6A and 6B can be arbitrarily sized. Further, since the parallax barriers (optical system separation elements) 3B and 3C are separate from the parallax barrier (optical system separation elements) 3A, there is an effect of increasing the degree of freedom in the arrangement of the parallax barriers (optical system separation elements) 3B and 3C. .

  Further, the remote control receivers 6A and 6B and the parallax barriers (optical system separation elements) 3B and 3C are not limited to the lower part of the liquid crystal display panel 3 but are disposed above the liquid crystal display panel 3 as shown in FIG. Or may be arranged on the left and right sides of the liquid crystal display panel 3. Further, the remote control receivers 6A and 6B and the parallax barriers (optical system separating elements) 3B and 3C may be arranged separately from the liquid crystal display panel 3.

  Any video can be displayed as long as the video is displayed, and the present invention is not limited to the television receiver, and can be applied to system devices such as a PDA, a notebook computer, and a mobile television.

It is a figure for demonstrating one Example at the time of applying the display control apparatus of this invention to a television receiver. It is a figure for demonstrating the detail of the parallax barrier (optical system isolation | separation element) of FIG. It is a figure for demonstrating the control system of the television receiver of FIG. 3 is a flowchart for explaining a display control method in the television receiver of FIG. 1. It is a figure for demonstrating the other Example at the time of providing separately the parallax barrier (optical system isolation | separation element) of FIG. 1 in a remote control receiver.

Explanation of symbols

1 Video display device 1A Control system 2 Video processing circuit (video processing means)
3 Liquid crystal display panel (display means)
3A, 3B, 3C Parallax barrier (optical system separation element)
3a Translucent slit 3b Opaque area 4 Video processing control circuit (video processing control means)
5 Reception discrimination unit (discrimination means)
6A Remote control receiver (first receiving means)
6B Remote control receiver (second receiving means)
6a, 6b Remote control light receiver 10 Remote control transmitter

Claims (6)

A display control device that performs display control of a video displayed on a display unit based on a remote control signal,
Video processing means for performing dual view display based on the first video data and the second video data;
First receiving means for receiving a remote control signal related to the video processing corresponding to the first video data;
Second receiving means for receiving a remote control signal related to the video processing corresponding to the second video data;
A parallax barrier that covers the first receiving means and the second receiving means, and causes the first receiving means or the second receiving means to receive the remote control signal corresponding to a viewing position;
Discriminating means for discriminating which of the first and second receiving means has received the remote control signal;
Video processing control means for controlling the video processing related to the first video data or the second video data by the video processing means according to the content of the remote control signal based on the discrimination result by the discrimination means. A display control device.   The display control apparatus according to claim 1, wherein the parallax barrier is provided so as to cover the display unit, the first receiving unit, and the second receiving unit.     The display control apparatus according to claim 1, wherein the parallax barrier is provided so as to individually cover the first receiving unit and the second receiving unit.   The first receiving means and the second receiving means are arranged in accordance with a width of a translucent slit of the parallax barrier and have a receiving unit for receiving the remote control signal. Item 4. The display control device according to any one of Items 1 to 3.   An image display device comprising the display control device according to claim 1. A display control method for performing video display control based on a remote control signal,
Performing dual view display based on the first video data and the second video data;
Receiving a remote control signal related to the first video data and related to video processing by a first receiving means;
Receiving a remote control signal associated with the second video data and related to video processing by a second receiving means;
Determining which of the first and second receiving means has received the remote control signal through a parallax barrier covering the first and second receiving means;
And a step of controlling video processing relating to the first video data or the second video data in accordance with the content of the remote control signal based on the determination result.

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