JP2012231533A - Electronic apparatus, display control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize an electronic apparatus capable of preventing a phenomenon in which a picture of video contents is not correctly displayed from occurring.SOLUTION: According to one embodiment, display control means displays individual frame images of video contents data of an object to be displayed in a two dimensional display mode, and displays a three dimensional video by using images on two regions in the individual frame images of the video contents data of the object to be displayed as a left-eye image and a right-eye image in a first three dimensional display mode. In a case where a switching request to switch the video contents data of the object to be displayed to another video contents data occurs during a period in which the display control means displays the video contents data of the object to be displayed in the first three dimensional display mode, display mode change means changes a display mode of the display control means from the first three dimensional display mode to the two dimensional video display mode.

Description

  Embodiments described herein relate generally to an electronic device that reproduces 3D video content, a display control method and a program applied to the device.

  In recent years, various electronic devices such as personal computers and TVs have been developed that have a function for displaying 3D video (3D video). 3D video display technology includes 2D / 3D display technology for displaying 3D video using 2D / 3D conversion (2D to 3D conversion) for converting 2D (2D) video to 3D video, and 3D video corresponding to 3D video data. 3D video display technology for displaying is known.

  At present, most broadcast contents such as TV broadcast programs are 2D contents. The 2D / 3D display mode, which is a 3D display mode using 2D / 3D display technology, is used to display 3D video corresponding to such 2D content.

  3D content such as 3D broadcast programs have a 3D video format such as a side-by-side format or a top-and-bottom format. The 3D video display mode, which is a 3D display mode using the 3D video display technology, can display 3D video corresponding to 3D content in such a 3D video format.

  Recently, a technique for automatically adjusting the level of depth (depth) estimated by 2D to 3D conversion has also been developed.

JP 2011-4036 A

  As described above, the 3D video display mode using the 3D video display technology is assumed to be applied to 3D video data in the 3D video format. If the content to be displayed is switched to normal 2D video content while using the 3D video display mode, there is a possibility that the picture of each frame in the 2D video cannot be displayed correctly.

  An object of the present invention is to provide an electronic device, a display control method, and a program that can prevent the occurrence of a phenomenon that a picture of video content is not displayed correctly.

  According to the embodiment, the electronic device includes display control means and control means. The display control means displays a frame image of the video content data to be displayed in the 2D display mode, and converts the 2D video data to the 3D video data for the video content data to be displayed in the 3D display mode. Control is performed so as to display an image obtained by performing a conversion process for converting into a video. The control means generates a switching request for switching the video content data to be displayed to other video content data while the display control means is displaying the video content data to be displayed in the 3D display mode. In this case, the display mode of the display control means is maintained in the three-dimensional display mode so that the video obtained by performing the conversion process on the other video content data is displayed.

FIG. 2 is a perspective view illustrating an appearance of the electronic apparatus according to the embodiment. 2 is an exemplary block diagram showing the system configuration of the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing an example of a display screen displayed by the electronic apparatus of the embodiment. FIG. 4 is an exemplary view showing an example of a 3D function setting screen displayed by the electronic apparatus of the embodiment. FIG. FIG. 6 is an exemplary view showing a display image corresponding to 2D video data which is displayed in the 2D / 3D display mode by the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing a display image corresponding to 3D video data which is displayed during the 3D video display mode by the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing a display image corresponding to 2D video data which is displayed during the 2D display mode by the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing a display image corresponding to 3D video data which is displayed during the 2D display mode by the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing a display image corresponding to 2D video data displayed in the 3D video display mode by the electronic apparatus of the embodiment. FIG. 6 is an exemplary view showing a display image corresponding to 3D video data which is displayed in the 2D / 3D display mode by the electronic apparatus of the embodiment. 2 is an exemplary block diagram showing a configuration example of a video content reproduction program executed by the electronic apparatus of the embodiment. FIG. 12 is a flowchart for explaining a procedure of display mode switching processing between a 2D display mode and a 3D display mode (2D / 3D display mode or 3D video display mode) executed by the video content reproduction program of FIG. 11. 12 is a flowchart for explaining a procedure of display mode automatic switching processing that is executed at the time of channel switching by the video content reproduction program of FIG. 11. 12 is a flowchart for explaining another procedure of display mode automatic switching processing executed when the channel is switched by the video content reproduction program of FIG. 11.

Hereinafter, embodiments will be described with reference to the drawings.
FIG. 1 is a perspective view illustrating an external appearance of an electronic apparatus according to an embodiment. This electronic apparatus is realized as, for example, a notebook type personal computer 1. The electronic device is realized as a television receiver (TV), a recorder for storing video data (for example, a hard disk recorder, a DVD recorder), a tablet PC, a slate PC, a PDA, a car navigation device, a smartphone, and the like. obtain.

As shown in FIG. 1, the computer 1 includes a computer main body 2 and a display unit 3.
A three-dimensional display (3D display) 15 is incorporated in the display unit 3. The display unit 3 is attached to the computer main body 2 so as to be rotatable between an open position where the upper surface of the computer main body 2 is exposed and a closed position covering the upper surface of the computer main body 2. The 3D display 15 includes an LCD (liquid crystal display) 15A and a lens unit 15B. The lens unit 15B is fitted on the LCD 15A. The lens unit 15B includes a plurality of lens mechanisms for emitting a plurality of light beams corresponding to a plurality of pixels included in an image displayed on the LCD 15A in predetermined directions. The lens unit 15B is, for example, a liquid crystal GRIN (gradient index) lens that can electrically switch functions necessary for 3D image display. In the liquid crystal GRIN lens, for example, a designated area in the screen can be set as a 3D video display area and another area can be set as a 2D video area. In the 3D video display area, the 3D video display is performed so that the 3D video including the video for the left eye and the video for the right eye displayed in that area has a parallax according to the interocular distance, viewing distance, etc. The refractive index of each lens mechanism corresponding to the region is changed. The operation of each lens mechanism corresponding to the 2D video display area is turned off, and the 2D video displayed in the 2D video display area is displayed without being refracted.

  The 3D display 15 displays a 3D video in which the left-eye video and the right-eye image are combined on the 3D video display area, and displays the 2D video on the 2D video display area. Therefore, the user can perceive 3D video when viewing the 3D video display area in the screen, and can perceive 2D video when viewing the 2D video display area.

  Instead of using a 3D display, a 2D display such as a normal LCD may be used. In this case, for example, a shutter method (also referred to as a time division method) may be used to display the 3D video. In shutter-type 3D video display, stereo pair video including left-eye video data and right-eye video data is used. The display 15 is driven at a refresh rate (for example, 120 Hz) that is twice the normal refresh rate (for example, 60 Hz), for example. The left-eye frame data in the left-eye video data and the right-eye frame data in the right-eye video data are alternately displayed on the LCD 15 at a refresh rate of 120 Hz, for example. For example, by using 3D glasses (not shown) such as liquid crystal shutter glasses, the user views an image corresponding to the left eye frame with the left eye and an image corresponding to the right eye frame with the right eye. Can do. The 3D glasses may be configured to receive a synchronization signal indicating the display timing of the left eye frame data and the right eye frame data from the computer 1 using infrared rays or the like. The left-eye shutter and right-eye shutter in the 3D glass are opened and closed in synchronization with the display timings of the left-eye and right-eye frame data on the LCD 15.

  Instead, for example, a polarization method such as an Xpol (registered trademark) method may be used to display a three-dimensional image. In this case, for example, an interleaved frame group in which the left-eye image and the right-eye image are interleaved in units of scanning lines, for example, is generated, and these interleaved frame groups are displayed on the LCD 15. The deflection filter that covers the screen of the LCD 15 polarizes, for example, the left-eye image displayed on the odd-numbered line group and the right-eye image displayed on the even-numbered line group on the LCD 15 in different directions. By using the deflection glasses, the user can view the left-eye image with the left eye and the right-eye image with the right eye.

  The computer main body 2 has a thin box-shaped housing. On the top surface thereof, a keyboard 26, a power button 28 for powering on / off the computer 1, an input operation panel 29, a pointing device 27, Speakers 18A, 18B, etc. are arranged. Various operation buttons are provided on the input operation panel 29. These button groups also include operation button groups for controlling TV functions (viewing, recording, and reproduction of recorded broadcast program data / video data).

  On the right side of the computer body 2, for example, an antenna terminal 30A for TV broadcasting is provided. Further, an external display connection terminal corresponding to, for example, the HDMI (high-definition multimedia interface) standard is provided on the back surface of the computer main body 2, for example. The external display connection terminal is used to output video data (moving image data) included in video content data such as broadcast program data to an external display.

FIG. 2 is a diagram showing a system configuration of the computer 1.
As shown in FIG. 2, the computer 1 includes a CPU 11, a north bridge 12, a main memory 13, a display controller 14, a video memory (VRAM) 14A, a 3D display 15, a south bridge 16, a sound controller 17, speakers 18A and 18B, BIOS-ROM 19, LAN controller 20, hard disk drive (HDD) 21, optical disk drive (ODD) 22, wireless LAN controller 23, USB controller 24, embedded controller / keyboard controller (EC / KBC) 25, keyboard (KB) 26, pointing A device 27, a TV tuner 30, and the like are provided.

  The CPU 11 is a processor that controls the operation of the computer 1. The CPU 11 executes an operating system (OS) 13 </ b> A and application programs that are loaded from the HDD 21 to the main memory 13. The application program includes a video content reproduction program 13B. The video content reproduction program 13B is software having a function for viewing video content data. The video content reproduction program 13B is a live reproduction process for viewing broadcast program data received by the TV tuner 30, a recording process for recording the received broadcast program data in the HDD 21, and a video content data ( (Broadcast program data, video title, etc.) is reproduced, and reproduction processing is performed to reproduce video content data received via the network. The video content reproduction program 13B can also reproduce video content data stored in a storage medium such as a DVD.

  Furthermore, the video content reproduction program 13B also has a function for displaying a 3D video (3D video). The video content reproduction program 13B has a 2D display mode (2D display mode) and two 3D video display modes (3D display mode).

  The 2D display mode is a display mode for displaying a 2D video corresponding to normal 2D video data on the display 15. In the 2D display mode, the video content reproduction program 13B displays each frame image of the video content data to be displayed on the display 15. The 3D display mode includes a 3D video display mode and a 2D / 3D (2D to 3D) display mode.

  The 3D video display mode is a 3D display mode for displaying a 3D video corresponding to 3D video data in a 3D format. As the 3D video data in the 3D format, for example, a 3D video format such as a side-by-side format or a top-and-bottom format is used. In the 3D video display mode, the video content playback program 13B displays a 3D video using images on two regions in each frame image of video content data to be displayed as a left eye image and a right eye image. When the 3D display 15 is used, the images on the two areas in each frame image are combined, and the combined image is displayed in the 3D video display area of the 3D display 15. For example, when the video content data to be displayed is in a side-by-side format, an image on the left half area (left eye image) and an image on the right half area (right eye image) of each frame image are combined. The synthesized image is displayed in the 3D video display area of the 3D display 15.

  When the shutter method is used, for example, an image on the left half area (left eye image) and an image on the right half area (right eye image) of each frame image are alternately displayed. .

  The 2D / 3D (2D to 3D) display mode is a 3D display mode for displaying 3D video by converting 2D video data into 3D video data. In the 2D / 3D (2D to 3D) display mode, the video content playback program 13B displays on the display 15 a 3D video obtained by converting the video content data to be displayed into 3D video data. That is, the video content reproduction program 13B generates a left eye image and a right eye image from each frame image by estimating the depth for each pixel of each frame image of the 2D video data. Then, the video content reproduction program 13B displays a 3D video using the left eye image and right eye image generated from each frame image. When the 3D display 15 is used, the left eye image and the right eye image generated from the respective frame images are combined, and the combined image is displayed in the 3D video display area of the 3D display 15.

  As described above, a 3D display using an autostereoscopic method (for example, an integral imaging method, a lenticular method, a parallax barrier method, etc.) may be used for displaying a three-dimensional image. Instead, a glass method (shutter) is used. Method, polarization method) may be used.

  The CPU 11 also executes a basic input / output system (BIOS) stored in the BIOS-ROM 19. The BIOS is a program for hardware control.

  The north bridge 12 is a bridge device that connects the local bus of the CPU 11 and the south bridge 16. The north bridge 12 also includes a memory controller that controls access to the main memory 13. The north bridge 12 also has a function of executing communication with the display controller 14.

  The display controller 14 is a device that controls the LCD 15 used as a display of the computer 1. A display signal generated by the display controller 14 is sent to the LCD 15. The LCD 15 displays an image based on the display signal.

  The south bridge 16 controls each device on a peripheral component interconnect (PCI) bus and a low pin count (LPC) bus. The south bridge 16 incorporates an IDE (Integrated Drive Electronics) controller for controlling the HDD 21 and ODD 22 and a memory controller for controlling access to the BIOS-ROM 19. Furthermore, the south bridge 16 also has a function of executing communication with the sound controller 17 and the LAN controller 20.

  Further, the south bridge 16 sets the plurality of areas in the lens unit 15B to either one of the 3D video display area and the 2D video display area in response to a request from the video content reproduction program 13B. A control signal for controlling can be output to the lens unit 15B. The lens unit 15B changes the refractive index of the portion in the liquid crystal layer corresponding to each of the plurality of regions, for example, according to the control signal output by the south bridge 16, thereby making the region a 3D video display region. Set to one of the 2D video display areas.

  When the 3D display 15 is configured to display two parallax images, combined image data obtained by combining the left eye image and the right eye image is displayed in the 3D image display area. In this case, in the 3D video display area, for example, a corresponding pixel in the left eye image is arranged at one of two pixel positions adjacent in the horizontal direction, and the right eye image is displayed at the other of the two adjacent pixel positions. Corresponding pixels are arranged. That is, in each horizontal line of the 3D video display area, the left eye image and the right eye image are alternately arranged in units of pixels. Thereby, the 3D video corresponding to the 3D video data is displayed so that the left eye image and the right eye image in the 3D video data are synthesized.

  When using the shutter method, as described above, the left-eye image and the right-eye image may be displayed alternately in units of frames. Thereby, the user can perceive a 3D video in which the left eye image and the right eye image are fused.

  The sound controller 17 is a sound source device and outputs audio data to be reproduced to the speakers 18A and 18B. The LAN controller 20 is, for example, a wired communication device that executes wired communication of the Ethernet (registered trademark) standard, and the wireless LAN controller 23 is a wireless communication device that executes, for example, wireless communication of the IEEE 802.11 standard. The USB controller 24 executes communication with an external device via, for example, a USB 2.0 standard cable.

  The EC / KBC 25 is a one-chip microcomputer in which an embedded controller for performing power management, a keyboard (KB) 26, and a keyboard controller for controlling a pointing device 27 are integrated. The EC / KBC 25 has a function of powering on / off the computer 1 in accordance with a user operation.

  The TV tuner 30 is a receiving device that receives broadcast program data broadcast by a television (TV) broadcast signal, and is connected to the antenna terminal 30A. Of course, the TV tuner 30 may receive a TV broadcast signal using a built-in antenna. The TV tuner 30 is configured to receive a broadcast signal, select a viewing target channel in the broadcast signal, and output broadcast program data of the selected viewing target channel. As the TV tuner 30, for example, a plurality of tuners for receiving broadcast signals corresponding to terrestrial digital broadcasting, BS digital broadcasting, and CS digital broadcasting may be provided. The TV tuner 30 also has a function of capturing video data input from an external device.

  FIG. 3 shows an example of the display screen 40 displayed on the display 15 by the video content reproduction program 13B. On this display screen 40, a video display window 41 for displaying video content data and a control panel 42, which is a GUI for allowing the user to control the operation of the video content playback program 13B, are displayed. Of course, the video display window 41 may be displayed on the display screen in the full screen mode. When the display 15 is a 3D display, a rectangular area on the display screen corresponding to the video display window 41 is set as a 3D video display area, and the other area is set as a 2D video display area. The control panel 42 has a pull-down menu 43 for selecting the type of TV broadcast signal (terrestrial digital broadcast, BS digital broadcast, CS digital broadcast) and the display mode of the video content playback program 13B as a 2D display mode and a 3D display mode. A 3D button 44 for switching between, a channel switching button 45 for switching a channel to be selected by the TV tuner 30, and the like are displayed.

  When the channel switching button 45 is clicked by the user operating the pointing device while displaying certain broadcast program data, the tuner 30 switches the currently selected viewing target channel to another channel. Then, video corresponding to broadcast program data of other channels output from the tuner 30 is displayed on the video display window 41.

  The video content reproduction program 13B can display not only broadcast program data but also various other video content data such as video clips, home movies, and DVD video titles. In this case, a menu showing a list of the video content data may be displayed on the display screen 40. When another video content data on the menu is selected by the user operating the pointing device while the video content data is being displayed, the video content data to be displayed is switched to the selected video content data. Then, the video corresponding to the selected video content data is displayed on the video display window 41.

  When the 3D button 44 is clicked by the user operating the pointing device while the video content playback program 13B is displaying broadcast program data (video content data) in the 2D display mode, the display mode of the video content playback program 13B is The 2D display mode is switched to the 3D display mode (one of the 2D to 3D display mode or the 3D video display mode). Thereby, the 3D video corresponding to the broadcast program data (video content data) is displayed.

  FIG. 4 shows an example of a 3D function setting screen 50 displayed on the display 15 by the video content reproduction program 13B.

  The 3D function setting screen 50 is a setting screen for designating the operation of the video content reproduction program 13B when the 3D button 44 is pressed. On the 3D function setting screen 50, a radio button for allowing the user to specify one of the “2D to 3D display” mode or the “3D video display” mode is displayed.

  Next, individual display modes of the video content reproduction program 13B will be described with reference to FIGS.

  FIG. 5 shows a display image corresponding to 2D video data displayed while the video content reproduction program 13B is in the 2D to 3D display mode. The left side of FIG. 5 shows 2D video data to be displayed, and the right side of FIG. 5 shows a display image on the screen of the display 15.

  In the 2D to 3D display mode, the video content reproduction program 13B estimates the depth value for each pixel of each frame image of the video content data to be displayed, and based on the estimated depth value, a plurality of parallax images, for example, left eye Two parallax images of an image and a right eye image are generated. The video content reproduction program 13B displays a 3D video using the generated left eye image and right eye image.

  More specifically, the video content reproduction program 13B collaborates with the display driver or the like on the screen of the display 15 so that the left eye image and the right eye image are combined so that the left eye image and the right eye image are synthesized. 3D display processing for displaying in the 3D video display area is executed.

  In the 3D display process, for example, 3D image data is generated by combining a left eye image and a right eye image. In 3D image data, for example, left eye images and right eye images are alternately arranged in units of lines in the vertical direction. Then, 3D image data (interleaved image data) in which the left eye image and the right eye image are alternately arranged in units of vertical lines in this way is displayed in the 3D video display area on the screen of the display 15. As a result, the 3D video corresponding to the 3D video data to be displayed is displayed in the 3D video display area of the display 15.

  FIG. 6 shows a display image corresponding to 3D video data displayed while the video content reproduction program 13B is in the 3D video display mode. The left side of FIG. 6 shows 3D video data in 3D format to be displayed. Here, 3D video data in 3D format is assumed to be 3D video data in side-by-side format. Of course, other 3D formats such as top and bottom formats may be used. The right side of FIG. 6 shows a display image on the screen of the display 15.

  In the 3D video display mode, the video content playback program 13B cooperates with a display driver or the like to provide two images (for example, in each frame image) in two areas in each frame image of video content data to be displayed. 3D video is displayed using the left image and the right image as the left eye image and the right eye image.

  More specifically, the video content reproduction program 13B cooperates with the display driver and the like so that the left eye image and the right eye image are combined so that the left image and the right image of each frame image of the video content data are combined. Is displayed in the 3D video display area on the screen of the display 15.

  FIG. 7 shows a display image corresponding to 2D video data displayed while the video content reproduction program 13B is in the 2D display mode. The left side of FIG. 7 shows normal 2D video data to be displayed, and the right side of FIG. 7 shows a display image on the screen of the display 15.

  In the 2D mode, the video content reproduction program 13B does not perform the above-described 3D display processing (reconstruction) on the video content data to be displayed, and sequentially displays the frame images of the video content data to be displayed on the display 15 as they are. 2D display processing (that is, processing for displaying a 2D video corresponding to 2D video data) is performed.

  FIG. 8 shows a display image corresponding to 3D video data displayed while the video content reproduction program 13B is in the 2D display mode. The left side of FIG. 8 shows 3D video data in 3D format to be displayed. Here, 3D video data in 3D format is assumed to be 3D video data in side-by-side format. The right side of FIG. 8 shows a display image on the screen of the display 15.

  As described above, in the 2D mode, the video content reproduction program 13B executes 2D display processing for sequentially displaying the frame images of the video content data to be displayed. Therefore, the left eye image and the right eye image in each frame image in the side-by-side format are displayed on the screen of the display 15 as they are.

  FIG. 9 shows a display image corresponding to 2D video data that is displayed while the video content playback program 13B is in the 3D video display mode. The left side of FIG. 9 shows normal 2D video data to be displayed, and the right side of FIG. 9 shows a display image on the screen of the display 15.

  As described above, in the 3D video display mode, the video content reproduction program 13B uses the left image and the right image in each frame image as the left eye image and the right eye image in cooperation with the display driver. 3D video is displayed. Therefore, if the video content data to be displayed is 2D video data, the left image in each frame image of 2D video data is used as the left eye image, and the right image in each frame image of 2D video data. The image is used as the right eye image. As a result, as shown on the right side of FIG. 9, the composition of the picture of each frame in the 2D video data may be lost, and the picture of each frame may not be displayed correctly. Such a situation may occur, for example, when a switching request for switching the video content data to be displayed to other video content data occurs during the period in which the video content playback program 13B is in the 3D video display mode. is there. This is because most video content data is 2D video content data.

  More specifically, the above-described situation may occur when the user performs an operation for switching channels while enjoying the 3D video corresponding to the 3D video content data using the 3D video display mode. In this case, the video of the broadcast program data of the new channel selected by channel switching cannot be displayed correctly.

  A similar problem may occur when the 3D video display mode is compatible with 3D video content data in the top-and-bottom format. This is because the video content reproduction program 13B treats the upper image in each frame image of 2D video data as a left eye image, and treats the lower image in each frame image of 2D video data as a right eye image. is there.

  Further, the above-described phenomenon that the composition of the picture of each frame in the 2D video data is broken can occur not only when the 3D display is used but also when the shutter method is used, for example. This is because the left image and the right image of each frame in the 2D video data are alternately displayed as a left image and a right image.

  FIG. 10 shows a display image corresponding to 3D video data displayed while the video content reproduction program 13B is in the 2D to 3D display mode. The left side of FIG. 10 shows 3D video data in a 3D format to be displayed. Here, 3D video data in 3D format is assumed to be 3D video data in side-by-side format. The right side of FIG. 10 shows a display image on the screen of the display 15.

  As described above, in the 2D to 3D display mode, the video content reproduction program 13B estimates the depth value for each pixel of each frame image of the video content data to be displayed, and based on the estimated depth value, Two parallax images with the right eye image are generated. The video content reproduction program 13B performs 3D display processing for displaying a 3D video in the 3D video display area on the screen of the display 15 using the left eye image and the right eye image in cooperation with the display driver. Run. Therefore, when the 3D video data in the side-by-side format is processed in the 2D to 3D display mode, 3D video corresponding to the entire frame image of the 3D video data is displayed on the screen of the display 15. In other words, the left eye image and the right eye image in the 3D video data are each displayed as a 3D video. However, unlike the case of FIG. 9, the composition of the picture in each frame does not collapse.

  Such a situation may occur, for example, when a switching request for switching the video content data to be displayed to other video content data occurs during the period in which the video content playback program 13B is in the 3D video display mode. is there. However, since most video content data is 2D video content data, the probability that the situation of FIG. 10 will occur is low.

  The video content reproduction program 13B of this embodiment has a display mode change function in order to prevent the phenomenon that the picture of the video content is not displayed correctly.

  This display mode changing function changes the current display mode of the video content playback program 13B to 2D when a video content switching request such as a channel switching request is generated during the period in which video data is displayed in the 3D video display mode. Switch to display mode automatically. As a result, even if the video content data to be displayed is switched from 3D video content data to normal 2D video content data by channel switching, it is possible to prevent a situation in which the picture of the video content data to be displayed cannot be displayed correctly. can do.

  In addition, if a video content switching request such as a channel switching request is generated during a period in which video data is displayed in the 2D to 3D display mode, the video content playback program 13B changes the current display mode to the 2D to 3D display mode. maintain. Since most broadcast program data is 2D video data, by maintaining the 2D to 3D display mode, 3D video corresponding to the broadcast program data to be switched to can be correctly displayed.

  Even if the broadcast program data to be switched to is 3D video data, each of the left eye image and right eye image in the 3D video data is only displayed as 3D video, as described with reference to FIG. The picture itself will not collapse. Therefore, it is effective to maintain the current 2D to 3D display mode when a video content switching request such as a channel switching request occurs during a period in which video data is displayed in the 2D to 3D display mode.

  FIG. 11 is a block diagram illustrating an example of a functional configuration of the video content reproduction program 13B.

  The video content playback program 13B has a video playback function for playing back video content data such as broadcast program data as 3D video or 2D video. The video content reproduction program 13B includes a control unit 501, a selection unit 502, a 2D to 3D display control unit 503, a 3D video display control unit 504, a 2D display control unit 505, a caption display control unit 506, a synthesis unit 507, and the like.

  The control unit 501 transmits a channel switching command to the TV tuner 30 according to the operation of the channel switching button 45 or the like by the user. In addition, the control unit 501 transmits a broadcast wave switching command to the TV tuner 30 according to the operation of the pull-down menu 43 by the user. Furthermore, the control unit 501 controls the selection unit 502 to execute processing for switching the display mode between the 2D to 3D display mode, the 3D video display mode, and the 2D display mode. The control unit 501 can function as a display mode changing unit for executing the above-described display mode changing function.

  The selection unit 502 selects one of the 2D to 3D display control unit 503, the 3D video display control unit 504, and the 2D display control unit 505 under the control of the control unit 501. Then, the selection unit 502 transmits the broadcast program data (video content data) output from the TV tuner 30 to any one display control unit selected from the 2D to 3D display control unit 503 and the 3D video display control unit 504. .

  The 2D to 3D display control unit 503 is a display control unit for displaying video content data in the 2D to 3D display mode described above. The 3D video display control unit 504 is a display control unit for displaying video content data in the 3D video display mode described above. The 2D display control unit 505 is a display control unit for displaying video content data in the 2D video display mode described above.

  The subtitle display control unit 506 executes processing for displaying video corresponding to subtitle data included in the broadcast program data (video content data). The synthesizing unit 507 includes video data output from any one of the 2D to 3D display control unit 503, the 3D video display control unit 504, and the 2D display control unit 505, subtitle video data output from the subtitle display control unit 506, and To generate output video data synthesized.

  Next, display mode switching processing executed by the video content reproduction program 13B will be described with reference to the flowchart of FIG. This display mode switching process is executed in response to the pressing operation of the 3D button 44 described above.

  When the 3D button 44 is pressed by the user (YES in step S11), the control unit 501 of the video content reproduction program 13B determines whether the current display mode is the 2D display mode or the 3D display mode (2D to 3D display mode or 3D video). It is determined whether the display mode is selected (steps S12 and S14).

  If the current display mode is the 2D display mode, that is, if 2D video is being displayed (YES in step S12), the control unit 501 changes the current display mode to the 3D display mode preset by the user. Change to (one of 2D to 3D display mode or 3D video display mode) (step S13). In this case, the control unit 501 controls the selection unit 502 to change the display control unit to process video data from the 2D display control unit 505 to the 2D to 3D display control unit 503 or the 3D video display control unit 504.

  On the other hand, if the current display mode is the 3D display mode, that is, if 3D video is being displayed (YES in step S14), the control unit 501 changes the current display mode to the 2D display mode ( Step S15). In this case, the control unit 501 controls the selection unit 502 to change the display control unit to process video data from the 2D to 3D display control unit 503 or the 3D video display control unit 504 to the 2D display control unit 505.

  Next, a display mode change process executed by the video content reproduction program 13B at the time of channel switching will be described with reference to the flowchart of FIG.

  When a channel switching request is generated in response to the user's operation of the channel switching button 45 or the like, the control unit 501 of the video content reproduction program 13B transmits a channel switching command for designating a switching destination channel to the TV tuner 30. In parallel with such channel switching processing or immediately after the channel switching processing is executed, the control unit 501 executes the following processing.

  The control unit 501 determines whether the current display mode is the 2D display mode or the 3D display mode (2D to 3D display mode or 3D video display mode). If the 3D display mode is selected, the 3D display mode is the 2D to 3D display mode. Alternatively, it is determined whether the display mode is the 3D video display mode. When the 3D display mode is the 3D video display mode, the control unit 501 changes the current display mode to the 2D display mode.

  That is, after transmitting the channel switching command to the TV tuner 30, the control unit 501 first determines whether or not the current display mode is the 2D to 3D display mode (step S21). If the current display mode is the 2D to 3D display mode, that is, if the video data is being displayed in the 2D to 3D display mode (YES in step S21), the control unit 501 ends the process.

  If the current display mode is not the 2D to 3D display mode (NO in step S21), the control unit 501 determines whether or not the current display mode is the 3D video display mode (step S22). If the current display mode is the 3D video display mode, that is, if the video data is being displayed in the 3D video display mode (YES in step S22), the control unit 501 changes the current display mode to the 2D display mode. (Step S23). In step S23, the control unit 501 turns off the lens unit 15B and controls the selection unit 502 to select the 2D display control unit 505.

  If the current display mode is not the 3D video display mode, that is, if the video data is being displayed in the 2D display mode (NO in step S22), the control unit 501 ends the process.

  Next, another example of the display mode changing process executed by the video content reproduction program 13B at the time of channel switching will be described with reference to the flowchart of FIG.

  Here, processing for determining whether or not the broadcast program data of the switching destination channel is 3D video data in the 3D format by the identifier added to the broadcasting program data of the switching destination channel is added.

  When a channel switching request is generated in response to the user's operation of the channel switching button 45 or the like, the control unit 501 of the video content reproduction program 13B transmits a channel switching command for designating a switching destination channel to the TV tuner 30. In parallel with such channel switching processing or immediately after the channel switching processing is executed, the control unit 501 executes the following processing.

  First, the control unit 501 determines whether or not the current display mode is the 2D to 3D display mode (step S31). If the current display mode is the 2D to 3D display mode, that is, if the video data is being displayed in the 2D to 3D display mode (YES in step S31), the control unit 501 determines the switching destination channel output from the tuner 30. With reference to the identifier added to the broadcast program data, it is determined whether or not the broadcast program data of the switching destination channel is 3D video data in 3D format (step S32).

  If the broadcast program data of the switching destination channel is 3D video data in 3D format, that is, if the switching destination channel is broadcasting a 3D program (YES in step S32), the control unit 501 displays the current display. The mode is changed to the 3D video display mode (step S33). In step S33, the control unit 501 controls the selection unit 502 to select the 3D video display control unit 504. This makes it possible to use a 3D display mode suitable for the type of broadcast program data of the switching destination channel.

  If the broadcast program data of the switching destination channel is not 3D video data in 3D format (NO in step S32), the control unit 501 ends the process.

  If the current display mode is not the 2D to 3D display mode (NO in step S31), the control unit 501 determines whether or not the current display mode is the 3D video display mode (step S34). If the current display mode is the 3D video display mode, that is, if the video data is being displayed in the 3D video display mode (YES in step S34), the control unit 501 selects the switching destination channel output from the tuner 30. With reference to the identifier added to the broadcast program data, it is determined whether or not the broadcast program data of the switching destination channel is 3D video data in 3D format (step S35).

  If the broadcast program data of the switching destination channel is not 3D video data in 3D format, that is, if the switching destination channel is not broadcasting a 3D program (NO in step S35), the control unit 501 changes the current display mode. The mode is changed to the 2D display mode (step S36). In step S36, the control unit 501 turns off the lens unit 15B and controls the selection unit 502 to select the 2D display control unit 505.

  If the current display mode is not the 3D video display mode, that is, if the video data is being displayed in the 2D display mode (NO in step S34), the control unit 501 ends the process.

  If the broadcast program data of the switching destination channel is 3D video data in 3D format (YES in step S35), the control unit 501 ends the process to continue the display process using the 3D video display mode. To do.

  Note that the display mode changing process described with reference to the flowcharts of FIGS. 13 and 14 is performed not only when a channel switching operation is performed by the user, but also by video data (video clip, home movie, DVD video title, etc.) to be displayed by the user. ) May also be executed when an operation for switching is performed. Whether or not the video data to be displayed is 3D video data in the 3D format may be determined with reference to an identifier added to the video data to be displayed.

  As described above, according to the present embodiment, when a content switching request such as a channel switching request occurs during a period in which video content data is displayed in the 3D video display mode, the display mode is 3D video. The display mode is automatically changed to the 2D mode. Therefore, it is possible to prevent the phenomenon that the picture of the video content is not displayed correctly.

  Note that the display control processing procedure of the present embodiment can be executed by software. For this reason, the same effect as that of the present embodiment can be easily realized simply by installing and executing this program on a normal computer through a computer-readable storage medium storing the program for executing the display control processing procedure. be able to.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  13B ... Video content playback program, 15 ... 3D display, 15A ... LCD, 15B ... Lens unit, 30 ... Tuner, 501 ... Control unit, 502 ... Selection unit.

Claims (9)

In the 2D display mode, a frame image of the video content data to be displayed is displayed, and in the 3D display mode, conversion for converting the 2D video data into 3D video data for the video content data to be displayed Display control means for controlling to display video obtained by performing processing;
When a switching request for switching the display target video content data to another video content data occurs during the period in which the display control means is displaying the display target video content data in the three-dimensional display mode, the other An electronic apparatus comprising: control means for maintaining the display mode of the display control means in the three-dimensional display mode so that a video obtained by performing the conversion process on the video content data is displayed. A tuner that receives a broadcast signal and outputs broadcast program data of a viewing target channel in the broadcast signal;
The display target video content data is broadcast program data of the viewing target channel output from the tuner,
When the channel switching request for switching the viewing target channel to another channel occurs during the period in which the display control means is displaying the broadcast program data of the viewing target channel in the three-dimensional display mode, The electronic apparatus according to claim 1, wherein the display device is configured to maintain a display mode of the display control unit in the three-dimensional display mode. In the 2D display mode, a frame image of video content data to be displayed is displayed. In the 3D display mode, a 3D video is displayed using the first and second parallax images included in the video content data to be displayed. Display control means for controlling the display;
During the period in which the display control means is displaying the video content data to be displayed in the three-dimensional display mode, a switching request for switching the video content data to be displayed to other video content data is generated. An electronic apparatus comprising: control means for maintaining the display mode of the display control means in the 3D display mode when the video content data is 3D video data in a 3D format.   4. The electronic apparatus according to claim 3, wherein the control unit determines whether the other video content data is 3D video data in the 3D format based on an identifier of the other video content data. A tuner that receives a broadcast signal and outputs broadcast program data of a viewing target channel in the broadcast signal;
The display target video content data is broadcast program data of the viewing target channel output from the tuner,
The control means generates a channel switching request for switching the viewing target channel to another channel during a period in which the display control means displays the broadcast program data of the viewing target channel in the three-dimensional display mode, 4. The electronic apparatus according to claim 3, wherein when the broadcast program data of another channel is 3D video data in the 3D format, the display mode of the display control means is maintained in the 3D display mode. A display control method for displaying video content data,
When the display mode is the 2D display mode, the frame image of the video content data to be displayed is displayed,
When the display mode is a 3D display mode, control is performed to display a video obtained by performing conversion processing for converting 2D video data to 3D video data on the video content data to be displayed. And
When a switching request for switching the video content data to be displayed to other video content data occurs during the period in which the display mode is the 3D display mode, the conversion processing is performed on the other video content data. A display control method for maintaining the display mode in the three-dimensional display mode so that an image obtained by this is displayed. A display control method for displaying video content data,
When the display mode is the 2D display mode, the frame image of the video content data to be displayed is displayed,
When the display mode is a 3D display mode, control to display a 3D video using the first and second parallax images included in the video content data to be displayed,
During the period when the display mode is the 3D display mode, a switching request for switching the video content data to be displayed to other video content data is generated, and the other video content data is 3D video data in a 3D format. A display control method for maintaining the display mode in the three-dimensional display mode. When the display mode is a two-dimensional display mode, a procedure for displaying a frame image of video content data to be displayed;
When the display mode is a 3D display mode, control is performed to display a video obtained by performing conversion processing for converting 2D video data to 3D video data on the video content data to be displayed. And the steps to
When a switching request for switching the video content data to be displayed to other video content data occurs during the period in which the display mode is the 3D display mode, the conversion processing is performed on the other video content data. A program for causing a computer to execute a procedure for maintaining the display mode in the three-dimensional display mode so that an image obtained by the display can be displayed. When the display mode is a two-dimensional display mode, a procedure for displaying a frame image of video content data to be displayed;
When the display mode is a 3D display mode, a procedure for controlling to display a 3D video using the first and second parallax images included in the video content data to be displayed;
During the period when the display mode is the 3D display mode, a switching request for switching the video content data to be displayed to other video content data is generated, and the other video content data is 3D video data in a 3D format. If so, a program for causing a computer to execute a procedure for maintaining the display mode in the three-dimensional display mode.

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