JP2004304478A - Video reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video reproducing apparatus which causes less information deterioration in sub video data in the case of displaying video data for high definition TV onto a monitor of a standard TV. <P>SOLUTION: A main video decoder section 53 decodes main video data and outputs a main video signal, a first sub video decoder section 542 decodes the sub video data for the high definition TV and outputs a sub video signal for the high definition TV, a second sub video decoder section 543 decodes the sub video data for standard TV and outputs a sub video signal for the standard TV, and selectors 546, 547 select whether the sub video signal for the high definition TV outputted from the first sub video decoder section 543 is superimposed on the main video signal outputted from the main video decoder section 542, or the sub video signal for the standard TV outputted from the second sub video decoder section is superimposed on the main video signal outputted from the main video decoder section. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video playback device and a video playback method for a moving image or a still image, and more particularly to a video playback device that can output sub-video data together with main video data to a monitor device.
[0002]
[Prior art]
In recent years, DVD players for reproducing video information recorded on a DVD (Digital Versatile Disk) as a recording medium have been widely used. The DVD stores main video data, sub-video data, and audio data multiplexed in accordance with the program stream specification defined by the MPEG2 standard, and the DVD player separates each multiplexed data with a separator. The main video data is processed by a main video decoder, the sub video data is processed by a sub video decoder, and the audio data is decoded by an audio decoder and output to a monitor and a speaker (for example, see Patent Document 1).
[0003]
This conventional DVD and DVD player can store only standard TV content having 720 pixels × 480 dots and a frame frequency of 29.97 Hz (interlace) or 720 dots × 480 dots and a frame frequency of 59.94 Hz (progressive). Although it was handled recently, the number of pixels is 1920 dots × 1080 dots, the frame frequency is 29.97 Hz (interlace), or the number of pixels is 1280 dots × 720 dots, and the frame frequency is 59.94 Hz (progressive), which has the same image quality as digital high definition television recently DVDs and DVD players that handle high-definition TV content have been considered (for example, see Patent Document 2).
[0004]
[Patent Document 1]
JP-A-2002-91409 (Pages 3 to 6, FIG. 1)
[Patent Document 2]
JP-A-2002-170361 (pages 4 to 7, FIG. 1)
[0005]
[Problems to be solved by the invention]
According to the techniques disclosed in Patent Literature 1 and Patent Literature 2 described above, when outputting video data of a DVD in which content created for a high-definition television is recorded to a standard television, a high-definition TV After mixing the main video data and the sub video data, the video data is down-converted and converted into video data for standard TV.
However, if down-conversion processing is performed after mixing the main video data and the sub-video data, the sub-video information will be significantly degraded compared to the main video displayed on the TV monitor, and character information such as subtitles will be blurred. There was a point.
[0006]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a video reproducing apparatus in which information degradation of sub-video data is small when displaying video data for a high definition TV on a monitor device for a standard TV.
[0007]
[Means for Solving the Problems]
The video reproducing apparatus of the present invention decodes main video data and outputs a main video signal, and decodes high definition TV sub video data and outputs a high definition TV sub video signal. A first sub-video decoder, a second sub-video decoder for decoding standard TV sub-video data and outputting a standard TV sub-video signal, and a first sub-video decoder for outputting a main video signal output from the main video decoder; And a selector unit for selecting whether to superimpose the high-definition TV sub-video signal output from the sub-video decoder unit or the standard TV sub-video signal output from the second sub-video decoder unit. I have.
[0008]
Further, the video reproducing apparatus of the present invention comprises a main video decoder for decoding main video data for high-definition TV and outputting a main video signal for high-definition TV, and a high-definition video decoded by the main video decoder. A first scaler unit for down-converting a TV main video signal to generate a standard TV main video signal, and a sub-scaler for decoding high-definition TV sub-video data and outputting a high-definition TV sub-video signal A video decoder unit, a second scaler unit for down-converting the high definition TV sub video signal decoded by the sub video decoder unit to generate a standard TV sub video signal, and a high scale video signal decoded by the main video decoder unit. A first mixing unit for mixing and outputting the high-definition TV main video signal and the high-definition TV sub-video signal decoded by the sub-video decoder unit, and a standard generated by the first scaler unit And a second mixing unit for mixing and outputting the standard TV for the sub picture signal scaler main video signal and the second V-formed.
[0009]
Further, the video reproducing apparatus of the present invention comprises a main video decoder for decoding main video data for high-definition TV and outputting a main video signal for high-definition TV, and a high-definition video decoded by the main video decoder. A first scaler unit for down-converting the TV main video signal to generate a standard TV main video signal, and a sub-video decoder unit for decoding the standard TV sub-video data and outputting the standard TV sub-video signal A second scaler unit for up-converting a standard TV sub-video signal decoded by the sub-video decoder unit to generate a high-definition TV sub-video signal, and a high-definition TV decoded by the main video decoder unit. A first mixing unit that mixes and outputs a main video signal and a high-definition TV sub-video signal generated by a second scaler unit; and a standard TV main video generated by the first scaler unit. No. and sub-picture decoder section and a second mixing unit for outputting mixes a sub picture signal for a standard TV of decoding.
[0010]
Further, the video reproducing apparatus of the present invention comprises a main video decoder for decoding main video data for high-definition TV and outputting a main video signal for high-definition TV, and a high-definition video decoded by the main video decoder. A first scaler for down-converting the TV main video signal to generate a standard TV main video signal, and a second scaler for decoding the high-definition TV sub-video data and outputting the high-definition TV sub-video signal 1 sub-video decoder, a second sub-video decoder for decoding standard TV sub-video data and outputting a standard TV sub-video signal, and a high-definition TV main video decoded by the main video decoder. A first mixing unit for mixing and outputting the high-definition TV sub-video signal decoded by the first sub-video decoder unit and a standard TV main video signal generated by the first scaler unit; Vice of two Image decoder section and a second mixing unit and outputting mixes the standard TV for the sub picture signal decoded.
[0011]
Further, the video reproducing apparatus of the present invention comprises a main video decoder for decoding main video data for high-definition TV and outputting a main video signal for high-definition TV, and a high-definition video decoded by the main video decoder. A first scaler for down-converting the TV main video signal to generate a standard TV main video signal, and a second scaler for decoding the high-definition TV sub-video data and outputting the high-definition TV sub-video signal 1 sub-video decoder, a second sub-video decoder for decoding standard TV sub-video data and outputting a standard TV sub-video signal, and a high-definition TV main video decoded by the main video decoder. A first mixing unit for mixing and outputting the high-definition TV sub-video signal decoded by the first sub-video decoder unit and a standard TV main video signal generated by the first scaler unit; Vice of two A second mixing unit that mixes and outputs the standard TV sub-video signal decoded by the image decoder unit and selects one of an output of the first mixing unit and an output of the second mixing unit And a selector unit for outputting.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a video playback device according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram for explaining a configuration of a DVD player which is a video playback device according to the embodiment.
The DVD player of the present embodiment reads video data from a DVD (Digital Versatile Disk) as a recording medium, and has a pixel count of 1920 dots × 1080 dots and a frame frequency of 29.97 Hz (interlace) or a pixel count of 1280 dots x 720 dots for a high-definition TV monitor with a frame frequency of 59.94 Hz (progressive), or 720 dots x 480 dots with a frame frequency of 29.97 Hz (interlace) or 720 pixels x 480 It is assumed that the dots are reproduced and output on a standard TV monitor having a frame frequency of 59.94 Hz (progressive).
[0013]
It is also assumed that main video data is recorded on a DVD in a high-definition TV monitor format, and sub-video data is recorded in a high-definition TV monitor format and a standard TV monitor format.
[0014]
The DVD player 1 includes a main processor unit (hereinafter, referred to as an MPU unit) 10 that controls the entire player 1, a key input unit 13 including buttons or a remote control device provided on a control panel of the DVD player 1, and a DVD player. The display unit 14 provided on the control panel of the player 1 and the main video data are recorded in a high definition (hereinafter, referred to as HD) TV monitor format, and the sub video data is stored in the HDTV monitor format and the standard format. (Hereinafter referred to as SD) Disk drive unit 30 for reading recorded data from DVD 20 recorded in TV monitor format, and data processor unit for performing demodulation processing and error correction processing on the recorded data read from disk drive unit 30 40 and the data processor 40 Decoder 50 for decoding video streams and audio data as recording data to output video signals and audio signals, video mixing unit 60, and digital-to-analog conversion of the HDTV monitor video signals from video mixing unit 60. , A D / A converter 72 for digital-to-analog conversion of the SDTV monitor video signal from the video mixing unit 60, and a D / A converter 73 for digital-to-analog conversion of the audio signal from the decoder unit 50 And an HD monitor output terminal 81 that outputs the output of the D / A converter 71 to the HDTV monitor, an SD monitor output terminal 82 that outputs the output of the D / A converter 72 to the SDTV monitor, and an output of the D / A converter 73. A speaker output terminal 83 for outputting to a speaker; System time counter composed of (hereinafter, STC referred to as) unit 90.. The MPU unit 10, disk drive unit 30, data processor unit 40, decoder unit 50, video mixing unit 60, and STC unit 90 are interconnected by a system bus 99.
[0015]
When the HDTV monitor or the SDTV monitor is a digital TV monitor, the video data from the video mixing unit 60 and the audio data from the decoder unit 50 are output to the output terminals 81 and 72 without passing through the D / A converters 71, 72 and 73. 82 and 83 are output.
[0016]
The MPU section 10 has a ROM section 11 in which a control program for controlling the DVD player 1 is stored, and a RAM section 12 for providing a work area necessary for executing the program. Further, the MPU unit 10 receives operation request data from the key input unit 13. Further, the MPU unit 10 displays an operation state on the display unit 14.
[0017]
The decoder unit 50 separates the recording data supplied from the data processor unit 40 into main video data, sub-video data such as subtitles, and audio data, and a program stream decoder unit 51, which works when the program stream decoder unit 51 performs the separation process. A memory unit 52 used as a memory, a main video decoder unit 53 for decoding (restoring) main video data / sub-video data / audio data separated by the program stream decoder unit 51, a sub-video decoder unit 54, and an audio decoder unit 55.
[0018]
The main video signal decoded by the main video decoder unit 53 and the sub video signal decoded by the sub video decoder unit 54 are superimposed by the video mixing unit 60, and the HDTV monitor video signal is monitored via the D / A converter 71. The SDTV monitor video signal is output to an output terminal 81 via a D / A converter 72 to a monitor output terminal 82. The audio signal decoded by the audio decoder unit 55 of the decoder unit 50 is output to the speaker output terminal 83 via the D / A converter 73.
[0019]
The timing at which the MPU unit 10 controls the disk drive unit 30, the data processor unit 40, the decoder unit 50, and the like is based on time data from a system time counter (hereinafter, referred to as STC) unit 90.
[0020]
FIG. 2 is a block diagram for explaining a detailed configuration of the decoder unit 50 and the video mixing unit 60. In FIG. 2, the same parts as those in FIG.
[0021]
The main video decoder 53 of the decoder 50 decodes a main video stream, which is main video data for an HDTV monitor, and outputs a main video signal for an HDTV monitor. The sub video decoder unit 54 of the decoder unit 50 decodes a sub video stream, which is sub video data for HDTV monitor, and outputs an HDTV monitor sub video signal, and a sub decoder for SDTV monitor. An SD decoder unit 543 for decoding a sub-video stream as video data and outputting an SDTV monitor sub-video signal.
[0022]
The decoder unit 50 also includes a scaler unit 531 for down-converting the HDTV monitor main video signal output from the main video decoder unit 53 to an SDTV monitor main video signal, and an SDTV monitor sub-video output from the SD decoder unit 543. It has a scaler section 544 for up-converting the signal to an HDTV monitor sub-picture signal, and a scaler section 545 for down-converting the HDTV monitor sub-picture signal output from the HD decoder section 542 to an SDTV monitor sub-picture signal.
[0023]
Further, the decoder unit 50 selectively outputs one of the HDTV monitor sub-video signal output from the HD decoder unit 542 and the (up-converted) HDTV monitor sub-video signal output from the scaler unit 544. It has a selector section 546 and a selector section 547 for selectively outputting one of an SDTV monitor sub-picture signal output from the SD decoder section 543 and an SDTV monitor sub-picture signal output from the scaler section 545.
[0024]
The outputs from the selector units 546 and 547 are obtained by the MPU unit 10 controlling the selector units 546 and 547 via the system bus 99 based on a selection instruction from the user of the DVD player 1 via the key input unit 13. It is determined.
[0025]
Note that the MPU unit 10 may automatically perform control by detecting whether an HDTV monitor cable is connected to the output terminal 81 or whether an SDTV monitor cable is connected to the output terminal 82.
[0026]
The video mixing unit 60 includes a mixing unit 61 for superimposing an HDTV monitor main video signal output from the main video decoder unit 53 and an HDTV monitor sub video signal output from the selector 546, and an SDTV monitor output from the scaler unit 531. A mixing unit 62 for superimposing the main video signal for use and the sub video signal for SDTV monitoring output from the selector unit 547, and the sub video displayed on the monitor is output data from the HD decoder unit 542 or output from the SD decoder unit 543. Mixing units 63 and 64 for superimposing information from the MPU unit 10 indicating data on the outputs of the mixing units 61 and 62 are provided.
[0027]
Next, an operation when the HD decoder unit 542 generates a sub-video signal and simultaneously outputs the video signal to the HDTV monitor and the SDTV monitor in this embodiment will be described. FIG. 3 is a diagram for explaining the operation of the decoder unit 50 and the video mixing unit 60 when the HD decoder unit 542 generates a sub-video signal and simultaneously outputs the video signal to the HDTV monitor and the SDTV monitor.
[0028]
The main video decoder 53 decodes the HDTV monitor main video stream supplied from the program stream decoder 51, and the decoded HDTV monitor main video signal is supplied to the scaler 531 and the mixing unit 61. The HD decoder section 542 decodes the HDTV monitor sub-picture stream supplied from the program stream decoder section 51, and supplies the decoded HDTV sub-picture signal to the scaler section 545 and the selector section 546.
[0029]
The scaler unit 531 down-converts the HDTV monitor main video signal supplied from the main video decoder unit 53 into an SDTV monitor main video signal, and supplies the down-converted SDTV monitor main video signal to the mixing unit 62. The scaler unit 545 down-converts the HDTV sub-video signal supplied from the HD decoder unit 542 to an SDTV monitor sub-video signal, and supplies the down-converted SDTV monitor sub-video signal to the selector unit 547.
[0030]
The MPU unit 10 controls the selector units 546 and 547 based on an instruction supplied from the user via the key input unit 13 to generate a sub video signal in the HD decoder unit 542. The selector section 546 selects and outputs the HDTV sub-picture signal supplied from the HD decoder section 542 to the mixing section 61 based on an instruction from the MPU section 10. Further, the selector unit 547 selects and outputs the down-converted SDTV sub-video signal supplied from the scaler unit 545 to the mixing unit 62 based on an instruction from the MPU unit 10.
[0031]
The mixing section 61 of the video mixing section 60 performs a mixing process on the HDTV monitor main video signal supplied from the main video decoder section 53 and the HDTV monitor sub video signal supplied from the selector section 546. The mixing unit 62 performs a mixing process on the down-converted SDTV monitor main video signal supplied from the scaler unit 531 and the down-converted SDTV monitor sub-video signal supplied from the selector unit 547.
[0032]
The mixing units 63 and 64 receive from the MPU unit 10 status display data indicating that the sub-picture has been decoded by the HD decoder unit 542, and receive the status display data from the mixing unit 61 with the HDTV monitor video signal and the mixing signal. The video signal for SDTV monitoring from the unit 62 is mixed and supplied to D / A converters 71 and 72, respectively.
[0033]
By the above operation, the HDTV monitor video signal is supplied to the monitor output terminal 81, and the down-converted SDTV monitor video signal is supplied to the monitor output terminal 82, and simultaneous display on the HDTV monitor and the SDTV monitor becomes possible. At this time, a display indicating that the sub-picture has been processed by the HD decoder unit 542 is displayed on both monitors. In this operation, since the main video signal is down-converted by the scaler unit 531 and the sub-video signal is down-converted by the scaler unit 545, the SDTV monitor video signal is subjected to mixing processing. Down-conversion processing suitable for the above.
[0034]
Next, an operation when the SD decoder unit 543 generates a sub-video signal and simultaneously outputs the video signal to the HDTV monitor and the SDTV monitor in the present embodiment will be described.
FIG. 4 is a diagram for explaining operations of the decoder unit 50 and the video mixing unit 60 when the SD decoder unit 543 generates a sub-video signal and simultaneously outputs the video signal to the HDTV monitor and the SDTV monitor.
[0035]
3, the main video decoder 53 decodes the HDTV monitor main video stream supplied from the program stream decoder 51, and outputs the decoded HDTV monitor main video signal to the scaler 531 and the mixing unit. 61. The scaler unit 531 down-converts the HDTV monitor main video signal supplied from the main video decoder unit 53 into an SDTV monitor main video signal, and supplies the down-converted SDTV monitor main video signal to the mixing unit 62.
[0036]
The SD decoder section 543 decodes the SDTV monitor sub-picture stream supplied from the program stream decoder section 51, and supplies the decoded SDTV sub-picture signal to the scaler section 544 and the selector section 547. The scaler section 544 up-converts the SDTV sub-picture signal supplied from the SD decoder section 543 to an HDTV monitor sub-picture signal, and supplies the up-converted HDTV monitor sub-picture signal to the selector section 546.
[0037]
The MPU unit 10 controls the selector units 546 and 547 based on an instruction that the SD decoder unit 543 supplied from the user via the key input unit 13 generates a sub-video signal. The selector unit 547 selectively outputs the SDTV sub-video signal supplied from the SD decoder unit 543 to the mixing unit 62 based on an instruction from the MPU unit 10. The selector unit 546 selects and outputs the up-converted HDTV sub-picture signal supplied from the scaler unit 544 to the mixing unit 61 based on an instruction from the MPU unit 10.
[0038]
The mixing section 61 of the video mixing section 60 performs a mixing process on the HDTV monitor main video signal supplied from the main video decoder section 53 and the up-converted HDTV monitor sub video signal supplied from the selector section 546. The mixing unit 62 performs a mixing process on the down-converted SDTV monitor main video signal supplied from the scaler unit 531 and the SDTV monitor sub-video signal supplied from the selector unit 547.
[0039]
The mixing units 63 and 64 receive from the MPU unit 10 status display data indicating that the sub-video has been decoded by the SD decoder unit 543, and receive the status display data from the mixing unit 61 as an HDTV monitor video signal and a mixing signal. The video signal for SDTV monitoring from the unit 62 is mixed and supplied to D / A converters 71 and 72, respectively.
[0040]
By the above operation, the HDTV monitor video signal is supplied to the monitor output terminal 81, and the down-converted SDTV monitor video signal is supplied to the monitor output terminal 82, and simultaneous display on the HDTV monitor and the SDTV monitor becomes possible. At this time, a display indicating that the sub-picture has been processed by the SD decoder unit 543 is displayed on both monitors. In this operation, since the HDTV monitor video signal is mixed with the main video signal after the sub-video signal is up-converted by the scaler section 544, the sub-video signal up-conversion process suitable for a high definition TV monitor is performed. It can be carried out.
[0041]
Next, a description will be given of an operation when the HD decoder unit 542 and the SD decoder unit 543 are simultaneously operated to generate sub-video signals and simultaneously output the video signals to the HDTV monitor and the SDTV monitor in this embodiment. .
[0042]
FIG. 5 is a diagram for explaining operations of the decoder unit 50 and the video mixing unit 60 when the SD decoder unit 543 generates a sub-video signal and simultaneously outputs the video signal to the HDTV monitor and the SDTV monitor.
[0043]
3, the main video decoder 53 decodes the HDTV monitor main video stream supplied from the program stream decoder 51, and outputs the decoded HDTV monitor main video signal to the scaler 531 and the mixing unit. 61. The scaler unit 531 down-converts the HDTV monitor main video signal supplied from the main video decoder unit 53 into an SDTV monitor main video signal, and supplies the down-converted SDTV monitor main video signal to the mixing unit 62.
[0044]
The HD decoder 542 decodes the HDTV monitor sub-picture stream supplied from the program stream decoder 51, and supplies the decoded HDTV sub-picture signal to the selector 546. The SD decoder unit 543 decodes the SDTV monitor sub-video stream supplied from the program stream decoder unit 51, and supplies the decoded SDTV sub-video signal to the selector unit 547.
[0045]
The mixing section 61 of the video mixing section 60 performs a mixing process on the HDTV monitor main video signal supplied from the main video decoder section 53 and the HDTV monitor sub video signal supplied from the selector section 546. The mixing unit 62 performs a mixing process on the down-converted SDTV monitor main video signal supplied from the scaler unit 531 and the SDTV monitor sub-video signal supplied from the selector unit 547.
[0046]
The MPU unit 10 controls the selector units 546 and 547 based on an instruction to generate a sub-video signal in both the HD decoder unit 542 and the SD decoder unit 543 supplied from the user via the key input unit 13. . The selector section 546 selects and outputs the HDTV sub-picture signal supplied from the HD decoder section 542 to the mixing section 61 based on an instruction from the MPU section 10. Further, the selector unit 547 selectively outputs the SDTV sub-video signal supplied from the SD decoder unit 543 to the mixing unit 62 based on an instruction from the MPU unit 10.
[0047]
The mixing unit 63 receives status display data indicating that the sub-picture is being decoded by the HD decoder unit 542 from the MPU unit 10 and mixes this status display data into the HDTV monitor video signal from the mixing unit 61. , D / A converter 71. The mixing unit 64 receives from the MPU unit 10 status display data indicating that the sub-picture has been decoded by the SD decoder unit 543, and mixes this status display data with the SDTV monitor video signal from the mixing unit 62. The processed signal is supplied to the D / A converter 72.
[0048]
By the above operation, the HDTV monitor video signal is supplied to the monitor output terminal 81, and the down-converted SDTV monitor video signal is supplied to the monitor output terminal 82, and simultaneous display on the HDTV monitor and the SDTV monitor becomes possible. At this time, a display indicating that the sub-picture has been processed by the HD decoder unit 542 is displayed on the HDTV monitor, and a display indicating that the sub-picture has been processed by the SD decoder unit 543 is displayed on the SDTV monitor. Is done. In this operation, the HDTV monitor video signal includes an HDTV sub-video signal decoded by the HD decoder unit 542, and the SDTV monitor video signal includes an SDTV sub-video signal decoded by the SD decoder unit 543. Is subjected to the mixing process, so that a sub-video signal suitable for each of the high definition TV monitor and the standard TV monitor can be output.
[0049]
Next, a second embodiment of the present invention will be described.
FIG. 6 is a block diagram for explaining a configuration of a DVD player which is a video playback device according to the second embodiment. In FIG. 6, the same parts as those in FIG.
[0050]
In the first embodiment, the video signal is supplied to both the analog HDTV monitor and the SDTV monitor at the same time. However, in the second embodiment, the video signal is supplied to either the digital HDTV monitor or the digital SDTV monitor. Supply signal. That is, the video signal is supplied from the video mixing unit 100 shown in FIG. 6 to only the monitor output terminal 101.
[0051]
FIG. 7 is a block diagram for explaining a configuration of the video mixing unit 100 according to the second embodiment. In FIG. 7, the same parts as those in FIG.
[0052]
The video mixing section 100 is provided with a selector section 65 for outputting either the HDTV monitor video signal from the mixing section 63 or the SDTV monitor video signal from the mixing section 64. Note that the HDTV sub-picture signal from the HD decoder 542 of the sub-picture decoder 54 is directly supplied to the mixing section 61 of the video mixing section 100. The sub video signal for SDTV from the SD decoder unit 543 of the sub video decoder unit 54 is directly supplied to the mixing unit 62 of the video mixing unit 100.
[0053]
The MPU unit 10 controls the selector unit 65 based on an HDTV monitor selection or SD monitor selection instruction supplied from the user via the key input unit 13. The selector unit 65 selectively outputs one of the HDTV monitor video signal from the mixing unit 63 and the SDTV monitor video signal from the mixing unit 64 to the monitor output terminal 81 based on an instruction from the MPU unit 10. The selector unit 65 is automatically controlled by the MPU unit 10 detecting whether the output terminal 81 is connected to the HDTV monitor cable or the output terminal 82 is connected to the SDTV monitor cable. You may comprise.
[0054]
Next, an operation of outputting a video signal to an HDTV monitor in the second embodiment will be described.
FIG. 8 is a diagram for explaining operations of the decoder unit 50 and the video mixing unit 100 when outputting a video signal to an HDTV monitor.
As in the first embodiment, the main video decoder unit 53 decodes the HDTV monitor main video stream supplied from the program stream decoder unit 51, and outputs the decoded HDTV monitor main video signal to the mixing unit 61. Supplied to The HD decoder section 542 decodes the HDTV monitor sub-picture stream supplied from the program stream decoder section 51 and supplies the decoded HDTV sub-picture signal to the mixing section 61.
[0055]
The mixing unit 61 of the video mixing unit 60 mixes the HDTV monitor main video signal supplied from the main video decoder unit 53 and the HDTV monitor sub video signal supplied from the HD decoder unit 542. The mixing unit 63 receives status display data indicating that the sub-picture is being decoded by the HD decoder unit 542 from the MPU unit 10 and mixes this status display data into the HDTV monitor video signal from the mixing unit 61. , To the selector section 65.
[0056]
The selector section 65 selects an HDTV monitor video signal from the mixing section 63 based on an instruction from the MPU section 10 and supplies the video signal to the output terminal 81.
By the above operation, the main video signal and the sub video signal decoded by the HD decoder unit 542 are supplied to the monitor output terminal 81. At this time, a message indicating that the sub-picture has been processed by the HD decoder unit 542 is displayed on the monitor.
[0057]
Next, an operation of outputting a video signal to an SDTV monitor in the second embodiment will be described.
FIG. 9 is a diagram for explaining the operation of the decoder unit 50 and the video mixing unit 100 when outputting a video signal to the HDTV monitor.
As in the first embodiment, the main video decoder unit 53 decodes the HDTV monitor main video stream supplied from the program stream decoder unit 51, and outputs the decoded HDTV monitor main video signal to the scaler unit 531. Supplied to The SD decoder unit 543 decodes the SDTV monitor sub-picture stream supplied from the program stream decoder unit 51 and supplies the decoded SDTV sub-picture signal to the mixing unit 62. The scaler unit 531 down-converts the HDTV monitor main video signal supplied from the main video decoder unit 53 into an SDTV monitor main video signal, and supplies the down-converted SDTV monitor main video signal to the mixing unit 62.
[0058]
The mixing unit 62 mixes the down-converted SDTV monitor main video signal supplied from the scaler unit 531 and the SDTV monitor sub-video signal supplied from the SD decoder unit 543. The mixing unit 63 receives from the MPU unit 10 status display data indicating that the sub-picture has been decoded by the SD decoder unit 543, and mixes this status display data with the SDTV monitor video signal from the mixing unit 62. , To the selector section 65.
[0059]
The selector section 65 selects an SDTV monitor video signal from the mixing section 63 based on an instruction from the MPU section 10 and supplies it to the output terminal 81.
By the above operation, the main video signal and the sub video signal decoded by the SD decoder section 542 are supplied to the monitor output terminal 81. At this time, a message indicating that the sub-picture has been processed by the SD decoder unit 542 is displayed on the monitor.
[0060]
In the present embodiment, it is configured to display on the monitor whether the HD video decoder 542 or the SD decoder 543 has decoded the sub-picture data. However, the operation status is displayed on the display unit 14 of the DVD player 1. May be.
[0061]
Also, in the present embodiment, the recording medium for HD content or SD content is described as DVD, but the recording medium may be another optical disk medium, magnetic disk, or semiconductor memory.
[0062]
Further, the content reproduced in the present invention may be a moving image or a still image.
[0063]
【The invention's effect】
According to the present invention, a decoder for decoding sub-video data for high-definition TV and a decoder for decoding sub-video data for standard TV are provided, and both decoders are selectively operated to generate a main video signal. By superimposing, when the video data for the high definition TV is displayed on the monitor device for the standard TV, the information degradation of the sub video data is reduced.
[Brief description of the drawings]
FIG. 1 is an exemplary block diagram for explaining a configuration of a DVD player according to a first embodiment;
FIG. 2 is a block diagram illustrating a detailed configuration of a decoder unit and a video mixing unit.
FIG. 3 is a diagram for explaining an operation when a HD video decoder unit generates a sub video signal and simultaneously outputs a video signal to an HDTV monitor and an SDTV monitor.
FIG. 4 is a diagram for explaining an operation when the SD decoder generates a sub-video signal and simultaneously outputs a video signal to an HDTV monitor and an SDTV monitor.
FIG. 5 is a diagram for explaining an operation when the SD decoder generates a sub-video signal and simultaneously outputs a video signal to an HDTV monitor and an SDTV monitor.
FIG. 6 is a block diagram illustrating a configuration of a DVD player according to a second embodiment.
FIG. 7 is a block diagram illustrating a configuration of a video mixing unit according to a second embodiment.
FIG. 8 is a view for explaining an operation when outputting a video signal to an HDTV monitor in the second embodiment.
FIG. 9 is a view for explaining an operation when outputting a video signal to an SDTV monitor in the second embodiment.
[Explanation of symbols]
1 DVD player
10 MPU section
11 ROM section
12 RAM section
13 Key input section
14 Display
20 DVD
30 Disk drive
40 Data processor section
50 Decoder part
51 Program Stream Decoder
53 Main video decoder
54 Sub-picture decoder
55 audio decoder
60 Video Mixing Department
65, 546, 547 Selector section
71, 72, 73 D / A converter
81, 72, 83 output terminals
90 STC section
99 System bus
542 HD Decoder
543 SD Decoder
531 544 545 Scaler section
61, 62, 63, 64 Mixing unit

Claims (6)

A video reproducing device that reads out each data from a recording medium on which main video data, high-definition TV sub-video data, and standard TV sub-video data are recorded, and outputs a video signal to a high-definition TV monitor or a standard TV monitor. So,
A main video decoder for decoding main video data and outputting a main video signal;
A first sub-video decoder for decoding high-definition TV sub-video data and outputting a high-definition TV sub-video signal;
A second sub-picture decoder for decoding the standard TV sub-picture data and outputting a standard TV sub-picture signal;
The main video signal output from the main video decoder unit is superimposed on the sub video signal for high definition TV output from the first sub video decoder unit, or the standard video signal output from the second sub video decoder unit is superimposed. A video reproducing apparatus comprising: a selector unit for selecting whether to superimpose a sub video signal. Each data is read from a recording medium in which main video data for high-definition TV, sub-video data for high-definition TV, and sub-video data for standard TV are recorded, and video signals are transmitted to the high-definition TV monitor and the standard TV monitor A video playback device that outputs simultaneously,
A main video decoder for decoding the main video data for high definition TV and outputting a main video signal for high definition TV;
A first scaler unit for down-converting the high definition TV main video signal decoded by the main video decoder unit to generate a standard TV main video signal;
A sub-video decoder unit for decoding high-definition TV sub-video data and outputting a high-definition TV sub-video signal;
A second scaler unit for down-converting the high-definition TV sub-video signal decoded by the sub-video decoder unit to generate a standard TV sub-video signal;
A first mixing unit that mixes and outputs the high-definition TV main video signal decoded by the main video decoder unit and the high-definition TV sub video signal decoded by the sub-video decoder unit;
A second mixing section for mixing and outputting the standard TV main video signal generated by the first scaler section and the standard TV sub video signal generated by the second scaler section. Video playback device. Each data is read from a recording medium in which main video data for high-definition TV, sub-video data for high-definition TV, and sub-video data for standard TV are recorded, and video signals are transmitted to the high-definition TV monitor and the standard TV monitor A video playback device that outputs simultaneously,
A main video decoder for decoding the main video data for high definition TV and outputting a main video signal for high definition TV;
A first scaler unit for down-converting the high definition TV main video signal decoded by the main video decoder unit to generate a standard TV main video signal;
A sub-video decoder unit for decoding standard TV sub-video data and outputting a standard TV sub-video signal;
A second scaler section for up-converting the standard TV sub-picture signal decoded by the sub-picture decoder section to generate a high definition TV sub-picture signal;
A first mixing unit that mixes and outputs the high-definition TV main video signal decoded by the main video decoder unit and the high-definition TV sub-video signal generated by the second scaler unit;
A second mixing unit that mixes and outputs the standard TV main video signal generated by the first scaler unit and the standard TV sub video signal decoded by the sub video decoder unit. Video playback device. Each data is read from a recording medium in which main video data for high-definition TV, sub-video data for high-definition TV, and sub-video data for standard TV are recorded, and video signals are transmitted to the high-definition TV monitor and the standard TV monitor A video playback device that outputs simultaneously,
A main video decoder for decoding the main video data for high definition TV and outputting a main video signal for high definition TV;
A first scaler unit for down-converting the high definition TV main video signal decoded by the main video decoder unit to generate a standard TV main video signal;
A first sub-video decoder for decoding high-definition TV sub-video data and outputting a high-definition TV sub-video signal;
A second sub-picture decoder for decoding the standard TV sub-picture data and outputting a standard TV sub-picture signal;
A first mixing unit that mixes and outputs the high definition TV main video signal decoded by the main video decoder unit and the high definition TV sub video signal decoded by the first sub video decoder unit;
A second mixing unit for mixing and outputting the standard TV main video signal generated by the first scaler unit and the standard TV sub video signal decoded by the second sub video decoder unit; A video playback device characterized by the following. Each data is read out from a recording medium in which the main video data for high-definition TV, the sub-video data for high-definition TV, and the sub-video data for standard TV are recorded. A video playback device that outputs a video signal,
A main video decoder for decoding the main video data for high definition TV and outputting a main video signal for high definition TV;
A first scaler unit for down-converting the high definition TV main video signal decoded by the main video decoder unit to generate a standard TV main video signal;
A first sub-video decoder for decoding high-definition TV sub-video data and outputting a high-definition TV sub-video signal;
A second sub-picture decoder for decoding the standard TV sub-picture data and outputting a standard TV sub-picture signal;
A first mixing unit that mixes and outputs the high definition TV main video signal decoded by the main video decoder unit and the high definition TV sub video signal decoded by the first sub video decoder unit;
A second mixing unit that mixes and outputs a standard TV main video signal generated by the first scaler unit and a standard TV sub video signal decoded by the second sub video decoder unit; A video reproducing apparatus comprising: a selector section for selecting and outputting one of an output of a mixing section and an output of the second mixing section. 6. The video reproducing apparatus according to claim 1, wherein the type of the decoder section that decodes the sub video signal is displayed on a high definition TV monitor and a standard TV monitor.

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