JP2004343376A - Av system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To view a plurality of images and sounds without making the viewer feel incompatibile or uncomfortable by coping with the change of the viewing form of one, two or more viewers, in an AV system coping with a Dolby digital system capable of displaying multiple images. <P>SOLUTION: When a viewing pattern is selected with an operation part 110, one, two or more images are displayed at a display device 2 according to an image arrangement pattern stored in a storage part 109 and the sound is outputted from a speaker 8 according to a loud speaker pattern stored in the storage part 109. Thus, when the viewer sets the viewing pattern matched with his viewing form, an image arrangement that he prefers is freely selected and the sound is outputted suitably for viewing. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to audio output when performing multi-screen display in an AV system compatible with the Dolby Digital system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, various technologies have been developed to make it easier for one or more viewers to hear a plurality of sounds corresponding to each screen when performing multi-screen display with a receiver.
[0003]
For example, Patent Literature 1 discloses a left and right side of each audio signal corresponding to a plurality of screens, a volume control circuit capable of adjusting a center side volume, and a left and right side of each audio signal whose volume is adjusted by the volume control circuit. There is described a multi-screen image receiving apparatus including an audio MIX circuit that synthesizes audio signals on a center side and outputs the synthesized audio signals to a left speaker, a right speaker, and a center speaker, respectively. This multi-screen image receiving apparatus is capable of synthesizing while maintaining the whole sound volume constant by controlling the respective sound volumes on the left, right and center sides by a sound volume control circuit. Therefore, if the sound volume is adjusted according to the size and position of the video screen and synthesized, the correspondence between each synthesized voice and the video screen can be easily recognized based on the volume.
[0004]
Also, for example, in Patent Document 2, a plurality of monaural component extraction circuits that synthesize stereo audio signals corresponding to each of multiple screens, and the frequency band of one of the synthesized audio signals is reduced to a narrow band of about a telephone. An audio output circuit including a BPF (band-pass filter) for limiting, a first speaker that outputs a synthesized audio signal as it is, and a second speaker that outputs an audio signal whose frequency band is limited by the BPF is described. . In this audio output circuit, audio that does not pass through the BPF has higher quality than audio that has passed through the BPF. For example, if the sound that does not pass through the BPF from the right speaker corresponding to the right screen and the sound that passes through the BPF from the left speaker corresponding to the left screen are loudspeaked, for example, the sound quality is easily changed. We can distinguish both voices.
[0005]
Further, for example, Patent Document 3 discloses a multi-screen processing unit that simultaneously displays a plurality of selected video signals in one screen, and outputs audio signals corresponding to the selected plurality of video signals to a plurality of speakers. A television receiver with audio selection means is described. According to this television receiver, since the sound is amplified from the speaker corresponding to the display position of the image, the correspondence between the plurality of images and the sound can be recognized from the display position of the image and the sound amplification position.
[0006]
[Patent Document 1]
JP-A-2000-69391, paragraph number 0023
[0007]
[Patent Document 2]
JP-A-9-322094, paragraph number 0044
[0008]
[Patent Document 3]
JP-A-8-98102, paragraph number 0007
[0009]
[Problems to be solved by the invention]
However, when the sound synthesized by the multi-screen image receiving apparatus disclosed in Patent Document 1 is amplified by a 5.1-channel speaker compatible with the Dolby Digital system, the original sound field environment may be changed and the sense of presence may be impaired. For example, the same synthesized voice is output from both a front speaker located at the front right of the viewer and a rear speaker located at the rear right of the viewer. Similarly, the same synthesized voice is output from a front speaker located at the left front of the viewer and a rear speaker located at the left rear of the viewer. That is, the sound that should be loudspeaked from the front speaker is output from the rear speaker, and the sound that should be loudspeaked from the rear speaker is output from the front speaker, so that the viewer may feel uncomfortable or uncomfortable. In addition, in the multi-screen image receiving apparatus disclosed in Patent Document 1, since the correspondence between the sound and the screen is recognized by adjusting the volume, when a plurality of viewers are simultaneously viewing each of the multi-screens, depending on the location of the viewer. May not feel a difference in volume, and may not be able to clearly recognize the correspondence between the screen and the sound.
[0010]
In addition, since the audio output circuit of Patent Document 2 limits the frequency band with the BPF, the vocalized singing becomes difficult to hear, impairing the original audio effect and the sound field environment, and discomfort and discomfort to the viewer. May give.
[0011]
Furthermore, in the television receiver of Patent Document 3, it is necessary to install a speaker corresponding to a display position. That is, if the screen is divided into left and right, the speakers are arranged on the left and right, if the screen is divided into three, the speakers are arranged on three sides, and if the screen is divided into four, the speakers are arranged on four sides. It is necessary to arrange the speakers corresponding to the positions. As described above, when the speaker arrangement corresponding to the display position is realized by the 5.1 channel speaker corresponding to the Dolby Digital system, the speaker arrangement required for normal viewing and the speaker arrangement required for multi-screen viewing. When does not match, the speaker must be moved inevitably, which is complicated. In addition, Patent Document 3 does not disclose any specific means for realizing an AV system in which one or a plurality of viewers can view multiple screens by using the arrangement of 5.1-channel speakers as they are.
[0012]
The present invention relates to an AV system compatible with a Dolby Digital system capable of displaying multiple screens, which can cope with a change in the viewing mode of one or a plurality of viewers and can display a plurality of screens without giving a sense of discomfort or discomfort to the viewer. The purpose is to be able to view audio.
[0013]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided input means for inputting a digital audio signal corresponding to one or a plurality of screens to be displayed on a display device, a front left channel (L channel) and a front right channel (R channel) in a Dolby digital system. ), A channel including a rear left channel (RL channel), a rear right channel (RR channel, a center channel (C channel), and a subwoofer channel (LFE channel), and a screen layout indicating a screen layout on the display device are received. Screen layout selecting means, display control means for displaying a screen corresponding to the selected screen layout on the display device, output means for outputting a digital audio signal input to the input means to the channel, and screen layout. A viewing pattern that defines the correspondence with the channel to which the digital audio signal is output A storage section for storing digital information, selecting a channel to which a digital audio signal is to be output according to the selected screen layout and the viewing pattern information, and controlling the output means so that the selected channel is output to the selected channel. And an output control means for outputting an audio signal.
[0014]
According to the present invention, the screen arrangement is selected by the screen arrangement selecting means. The screen arrangement selecting means can be realized by, for example, an operation button of a set-top box, a remote control of a DVD player, or the like. When the screen layout is selected, a channel corresponding to the selected screen layout is selected based on the viewing pattern information, and a digital audio signal is output to this channel. Note that the speakers connected to the L channel, R channel, RL channel, RR channel, and C channel are arranged at the front left, front right, rear left, rear right, and front of the viewer, respectively. The speaker connected to the LFE channel may be placed anywhere. However, when there is only one viewer, it is generally placed on the right or left side of the viewer. Hereinafter, the speakers connected to the L channel, the R channel, the RL channel, the RR channel, the C channel, and the LFE channel are referred to as L speaker, R speaker, RL speaker, RR speaker, C speaker, and LFE speaker, respectively.
[0015]
Here, if the correspondence between each screen arrangement and one or a plurality of channels is determined by the viewing pattern information so as to be a viewing mode suitable for one or a plurality of viewers, the viewer can select his or her favorite screen arrangement. The sound can be freely selected and the sound is output so as to be suitable for viewing. The viewing pattern information may be stored so as to be updated by a button operation, a remote control operation, or the like. In this way, the audio output pattern can be changed according to the viewer's preference, and a more comfortable viewing environment can be provided.
[0016]
The invention according to claim 2 is processing means for executing predetermined processing on the input digital audio signal, and processing for controlling the execution of the predetermined processing according to the selected screen layout and the viewing pattern information. The AV system according to claim 1, further comprising: a control unit.
[0017]
According to the present invention, predetermined processing, for example, processing such as addition, subtraction, downmixing, volume adjustment, and volume balance adjustment of digital audio signals can be performed according to the selected screen layout.
[0018]
According to a third aspect of the present invention, in the predetermined processing, the right channel digital audio signal is subtracted from the left channel digital audio signal included in the 2-channel stereo digital audio signal, or the left channel digital audio signal is subtracted from the right channel digital audio signal. 3. The AV system according to claim 2, wherein the surround sound signal is generated by subtracting a digital audio signal for use to generate a surround signal.
[0019]
According to the present invention, a surround signal can be created from a two-channel stereo digital audio signal. When the left-channel digital audio signal and the right-channel digital audio signal have the same phase, a surround signal may be created by a known pseudo-surround process.
[0020]
The invention according to claim 4, wherein the output control means causes the surround signal to be output to the C channel according to the selected screen layout and the viewing pattern information. is there.
[0021]
According to the present invention, a surround signal is output from the C speaker.
[0022]
According to a fifth aspect of the present invention, in the predetermined processing, a part or all of the 5.1-channel digital audio signal input to the input unit is downmixed into a stereo signal which is a 2-channel stereo digital audio signal. 3. The AV system according to claim 2, wherein the AV system is a downmix process.
[0023]
According to the present invention, a part or all of the 5.1 channel digital audio signal is downmixed to create a stereo signal.
[0024]
In the invention according to claim 6, the screen arrangement selecting means receives selection of a large and small screen arrangement which is a screen arrangement composed of a large screen and a small screen, and the output control means, when the large and small screen arrangement is selected, In accordance with the viewing pattern information corresponding to the large and small screen arrangement, a right channel digital audio signal corresponding to the large screen is output to the R channel, and a left channel digital audio signal corresponding to the large screen is output to the L channel. 2. The digital audio signal for the left channel corresponding to the small screen is output to the RL channel, and the digital audio signal for the right channel corresponding to the small screen is output to the RR channel. The AV system according to 3 or 5.
[0025]
According to this invention, the sound of the large screen is amplified from the L speaker, the R speaker and the C speaker arranged in front of the viewer, and the sound of the small screen is amplified from the RL speaker and the RR speaker arranged behind. Therefore, for example, when one viewer views the large screen and the small screen at the same time, the sound of the large screen and the sound of the small screen can be easily distinguished from the position of the sound source. The volume of the large-screen audio, the volume of the small-screen audio, or the balance of these volumes may be adjusted by the processing means. For example, if the processing means performs processing so that the sound volume of the large screen is higher than the sound volume of the small screen, it becomes easier to distinguish the sound of the large screen from the sound of the small screen.
[0026]
In the invention according to claim 7, the screen arrangement selecting means accepts selection of a left-right divided screen arrangement which is a screen arrangement composed of a left screen and a right screen divided into right and left, and the output control means comprises When the arrangement is selected, the digital audio signal for the right channel corresponding to the left screen is output to the L channel according to the viewing pattern information corresponding to the left / right split screen arrangement, and the left channel corresponding to the left screen is output. A digital audio signal is output to the RL channel, a left channel digital audio signal corresponding to the right screen is output to the R channel, and a right channel digital audio signal corresponding to the right screen is output to the RR speaker. The AV system according to claim 1 or 5, wherein
[0027]
According to the present invention, when two viewers are arranged at positions substantially opposite to the center of the screen and look diagonally on the left and right sides of the screen, the viewers watching the left screen can use the left speaker for the R channel corresponding to the left screen. The sound for the L channel corresponding to the left screen is amplified from the sound and the RL speaker. On the other hand, to the viewer who watches the right screen, the sound for the L channel corresponding to the right screen from the R speaker and the sound for the R channel corresponding to the right screen from the RR speaker are louder. Therefore, two viewers can simultaneously view the screen divided into right and left by stereo sound. When the digital audio signals corresponding to the right screen and the left screen are for 5.1 channels, a downmix process according to claim 5 may be used to downmix to create a stereo signal.
[0028]
The invention according to claim 8, wherein the predetermined processing is a monaural signal generation that generates a monaural signal by adding a left-channel digital audio signal and a right-channel digital audio signal included in the two-channel stereo digital audio signal. 6. The AV system according to claim 3, wherein the AV system is a process.
[0029]
According to the present invention, a monaural audio signal can be generated.
[0030]
According to a ninth aspect of the present invention, the screen arrangement selecting means accepts selection of a left and right divided screen arrangement which is a screen arrangement composed of a left screen and a right screen divided into right and left, and the processing control means includes: When the arrangement is selected, according to the viewing pattern information corresponding to the left and right split screen arrangement, a monaural signal is generated from each of the digital audio signals corresponding to the left screen and the right screen, and the left screen is supported. A surround signal is generated from the digital audio signal and the digital audio signal corresponding to the right screen, respectively, and the output control means, when the left / right split screen layout is selected, the viewing pattern information corresponding to the left / right split screen layout. In response, a monaural signal generated from the digital audio signal corresponding to the left screen is output to the L channel, A monaural signal generated from the digital audio signal corresponding to the screen is output to the R channel, a surround signal generated from the digital audio signal corresponding to the left screen is output to the RL channel, and the 9. The AV system according to claim 8, wherein a surround signal generated from a digital audio signal is output to the RR channel.
[0031]
According to the present invention, when two viewers are arranged at positions substantially opposite to the center of the screen and look at the left and right sides of the screen obliquely, the viewer watching the left screen receives monaural sound corresponding to the left screen from the L speaker, Surround sound corresponding to the left screen is amplified from the RL speaker. On the other hand, a monaural sound corresponding to the right screen from the R speaker and a surround sound corresponding to the right screen from the RR speaker are louder to the viewer who watches the right screen. Therefore, two viewers can simultaneously view the screen divided into right and left with surround sound.
[0032]
According to a tenth aspect of the present invention, the display control means receives a selection of a four-split screen arrangement including an upper left screen, an upper right screen, a lower left screen, and a lower right screen divided into four parts vertically, horizontally, and When the four-split screen arrangement is selected, monaural signals are respectively converted from digital audio signals corresponding to the upper left screen, the upper right screen, the lower left screen, and the lower right screen, respectively, according to the viewing pattern information corresponding to the four split screen arrangement. When the four-split screen layout is selected, the output control means generates a monaural signal generated from the digital audio signal corresponding to the upper left screen according to the viewing pattern information corresponding to the four-split screen layout. Output to the L channel, and output a monaural signal generated from the digital audio signal corresponding to the upper right screen to the R channel; A monaural signal generated from the digital audio signal corresponding to the lower left screen is output to the RL channel, and a monaural signal generated from the digital audio signal corresponding to the lower right screen is output to the RR channel. An AV system according to claim 8.
[0033]
According to the present invention, for example, when four viewers A to D look at the upper left screen, the upper right screen, the lower left screen, and the lower right screen at positions close to the L speaker, the R speaker, the RL speaker, and the RR speaker, respectively, For the viewer A, monaural voice corresponding to the upper left screen from the L speaker, for viewer B, monaural voice corresponding to the upper right screen from the R speaker, for viewer C, monaural voice corresponding to the lower left screen from the RL speaker, and for viewer D , A monaural sound corresponding to the lower right screen is amplified from the RR speaker. Therefore, each of the four viewers can easily recognize the sound corresponding to the screen that the user sees, and the four viewers can view the screen simultaneously.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
<First embodiment>
(1) Configuration
(1-1) Overall configuration
FIG. 1 is a block diagram of an AV system according to the first embodiment of the present invention. This AV system includes a processing device 1, a display device 2, and a speaker 8. The display device 2 is a television receiver or the like.
[0035]
The processing device 1 includes a digital signal input unit 100, an audio signal processing unit 102, a selector 104, a digital / analog converter (DAC) 105, a filter 106, an amplifier 107, a control unit 108, a storage unit 109, an operation unit 110, and an image. It has a signal processing unit 111. The digital signal input unit 100 receives a digital video signal and a digital audio signal output from a tuner or a DVD player (both not shown) for receiving satellite broadcasting.
[0036]
The digital signal input unit 100 separates and outputs the digital audio signal to the audio signal processing unit 102 and the digital video signal to the video signal processing unit 111. Note that the video signal processing unit 111 may be provided outside the processing device 1.
[0037]
The audio signal processing unit 102 includes a downmix unit 21, a surround signal creation unit 22, and a monaural signal generation unit 23. The audio signal processing unit 102 can be configured by, for example, a DSP (Digital Signal Processor). The audio signal processing unit 102 performs predetermined processing on the input digital audio signal by the downmix unit 21, the surround signal generation unit 22, and the monaural signal generation unit 23. The processing of the audio signal processing unit 102 is executed under the control of the control unit 108. If the control is not performed by the control unit 108, the audio signal processing unit 102 outputs the signal input from the digital signal input unit to the selector as it is.
[0038]
The downmix unit 21 performs a downmix process of downmixing the 5.1-channel digital audio signal output from the digital signal input unit 100 into a 2-channel stereo signal under the control of the control unit 108. The surround signal creation unit 22 executes a surround signal creation process for creating a surround signal from a 2-channel stereo digital audio signal output from the digital signal input unit 100 under the control of the control unit 108. The creation of the surround signal is performed by subtracting the right channel digital audio signal from the left channel digital audio signal included in the 2-channel stereo digital audio signal. Alternatively, the surround sound signal may be created by subtracting the digital audio signal for the left channel from the digital audio signal for the right channel. When the left-channel digital audio signal and the right-channel digital audio signal have the same phase, a surround signal may be created by a known pseudo-surround process.
[0039]
The monaural signal generation unit 23 generates a monaural audio digital signal (hereinafter, monaural signal) by adding a 2-channel stereo signal generated by down-mixing the 5.1-channel digital audio signal under the control of the control unit 108. I do. The digital audio signal processed by the audio signal processing unit 102 is output to the selector 104.
[0040]
The selector 104 includes a front left channel (L channel), a front right channel (R channel), a rear left channel (RL channel), a rear right channel (RR channel, a center channel (C) included in the 5.1 channels of the Dolby Digital system. Channel and a subwoofer channel (LFE channel), and outputs a digital audio signal to the selected channel.The selection of the channel is controlled by the control unit 108. The selector 104 can be configured by a semiconductor element or the like. If no control is performed by the control unit 108, the selector 104 outputs the input 5.1-channel digital signal to a specified channel in accordance with the Dolby Digital system.
[0041]
The digital audio signal output to each channel is converted to an analog audio signal by the DAC 105, filtered by the filter 106, amplified by the amplifier 107, and output to the six independent speakers 8, respectively.
[0042]
The speaker 8 is a Dolby Digital 5.1 channel speaker. In the present embodiment, speakers connected to the L channel, the R channel, the RL channel, the RR channel, the C channel, and the LFE channel are respectively referred to as an L speaker 81, an R speaker 82, an RL speaker 83, an RR speaker 84, a C speaker 85, This is indicated by an LFE speaker 86. The L speaker 81, the R speaker 82, the RL speaker 83, the RR speaker 84, and the C speaker 85 are arranged at the front left, front right, rear left, rear right, and front of the viewer, respectively. The LFE speaker 86 may be placed anywhere, but when there is only one viewer, it is generally placed on the right or left side of the viewer.
[0043]
The storage unit 109 is configured by a semiconductor memory or the like, and stores viewing pattern information described later. As will be described later, the viewing pattern information is data that defines the viewing pattern. Operation unit 110 accepts an operation of selecting a viewing pattern by a viewer, and outputs an electric signal indicating a selection result to control unit 108. The operation of selecting the viewing pattern may be performed by a GUI. The operation unit 110 can be configured by a remote controller or the like. The control unit 108 acquires the viewing pattern information defining the viewing pattern selected by the operation of the operation unit 110 from the storage unit 108, and uses the sound signal processing unit 102 and the The selector 104 is controlled. Further, the control unit 108 instructs the video signal processing unit 111 on the screen arrangement pattern indicated by the acquired viewing pattern information. The video signal processing unit 111 displays one or a plurality of screens on the display device 2 by, for example, synthesizing a video signal output from the digital signal input unit 100 according to a command from the control unit 108. As will be described later, when there are a plurality of screens displayed on the display device 2, the screen arrangement pattern defines the position, size, and the like of each screen. Note that the processing device 1 may be built in a DVD player, a tuner, a set-top box, or the like (not shown) or the display device 2. Further, the audio signal processing unit 102 may perform processing other than the above such as volume adjustment and volume balance adjustment.
[0044]
(1-2) Storage unit
FIG. 2A is an example of the viewing pattern information stored in the storage unit 109. The viewing pattern information defines the correspondence between the screen arrangement pattern and the loudspeaker pattern (hereinafter, the viewing pattern). In this figure, four viewing patterns from pattern 1 to pattern 4 are shown. The viewer can select any one of these four patterns using the operation unit 110. The screen arrangement pattern defines the positions and sizes of a plurality of screens displayed on the display device 2, and here, four screen arrangement patterns “arrangement 1” to “arrangement 4” are shown. For example, when the screen arrangement pattern “arrangement 1” is instructed from the control unit 108 to the video signal processing unit 111, a screen as shown in FIG. Here, a screen A that is a large screen and a screen B that is a small screen are displayed on the display device 2. For example, when the screen arrangement pattern “arrangement 2” is instructed from the control unit 108 to the video signal processing unit 111, a screen as shown in FIG. Here, the screen A and the screen B divided into the same size on the left and right are displayed on the display device 2. For example, when the screen arrangement pattern “arrangement 3” is instructed from the control unit 108 to the video signal processing unit 111, a screen as shown in FIG. Here, the screen A, the screen B, the screen C, and the screen D, which are divided into the same size vertically and horizontally, are displayed on the display device 2.
[0045]
On the other hand, the loudspeaker pattern defines the channel to be the output destination of the digital audio signal corresponding to each screen in the selector 104 and the type of the digital audio signal to be output. The control unit 108 controls the audio signal processing unit 102 according to the loud sound pattern indicated by the viewing pattern information acquired from the storage unit 109, and performs a predetermined process on the input digital audio signal. Further, the control unit 108 controls the selector 104 according to the acquired sound enhancement pattern to output the digital audio signal output from the audio signal processing unit 102 to any one of the channels.
[0046]
FIG. 2B shows an example of loud-sound pattern information that determines a loud-sound pattern. The loudspeaker pattern information includes one or a plurality of viewing patterns indicating the correspondence between the “output signal” and the “corresponding screen” for each channel. “Output signal” indicates the type of output signal to be output to each channel. Here, the type of output signal is indicated by "R" for a right stereo signal, "L" for a left stereo signal, "MONO" for a monaural signal, and "Surr" for a surround signal. The “corresponding screen” indicates a screen corresponding to a stereo signal when the “output signal” is R or L.
[0047]
For example, the type of signal output to the “L channel” of the loudspeaker pattern “loudspeaker 1” is the digital audio signal “L” on the left side of the stereo signal corresponding to “screen A”. On the other hand, the “corresponding screen” indicates a screen corresponding to a two-channel stereo signal to be added by the monaural signal generation unit 23 to generate a monaural signal when the “output signal” is “MONO”. For example, a monaural signal generated by adding left and right stereo signals corresponding to “screen A” is input to the “L channel” of the loudspeaker pattern “loudspeaker 3”. That is, when the control unit 108 obtains the corresponding screen “screen A” and the output signal “MONO” from the “L channel” of the voice pattern “loud voice 3”, the control unit 108 controls the audio signal processing unit 102 to control the “screen A”. Generate a monaural signal from a stereo signal. Further, the control unit 108 controls the selector 104 to output the monaural signal generated from the stereo signal of “screen A” to the L channel.
[0048]
Further, the “corresponding screen” indicates a screen corresponding to a two-channel stereo signal to be subtracted to create a surround signal when the “output signal” is “Surr”. For example, a surround signal generated by subtracting the stereo signal corresponding to the screen A and a surround signal generated by subtracting the stereo signal corresponding to the screen B are combined with the “C channel” of the loudspeaker pattern “loudspeaker 2”. Is entered. That is, when the control unit 108 obtains the corresponding screens “screen A, B” and the output signal “Surr” from the “C channel” of the voice pattern “loud voice 2”, the control unit 108 controls the audio signal processing unit 102 to “screen A”. , A surround signal is generated from the stereo signal of “screen B”, and a surround signal is generated from the stereo signal of “screen B”. Further, the control unit 108 controls the selector 104 to output the surround signal generated on the C channel. Note that “*” shown in the LFE channel of FIG. 2B indicates that the control unit 108 controls the audio signal processing unit 102 and the selector 104 so that no audio signal is output to the LFE channel. The loudspeaker pattern information may be changed so that any audio signal is input to the LFE channel.
[0049]
The screen layout pattern, the loudspeaker pattern, and the viewing pattern are not limited to the above description. For example, the screen arrangement pattern may be as shown in FIGS. 6 (a) and 6 (b). Further, part or all of the viewing pattern information stored in the storage unit 109 may be arbitrarily changed, deleted, or updated by the viewer by operating the operation unit 110 or the like. Further, the correspondence between the screen arrangement pattern and the loudspeaker pattern may or may not be one-to-one.
[0050]
(3) Viewing pattern
Next, one of “Pattern 1” to “Pattern 4” indicated by the viewing pattern information of FIG. 2 is selected by the operation unit 110, and the control unit 108 controls the audio signal processing unit 102 and the selector 104 in accordance with the selection. A viewing mode realized when a screen layout pattern is instructed to the video signal processing unit 111 will be described.
[0051]
(3-1) Pattern 1
FIG. 3 shows that the control unit 108 controls the audio signal processing unit 102 and the selector 104 according to the loudspeaker pattern “loudspeaker 1” in accordance with the pattern 1 indicated by the viewing pattern information in FIG. It is a figure which shows the viewing-and-listening aspect implement | achieved when commanding "arrangement 1". This viewing mode assumes that one viewer V views from the front of the display device 2. When a digital audio signal is input to each channel according to the loudspeaker pattern “loudspeaker 1”, the sound on screen A is transmitted from the L speaker 81, R speaker 82, and C speaker 85 disposed in front of the viewer V to the sound on screen B. Is amplified from the RL speaker 83 and the RR speaker 84 arranged behind the viewer V. Therefore, when the viewer V views the screen A and the screen B at the same time, the sound of the screen A and the sound of the screen B can be easily distinguished from the position of the sound source. The sound volume of the sound on the screen A, the sound volume of the sound on the screen B, or the balance of the sound volumes may be adjustable by the sound signal processing unit 102. For example, if the audio signal processing unit 102 performs processing so that the volume of the screen A is higher than the volume of the screen B, it is easier to distinguish between the audio of the screen A and the audio of the screen B.
[0052]
(3-2) Pattern 2
FIG. 4 shows that the control unit 108 controls the audio signal processing unit 102 and the selector 104 according to the loudspeaker pattern “loudspeaker 2” in accordance with the pattern 2 indicated by the viewing pattern information of FIG. It is a figure which shows the viewing-and-listening aspect implement | achieved when commanding "arrangement 2". This viewing mode assumes a case where two viewers V1 and V2 are arranged at positions facing the display device 2 and look at the screen A and the screen B obliquely left and right, respectively. When a digital audio signal is input to each channel in accordance with the loudspeaker pattern “loudspeaker 2”, a viewer V1 who views screen A receives an R channel voice corresponding to screen A from L speaker 81 and a screen A from RL speaker 83. The corresponding L-channel sound is loudspeaked. On the other hand, the audio for the L channel corresponding to the screen B is loudspeaked from the R speaker 82 and the audio for the R channel corresponding to the screen B from the RR speaker 84 to the viewer V2 who views the screen B. Further, the surround sound corresponding to the screen A and the surround sound corresponding to the screen B are amplified from the C speaker 85. Therefore, the two viewers V1 and V2 can simultaneously view the screens A and B divided into left and right in stereo sound.
[0053]
(3-3) Pattern 3
4, the control unit 108 controls the audio signal processing unit 102 and the selector 104 according to the pattern 3 indicated by the viewing pattern information in FIG. A viewing mode realized when the screen layout pattern “arrangement 2” is instructed will be described. This viewing mode assumes a case where two viewers V1 and V2 are arranged at positions facing the display device 2 and look at the screen A and the screen B obliquely to the left and right, respectively, as in the above (3-2). When a digital audio signal is input to each channel in accordance with the loudspeaker pattern "loudspeaker 3", the viewer V1 who views screen A receives monaural voice corresponding to screen A from L speaker 81 and screen A from RL speaker 83. Surround sound is amplified. On the other hand, a monaural sound corresponding to the screen B from the R speaker 82 and a surround sound corresponding to the screen B from the RR speaker 84 are loudspeaked to the viewer V2 who views the screen B. Therefore, two viewers V1 and V2 can simultaneously view the screens A and B divided into right and left with surround sound.
[0054]
(3-4) Pattern 4
FIG. 5 shows that the control unit 108 controls the audio signal processing unit 102 and the selector 104 according to the pattern 4 indicated by the viewing pattern information in FIG. It is a figure which shows the viewing-and-listening aspect implemented when "arrangement 3" is instructed. In this viewing mode, screens A, B, C, and C are positioned at positions where four viewers V1, V2, V3, and V4 are close to L speaker 81, R speaker 82, RL speaker 83, and RR speaker 84, respectively. It is assumed that D is viewed. When a digital audio signal is input to each channel in accordance with the loudspeaker pattern "loudspeaker 4", a monaural voice corresponding to the screen A from the L speaker 81 to the viewer V1, and a screen B from the R speaker 82 to the viewer V2. The monaural sound, the monaural sound corresponding to the screen C from the RL speaker 83 to the viewer V3, and the monaural sound corresponding to the screen D from the RR speaker 84 to the viewer V4. From the C speaker 85, the sound obtained by synthesizing the surround sound corresponding to each of the screens A to D is amplified. Accordingly, the four viewers V1 to V4 can easily recognize the sound corresponding to the screen they see, and the four viewers can view the screen simultaneously.
[0055]
<Second embodiment>
An analog signal instead of a digital signal may be input to the processing device 1. For example, as shown in FIG. 7, an analog signal input unit 101 is provided instead of the digital signal input unit 100 of the first embodiment. The analog signal input unit 101 receives an analog video signal and an analog audio signal from a video deck, a tuner (not shown) for receiving a broadcast signal of a terrestrial analog television broadcast, and the like. The analog signal input unit 101 separates an analog audio signal from the input analog signal and outputs it to the ADC 112, and separates an analog video signal and outputs the analog video signal to the video signal processing unit 111. The ADC 112 converts the input analog audio signal into a digital audio signal and outputs the digital audio signal to the audio signal processing unit 102. The audio signal processing unit 102 does not include the downmix unit 21 unlike the first embodiment. The surround signal creation unit 22 generates a surround signal by directly subtracting the digital audio signal converted from the analog stereo audio signal by the ADC 112. Further, the monaural signal generation unit 23 generates a monaural signal by directly adding the digital audio signal converted from the analog stereo audio signal. Other configurations and functions are the same as those of the first embodiment, and thus description thereof is omitted.
[0056]
According to such a configuration, even if the signal input to the AV system is an analog signal, if the viewing pattern is selected by the operation unit 110, the screen is displayed in the corresponding screen arrangement pattern as in the first embodiment. And a loudspeaker is generated with a corresponding loudspeaker pattern.
[0057]
<Other embodiments>
The screen layout pattern, the loudspeaker pattern, and the viewing pattern stored in the storage unit 109 are not limited to those described in the first embodiment, and may be appropriately changed according to the viewing mode of the viewer. As a result, a flexible AV system that can respond to various viewing modes of the viewer can be provided.
[0058]
【The invention's effect】
According to the present invention, when a viewing pattern is selected, a screen layout pattern and a loud sound pattern are determined, one or a plurality of screens are displayed according to the screen layout pattern, and audio is output from each speaker according to the loud sound pattern. Therefore, if the viewer sets the viewing pattern according to his / her viewing style, the user can freely select his / her favorite screen arrangement and can output the sound so as to be suitable for viewing.
[Brief description of the drawings]
FIG. 1 is a block diagram of an AV system according to a first embodiment.
FIG. 2 is an example of viewing pattern information and loudspeaker pattern information.
FIG. 3 is a diagram showing a viewing mode of pattern 1;
FIG. 4 is a diagram showing a viewing mode of a pattern 2 and a pattern 3;
FIG. 5 is a diagram showing a viewing mode of a pattern 4;
FIG. 6 is an example of another screen arrangement pattern.
FIG. 7 is a block diagram of an AV system according to a second embodiment.
[Explanation of symbols]
102: audio signal processing unit
104: Selector
108: control unit
109: storage unit
111: video signal processing unit

Claims (10)

Input means for inputting a digital audio signal corresponding to one or more screens to be displayed on the display device;
Includes Dolby Digital front left channel (L channel), front right channel (R channel), rear left channel (RL channel), rear right channel (RR channel, center channel (C channel), and subwoofer channel (LFE channel). Channels and
Screen layout selection means for receiving a screen layout selection indicating a screen layout in the display device;
Display control means for displaying a screen according to the selected screen arrangement on the display device,
Output means for outputting the digital audio signal input to the input means to the channel,
A storage unit that stores viewing pattern information that defines the correspondence between the screen layout and the channel to which the digital audio signal is output,
Output control means for selecting a channel to which a digital audio signal is to be output according to the selected screen layout and the viewing pattern information, and controlling the output means to output the digital audio signal to the selected channel; ,
An AV system comprising: Processing means for performing predetermined processing on the input digital audio signal;
Processing control means for controlling the execution of the predetermined processing according to the selected screen layout and the viewing pattern information,
The AV system according to claim 1, further comprising: The predetermined processing is to subtract the right-channel digital audio signal from the left-channel digital audio signal included in the 2-channel stereo digital audio signal or to subtract the left-channel digital audio signal from the right-channel digital audio signal. 3. The AV system according to claim 2, wherein the processing is a surround signal generation process for generating a surround signal. 4. The AV system according to claim 3, wherein the output control means outputs the surround signal to the C channel according to the selected screen layout and the viewing pattern information. The predetermined process is a downmix process of downmixing part or all of the 5.1-channel digital audio signal input to the input unit into a stereo signal that is a 2-channel stereo digital audio signal. The AV system according to claim 2, wherein The screen layout selecting means receives a selection of a large and small screen layout that is a screen layout including a large screen and a small screen,
The output control means, when the large and small screen layout is selected, outputs a right channel digital audio signal corresponding to the large screen to the R channel according to the viewing pattern information corresponding to the large and small screen layout, A left channel digital audio signal corresponding to the large screen is output to the L channel, a left channel digital audio signal corresponding to the small screen is output to the RL channel, and a right channel digital audio corresponding to the small screen. 6. The AV system according to claim 1, wherein a signal is output to the RR channel. The screen layout selecting means receives a selection of a left and right split screen layout, which is a screen layout including a left screen and a right screen divided into right and left,
The output control means outputs a right channel digital audio signal corresponding to the left screen to the L channel according to the viewing pattern information corresponding to the left / right divided screen arrangement when the left / right divided screen arrangement is selected. Outputting a left channel digital audio signal corresponding to the left screen to the RL channel, outputting a left channel digital audio signal corresponding to the right screen to the R channel, and outputting a right channel digital audio signal corresponding to the right screen. 6. The AV system according to claim 1, wherein a digital audio signal is output to the RR speaker. The predetermined process is a monaural signal generation process for generating a monaural signal by adding a left-channel digital audio signal and a right-channel digital audio signal included in the two-channel stereo digital audio signal. The AV system according to claim 3. The screen layout selecting means receives a selection of a left and right split screen layout, which is a screen layout including a left screen and a right screen divided into right and left,
The processing control means, when the left and right split screen arrangement is selected, according to the viewing pattern information corresponding to the left and right split screen arrangement, the monaural signal from the digital audio signal respectively corresponding to the left screen and the right screen To generate, and to generate a surround signal from the digital audio signal corresponding to the left screen and the digital audio signal corresponding to the right screen, respectively,
The output control means, when the left / right split screen arrangement is selected, outputs a monaural signal generated from a digital audio signal corresponding to the left screen according to the viewing pattern information corresponding to the left / right split screen arrangement to the L channel. The monaural signal generated from the digital audio signal corresponding to the right screen is output to the R channel, the surround signal generated from the digital audio signal corresponding to the left screen is output to the RL channel, The AV system according to claim 8, wherein a surround signal generated from a digital audio signal corresponding to the left screen is output to the RR channel. The display control means receives a selection of a four-split screen arrangement including an upper left screen, an upper right screen, a lower left screen, and a lower right screen divided into four parts vertically, horizontally, and
When the four-split screen layout is selected, the processing control means determines the digital audio corresponding to the upper left screen, the upper right screen, the lower left screen, and the lower right screen according to the viewing pattern information corresponding to the four split screen layout. Generate monaural signals from the signals,
When the four-split screen layout is selected, the output control means converts a monaural signal generated from a digital audio signal corresponding to the upper left screen into the L channel according to the viewing pattern information corresponding to the four-split screen layout. The monaural signal generated from the digital audio signal corresponding to the upper right screen is output to the R channel, the monaural signal generated from the digital audio signal corresponding to the lower left screen is output to the RL channel, The AV system according to claim 8, wherein a monaural signal generated from a digital audio signal corresponding to the lower right screen is output to the RR channel.

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