JP2020145682A - Signal processing device - Google Patents

Abstract

To provide a signal processing device capable of processing signals transmitted via different networks.SOLUTION: In a distribution system, a broadcast device transmits signals through a plurality of networks such as communication and broadcast, and furthermore adds timing information that enables synchronous reproduction of video and audio to a video signal and an audio signal. A television receives a signal in accordance with "MPEG-H MMT," converts it into a signal in accordance with "MPEG-2 TS," and thereby allows it to be recorded on an external recording medium.SELECTED DRAWING: Figure 1

Description

The present invention relates to a signal processing device and the like.

"MPEG-H MMT", which can transmit signals over multiple networks such as communication and broadcasting, may become a new standard.

International release WO 2013/190787

Provided is a signal processing device capable of processing signals transmitted via different networks.

According to one aspect of the present invention, the signal processing device described in the claims is provided.

The block diagram which shows the schematic structure of the distribution system which concerns on 1st Embodiment. The figure for schematically explaining the processing operation of the synchronization part 23. The block diagram which shows the schematic structure of the distribution system which concerns on 2nd Embodiment. The block diagram which shows the schematic structure of the distribution system which concerns on 3rd Embodiment. The block diagram which shows the schematic structure of the distribution system which concerns on 4th Embodiment. The block diagram which shows the schematic structure of the distribution system which concerns on 5th Embodiment. The block diagram which shows the schematic structure of the distribution system which concerns on 6th Embodiment. The figure which shows an example of the storage contents of the storage part 2E. The block diagram which shows the schematic structure of the distribution system which concerns on 7th Embodiment. The block diagram which shows the schematic structure of the distribution system which concerns on 8th Embodiment. The figure which explains the state of complementation schematically. The block diagram which shows the schematic structure of the recorder 5 which concerns on 9th Embodiment. The block diagram which shows the schematic structure of the smartphone 6 which concerns on 10th Embodiment. The figure which shows an example of a two-dimensional display.

(First Embodiment)
When the video signal and the audio signal are transmitted via different networks, a transmission delay difference may occur. Even so, if timing information such as presentation time information and a time stamp is added to the video signal and the audio signal, both can be synchronized and reproduced on the receiver side. However, when the device that reproduces the video signal and the device that reproduces the audio signal are different, as a typical example, the video signal is reproduced on the TV and the audio signal is transmitted by the external speaker using the amplifier connected to the TV. It is difficult to synchronize when playing back.

Therefore, the first embodiment provides a mechanism capable of synchronizing the video signal and the audio signal and reproducing the video signal even in such a case.

FIG. 1 is a block diagram showing a schematic configuration of a distribution system according to the first embodiment. This distribution system is composed of a broadcasting device 1, a television (signal processing device) 2, an amplifier 3 connected to the television 2, and a speaker 4 connected to the amplifier 3. The amplifier 3 and the speaker 4 may be integrated. Further, the signal processing system is composed of the television 2 and the amplifier 3.

The broadcasting device 1 includes a content storage unit 11, a video transmission unit 12, and an audio transmission unit 13. However, the content storage unit 11, the video transmission unit 12, and the audio transmission unit 13 do not necessarily have to be in one broadcasting device 1, and may be distributed to a plurality of devices.

The content storage unit 11 stores the content signal. Content signals consist of video and audio signals that are associated with each other and should be played back synchronously. The video transmission unit 12 transmits a video signal to the television via the broadcasting network. Further, the voice transmission unit 13 transmits a voice signal to the television via a communication network (such as the Internet; the same applies hereinafter).

Timing information is added to the video signal and the audio signal. For example, the video signal and the audio signal are composed of a plurality of packets, and the packets may include timing information. The timing information may be the presentation time information, and the receiver side can grasp the packets of the video signal and the audio signal to be reproduced at each time. Further, the timing information may be a time stamp, and the receiver side may simultaneously reproduce the packet of the video signal with a certain time stamp and the packet of the audio signal with the same time stamp.

The television 2, which is an example of the signal processing device, has a video receiving unit 21, an audio receiving unit 22, a synchronization unit 23, a display 24, a speaker 25, and an output unit 26.
The video receiving unit 21 receives the video signal via the broadcasting network. The voice receiving unit 22 receives the voice signal via the communication network. However, the received video signal and the audio signal are not always synchronized, and one of them may be received earlier due to the transmission delay difference between the broadcasting network and the communication network.

Therefore, the synchronization unit 23 controls the reproduction timing of the video signal and / or the audio signal so that the video signal and the audio signal are reproduced in synchronization. More specifically, the synchronization unit 23 synchronizes the video signal and the audio signal based on the timing information. For example, when the transmission delay time differs depending on the network, the synchronization unit 23 compensates for the difference in the transmission delay time by delaying the signal received earlier.

FIG. 2 is a diagram schematically illustrating the processing operation of the synchronization unit 23. As shown in FIG. 6A, it is assumed that the audio signal is received with a delay of dt1 with respect to the video signal. This can be grasped from the timing information added to the video signal and the audio signal. In this case, the synchronization unit 23 delays the video signal by dt1 by using a frame memory or the like, and synchronizes it with the audio signal as shown in FIG. On the other hand, as shown in FIG. 3B, when the video signal is received with a delay of dt2 with respect to the audio signal, the synchronization unit 23 delays the audio signal by dt2, and as shown in FIG. , Synchronize with the video signal.

The synchronization unit 23 can perform such processing in units to which timing information is added. For example, when timing information is added to each packet, the synchronization unit 23 adjusts the delay time for each packet. When timing information is added to each frame, the synchronization unit 23 adjusts the delay time for each frame.

In this way, video and audio signals synchronized with each other are generated. The former can be reproduced on the display 24 built into the television 2. The latter can be reproduced by the speaker 25 built in the television 2, but when the audio signal is reproduced by the external speaker 4 via the amplifier 3, the speaker 25 of the television 2 may be muted. Further, before and after the processing by the synchronization unit 23, video processing and / or audio processing may be performed as necessary.

The television 2 is connected to the amplifier 3 by, for example, an HDMI (registered trademark) cable. When the audio signal is reproduced by the speaker 4 connected to the amplifier 3, the output unit 26 outputs the audio signal output from the synchronization unit 23, in other words, the audio signal synchronized with the video signal, to the amplifier 3. The voice receiving unit 31 of the amplifier 3 receives such a voice signal. Then, this audio signal is subjected to audio processing as necessary and reproduced by the speaker 4.

In the television 2, the time until the synchronized video signal is output from the synchronization unit 23 and reproduced on the display 24, and the synchronized audio signal is output from the output unit 26 to the audio reception unit 31 of the amplifier 3 to be a speaker. If the time until reproduction in 4 is substantially equal, the video signal reproduced in the television 2 and the audio signal reproduced in the speaker 4 via the amplifier 3 can be synchronized. When the time required for internal processing in the amplifier 3 is known, such as when the TV 2 and the amplifier 3 are manufactured by the same manufacturer, the synchronization unit 23 synchronizes with consideration of this time to obtain a higher accuracy image. The signal and audio signal can be played back in synchronization.

As described above, in the first embodiment, since the video signal and the audio signal are synchronized and the audio signal is transmitted to the amplifier 3, the television 2 that reproduces the video signal and the amplifier 3 that reproduces the audio signal Even if (speaker 4) is different, both signals can be synchronized and reproduced. According to this configuration, the amplifier 3 does not require a communication function for receiving an audio signal via a communication network or a mechanism for adjusting the reproduction timing of the audio signal.

(Second Embodiment)
The second embodiment is a modification of the first embodiment, in which an audio signal before synchronization is output to an amplifier, information necessary for synchronization processing is also notified to the amplifier, and synchronization processing is performed on the amplifier side. Is. Hereinafter, the differences will be mainly described.

FIG. 3 is a block diagram showing a schematic configuration of the distribution system according to the second embodiment. The broadcasting device of FIG. 1 is omitted. The television 2 further has a control unit 27.

The control unit 27 generates a signal (hereinafter, referred to as a synchronization control signal) that can be used to synchronize the video signal and the audio signal. As a specific example, the control unit 27 may detect a delay time (transmission time difference) between the video signal and the audio signal and generate a synchronization control signal indicating this delay time. The delay time here is a time indicating which of the video time and the audio signal is received with a delay with respect to the other signal, for example, dt1 in FIG. 2A. And dt2 in FIG. 2 (b). The delay time is grasped from the timing information added to the video signal and the audio signal. Even if the signal has other uses, if it can be used for synchronizing the video signal and the audio signal, the signal may be used as the synchronization control signal.

The output unit 26 outputs the audio signal before synchronization and the synchronization control signal to the amplifier 3. Both of these two signals may be supplied to the amplifier 3 via an HDMI cable, for example. Alternatively, the audio signal may be supplied to the amplifier 3 via the HDMI cable, and the synchronization control signal may be supplied to the amplifier 3 via another path such as short-range wireless communication.

The audio receiving unit 31 of the amplifier 3 receives the audio signal before being synchronized. The amplifier 3 also has a synchronization unit 32, and the synchronization unit 32 synchronizes the audio signal received by the audio reception unit 31 with the video signal reproduced on the television 2 based on the synchronization control signal. When the synchronization control signal indicates a delay time, the synchronization unit 32 delays the audio signal according to the delay time. For example, as shown in FIG. 2B, when the video signal is delayed by dt2, the synchronization unit 32 delays the audio signal by dt2 and synchronizes it with the video signal on the television 2. Then, the synchronized audio signal is reproduced by the speaker 4.

As shown in FIG. 2A, when the audio signal is delayed, the video signal and the audio signal are synchronized by delaying the video signal in the synchronization unit 23 of the television. Therefore, it is not necessary to delay the audio signal in the synchronization unit 32 of the amplifier. Therefore, the synchronization control signal may indicate that it is not necessary to delay the audio signal, may simply indicate that the audio signal is delayed from the video signal, or the delay time is zero. It may indicate that.

As described above, in the second embodiment, since the synchronization control signal is output to the amplifier 3, even if the television 2 that reproduces the video signal and the amplifier 3 that reproduces the audio signal are different, both signals are synchronized. Can be played. According to this configuration, the amplifier 3 does not need a communication function for receiving an audio signal via a communication network. Further, since the audio signal is supplied to the amplifier 3 from the vicinity of the audio receiving unit 22 of the television 2, it is suitable when it is desired to avoid the audio processing on the television 2 side as much as possible and perform the audio processing on the amplifier 3 side.
The synchronization control signal may be generated when the synchronization unit 23 performs synchronization processing.

(Third Embodiment)
In the third embodiment, it is possible to switch between supplying the audio signal before synchronization and the synchronization control signal to the amplifier and supplying the synchronized audio signal to the amplifier. Hereinafter, the differences from the first and second embodiments will be mainly described.

FIG. 4 is a block diagram showing a schematic configuration of the distribution system according to the third embodiment. The broadcasting device of FIG. 1 is omitted. The television 2 further includes an information acquisition unit 28 for acquiring information of the amplifier 3.

The information of the amplifier 3 is information indicating whether the amplifier 3 should receive the audio signal before synchronization and the synchronization control signal, or should receive the synchronized audio signal. Alternatively, the information of the amplifier 3 may be information indicating whether or not the amplifier 3 can process the synchronization control signal. As an example, the information of the amplifier 3 may be information that can determine whether or not the amplifier 3 has the synchronization unit 32 of FIG. In this case, the information of the amplifier 3 may be information that directly indicates whether or not the amplifier 3 has the synchronization unit 32, or may be identification information such as the model number of the amplifier 3. In the latter case, the model number of the amplifier 3 having the synchronization unit 32 and the model number of the amplifier 3 not having the synchronization unit 32 may be stored in the database in the television 2 (or can be referred from the television 2). As another example, the information of the amplifier 3 may be set by the user for the amplifier 3.

The information acquisition unit 28 may acquire the information of the amplifier 3 from the amplifier 3 through, for example, an HDMI cable, or may directly accept the setting from the user. The information of the amplifier 3 is notified to the output unit 26.

Separately from this, user settings are input to the output unit 26. The user setting here is to supply the synchronized audio signal to the amplifier 3 as shown in FIG. 1, or to supply the audio signal before synchronization and the synchronization control signal to the amplifier 3 as shown in FIG. It is the setting.

Then, the output unit 26 is of the audio signal before synchronization and the synchronization control signal and the synchronized (after synchronization) audio signal based on the information of the amplifier 3 and / or the user setting. Either is output to the amplifier 3. In the latter case, the synchronization control signal may or may not be supplied to the amplifier 3.

When the audio signal and the synchronization control signal before being synchronized are supplied, the synchronization unit (not shown) of the amplifier 3 synchronizes the video signal and the audio signal by delaying the audio signal based on the synchronization control signal. .. When the synchronized audio signal is supplied, it is not necessary to operate even if there is a synchronization unit. It is desirable that the output unit 26 also notify the amplifier 3 of information indicating whether the audio signal is the audio signal before synchronization or the audio signal after synchronization.

The relationship between the information of the amplifier 3 and the user setting may be prioritized as appropriate. As an example, as a user setting, three options of "before synchronization", "after synchronization", and "automatic" are provided to the user, and when "before synchronization" and "after synchronization" are selected, regardless of the information of the amplifier 3. The selected audio signal may be supplied, and when "automatic" is selected, the audio signal may be supplied based on the information of the amplifier 3. As another example, in principle, the information of the amplifier 3 may be prioritized, and when the information of the amplifier 3 is unknown (when it cannot be acquired), the audio signal according to the user setting may be supplied.

The information acquisition unit 28 can be omitted when the output unit 26 uses only the user setting, and the user setting can be omitted when the output unit 26 uses only the information of the amplifier 3.

Further, in the first to third embodiments described above, the video signal and the audio signal are received by the television and the audio signal is output to the amplifier. On the other hand, in a signal processing device that receives a video signal and an audio signal, when the audio signal is reproduced by the signal processing device and the video signal is reproduced by another connected device, the video signal is another. Output to the device. In this case as well, the synchronized video signal may be output as described in the first embodiment, or the video signal and the synchronization control signal before synchronization may be output as described in the second embodiment. Alternatively, the user may be able to select either of the two as described in the third embodiment.

Further, in the first to third embodiments, when the video signal is reproduced by an external device connected to the television 2, the output unit 26 may output the video signal to the device. In this case as well, the synchronized video signal may be output as described in the first embodiment, or the video signal and the synchronization control signal before synchronization may be output as described in the second embodiment. Alternatively, either of them may be selected as described in the third embodiment.

(Fourth Embodiment)
Paragraph 0053 of Patent Document 1 discloses that after selecting a channel by a broadcast stream, an instruction to acquire a communication stream is given separately in response to a viewing instruction from a user. However, in this case, the user has to separately select the channel related to the broadcasting network and the viewing instruction regarding the communication network, which is very troublesome.
Therefore, the present embodiment provides a mechanism that allows the user to easily make settings for both networks.

FIG. 5 is a block diagram showing a schematic configuration of the distribution system according to the fourth embodiment. The distribution system includes a broadcasting device 1 and a television 2.

The broadcasting device 1 has a content storage unit 11, a broadcasting transmission unit 14, and a communication unit 15. However, the content storage unit 11, the broadcast transmission unit 14, and the communication unit 15 do not necessarily have to be in one broadcasting device 1, and may be distributed to a plurality of devices.

The content storage unit 11 stores a plurality of content signals. Each content signal is composed of a video signal and an audio signal that are associated with each other and should be reproduced in synchronization, and timing information is added to each of them.

The broadcast transmission unit 14 multiplexes the video signals in the plurality of content signals and transmits the video signals to the television 2 via the broadcast network. In the present embodiment, the communication unit 15 is assumed to transmit an audio signal by unicast, receives a request signal described later from the television 2 via a communication network, and stores the audio signal indicated by the request signal as content. It is acquired from the unit 11 and transmitted to the television 2 via the communication network.

The television 2, which is an example of the signal processing device, includes an operation reception unit 29, a broadcast reception unit 2A, a tuner (selection unit) 2B, a request unit 2C, a communication unit 2D, a synchronization unit 23, a display 24, and the like. It has a speaker 25.

The operation reception unit 29 accepts user operations. The user operation may be an operation on the remote controller or an operation on a button (not shown) provided on the main body of the television 2. In the present embodiment, which channel of the multiplexed video signals is selected is set as a user operation. This channel selection is performed by pressing the channel selection key on the remote controller, selecting the content currently being distributed from the electronic program guide displayed on the display 24, pressing the channel selection button provided on the main body of the television 2, and the like. Will be.

The broadcast receiving unit 2A receives a plurality of multiplexed video signals via the broadcast network. The tuner 2B selects one of a plurality of multiplexed video signals according to the user operation received by the operation reception unit 29 from the user.

The request unit 2C generates a request signal for requesting an audio signal associated with the selected video signal. In the present embodiment, the request unit 2C generates a request signal according to the user operation received by the operation reception unit 29 from the user.

To give an easy-to-understand example, it is assumed that there are content signals from the first to third broadcasting stations (hereinafter, 1ch, 2ch, and 3ch in this order) as content signals. When the user selects 2ch by user operation, the tuner 2B selects the 2ch video signal and the requesting unit 2C generates a request signal for requesting the 2ch audio signal.

As described above, one user operation (such as pressing the channel selection key on the remote controller described above) is used for both channel selection by the tuner 2B and request signal generation by the request unit 2C. As a result, the user can make settings for both the broadcasting network and the communication network with one operation, which saves time and effort.

The communication unit 2D transmits the request signal to the broadcasting device 1 via the communication network. Then, the communication unit 2D receives the audio signal transmitted from the communication unit 15 in response to this request signal. The received audio signal is an audio signal associated with the video signal selected by the tuner 2B.

The synchronization unit 23, the display 24, and the speaker 25 are as described above. In the synchronization unit 23, the tuner 2C generates a request signal, the communication unit 2D transmits the request signal to the broadcasting device 1, and the communication unit 2D takes into consideration the delay until the audio signal is received. It is desirable to synchronize the video signal selected by 2B with the audio signal received by the communication unit 2D.

As described above, in the fourth embodiment, both the control for the broadcasting network and the control for the communication network can be performed by one user operation. Therefore, the time and effort of the user can be reduced.

When the signal processing device is a smartphone or tablet, the user operation may be an operation on a touch panel, or in the case of a personal computer, an operation on a mouse or keyboard, and channel selection or the like may be performed using some input interface. .. This also applies to other embodiments. Further, in order to be transmitted via a broadcasting network and a communication network, it is not necessary to be a video signal and an audio signal, and both may be a video signal (or an audio signal) or some control signal. Good.

(Fifth Embodiment)
The fifth embodiment described below is a modification of the fourth embodiment. Hereinafter, the differences from the fourth embodiment will be mainly described.

FIG. 6 is a block diagram showing a schematic configuration of the distribution system according to the fifth embodiment. The distribution system includes a broadcasting device 1 and a television 2. As a difference from the fourth embodiment, the request unit 2C in the television 2 receives a notification from the tuner 2B of which video signal the tuner 2B has selected, and generates a request signal.

To give an example similar to that of the fifth embodiment, when 2ch is selected by a user operation, the tuner 2B selects the video signal of 2ch. Then, the tuner 2B notifies the requesting unit 2C that the 2ch video signal has been selected. In response to this, the request unit 2C generates a request signal for requesting the 2ch audio signal.

By doing so, the time and effort of the user can be reduced. In both the fourth embodiment and the fifth embodiment, settings for both the broadcasting network and the communication network can be made based on one operation of the user.

The roles of the tuner 2B and the requesting unit 2C may be exchanged. That is, the requesting unit 2C generates a request signal for requesting one audio signal based on the user operation, notifies the tuner 2B of which audio signal is requested, and the tuner 2B selects a channel in response to this notification. You may go.

(Sixth Embodiment)
The sixth embodiment is a modification of the fourth and fifth embodiments. In the present embodiment, it is assumed that a plurality of audio signals are associated with one video signal in one content signal. The plurality of voice signals may be, for example, a main voice and a sub voice, a plurality of voices having different languages, or a voice having a different amount of information such as a stereo voice and a 5.1ch voice.

FIG. 7 is a block diagram showing a schematic configuration of the distribution system according to the sixth embodiment. The difference from the fourth and fifth embodiments is that the television 2 further includes a storage unit 2E. The storage unit 2E stores which of the plurality of audio signals should be requested. The storage unit 2E may be outside the television.

FIG. 8 is a diagram showing an example of the stored contents of the storage unit 2E. In this example, which of a plurality of audio signals is requested is stored in advance for each video signal (for each channel). The stored content may be set by the user according to the user's preference and the language used. Alternatively, it may be automatically set according to a contract or the like. For example, when a paid contract for receiving 5.1ch audio is made, it may be set via a broadcasting network or a communication network. Good.

Each item of the stored contents may be common to all channels or may be different for each channel. For example, it is desirable that the language is common to all channels. Further, it is desirable that the amount of information differs for each channel, for example, only the channel mainly composed of a music program is set to 5.1ch audio.

The request unit 2C generates a request signal for requesting a specific audio signal based on the user operation received by the operation reception unit 29 and the stored contents of the storage unit 2E. In the example of FIG. 8, when 2ch is selected by the user operation, the requesting unit 2C refers to the storage unit 2E and generates a requesting signal for requesting Japanese and stereo audio among the audio signals of 2ch. , Transmit to the broadcasting device 1.

When there are a plurality of audio signals associated with the video signals of 2ch, the communication unit 15 of the broadcasting device 1 selects one of them according to the request signal and transmits it to the television via the communication network.

As described above, in the sixth embodiment, since the audio signal to be requested is stored in the storage unit 2E, the user's labor can be reduced even when there are a plurality of audio signals associated with the video signal.

In FIG. 7, it is determined that the request unit 2C operates based on the user operation received by the operation reception unit 29 as in the fourth embodiment, but the notification from the tuner 2B is sent as in the fifth embodiment. In response, the request unit 2C may operate.

(7th Embodiment)
In the fourth to sixth embodiments, an audio signal is transmitted via a communication network in response to a request from the television 2. On the other hand, in the seventh embodiment described next, a plurality of audio signals are transmitted by so-called multicast, and one of the audio signals is selected on the television 2 side. Hereinafter, the differences will be mainly described.

FIG. 9 is a block diagram showing a schematic configuration of the distribution system according to the seventh embodiment. In the present embodiment, the communication unit 15 of the broadcasting device 1 transmits a plurality of audio signals (multiplexed as necessary) without specifying a transmission destination without receiving a request from the television 2. Such a transmission form is also called multicast, and is similar to transmission by a broadcasting network. The plurality of audio signals are, for example, audio signals in content signals from a plurality of broadcasting stations.

Then, the communication unit 2D in the television 2 receives a plurality of audio signals. Further, the television 2 includes a selection unit 2F, and selects one of the audio signals according to the user operation received by the operation reception unit 29.

In this embodiment, one user operation is used for both channel selection by the tuner 2B and selection by the selection unit 2F. As a result, the user can make settings for both the broadcasting network and the communication network with one operation, which saves time and effort.

Although this embodiment is similar to the fourth embodiment, it may be the same as the fifth embodiment. That is, even if the tuner 2B selects one video signal based on the user operation and notifies the selection unit 2F which audio signal has been selected, and the selection unit 2F makes a selection in response to this notification. Good. Of course, the roles of the tuner 2B and the selection unit 2F may be exchanged.
Further, the storage unit 2E may be provided as in the sixth embodiment, and the selection unit 2F may also refer to the storage unit 2E for selection.

(8th Embodiment)
In the case of smartphones, etc., it may be difficult to receive signals from the broadcasting network or communication networks, but even in such situations, it is possible to reproduce video signals and audio signals as much as possible. Need to be.
Therefore, in the eighth embodiment, the audio signal is received from both the broadcasting network and the communication network, and one of them is selected and reproduced.

FIG. 10 is a block diagram showing a schematic configuration of the distribution system according to the eighth embodiment. The differences from the above-described embodiment will be mainly described. In this embodiment, a smartphone is assumed as a signal processing device, but it can also be applied to other electronic devices, particularly mobile devices such as notebook PCs and tablets, and in-vehicle televisions (which can also be incorporated in car navigation systems). It is suitable for mobile communication equipment such as.

The broadcast transmission unit 14 in the broadcast device 1 transmits a video signal and a first audio signal to be reproduced in synchronization with the video signal via a broadcast network. The communication unit 15 transmits a second audio signal to be reproduced in synchronization with the video signal via the communication network. The second audio signal may be substantially the same as or different from the first audio signal (except for differences due to differences in transmission networks), and specific examples will be described later.

The smartphone 6 has a broadcast receiving unit 61, a communication receiving unit 62, a determination unit 63, an output unit 64, a synchronization unit 65, a display 66, and a speaker 67. The broadcast receiving unit 61 receives the video signal and the first audio signal via the broadcast network. The communication receiving unit 62 receives the second audio signal via the communication network. The determination unit 63 determines which of the first audio signal and the second audio signal should be reproduced. The output unit 64 selects and outputs the first audio signal or the second audio signal according to the determination result. The output unit 64 may output the first audio signal or the second audio signal after performing predetermined processing for processing in the subsequent stage.

The synchronization unit 65 and the like are as described above. Since the video signal and the first audio signal should be synchronized, the synchronization unit 65 may synchronize the video signal and the second audio signal only when the second audio signal is output.

The determination unit 63 may determine that whichever is better should be reproduced based on the conditions of the broadcasting network and the communication network and the reception quality of the first audio signal and the second audio signal. The status of the broadcasting network and the communication network may be judged from, for example, the reception strength of the broadcasting network (broadcast wave) or the reception strength of the communication network (communication radio wave). The reception quality may be judged from the error rate and S / N detected when demodulating / decoding the video signal or the audio signal. In either case, the relationship between the network conditions and the reception quality of the audio signal and which one should be selected may be determined in advance.

When the first audio signal and the second audio signal differ only due to the difference in the transmission network and the reproduced audio is substantially the same, the determination unit 63 determines that the first audio signal and the second audio signal It may be determined that the one that can be reproduced with high quality should be reproduced, and if both signals can be reproduced to the same extent, it may be determined that either signal should be reproduced.

The second audio signal may be of higher quality, such as the first audio signal being stereo audio and the second audio signal being 5.1ch audio. The first voice signal is voice in a basic language (for example, Japanese in the case of a smartphone that is supposed to be used by Japanese people), and the second voice signal is selected by the user from a plurality of languages. It may be spoken in a language.

In such a case, since the user should want to reproduce the second audio signal rather than the first audio signal, the determination unit 63 may determine that the second audio signal is preferentially reproduced. For example, if the first audio signal and the second audio signal can be reproduced to the same extent, the determination unit 63 determines that the second audio signal should be reproduced. Then, only when the second audio signal cannot be reproduced (including the case where it is unbearable to hear even if it can be reproduced and the case where the reproduction of the first audio signal sounds clearer), the first audio signal is used. Judge that it should be regenerated.

On the contrary, when it is considered that the user wants to reproduce the first audio signal, the determination unit 63 may determine that the first audio signal is preferentially reproduced. The details are the same as above.

By the way, for example, even when it is determined that the second audio signal should be reproduced, a part of the second audio signal may be missing. In that case, the output unit 64 may output the missing portion while complementing the missing portion with the corresponding portion of the first audio signal in real time.

FIG. 11 is a diagram schematically explaining the state of complementation. When the packet P2 of the second audio signal to be received by the communication receiving unit 62 cannot be normally received, the output unit 64 uses the packet P12 (corresponding to the packet P2) of the first audio signal received by the broadcast receiving unit 61. Complement. In this case, the output unit 64 can grasp the packet in the first audio signal corresponding to the packet that cannot be normally received in the second audio signal based on the timing information included in the first audio signal and the second audio signal. That is, it can be seen that the timing signal T2 is attached to the packet P2, and the packet P12 to which the corresponding timing signal T2 is attached may be used for complementation. If necessary, packets before and after packet P12 may be used for complementation.

If the packet P12 and the packet P2 are substantially the same, the output unit 64 may simply replace the portion of the packet P2 with the packet P12. Further, when the two are different, the output unit 64 may perform necessary conversion. For example, when the first audio signal is stereo audio and the second audio signal is 5.1ch audio, the output unit 64 may convert the stereo audio into 5.1ch audio by a known method at the time of complementation. When the former and the latter are different languages, the output unit 64 may translate the language at the time of completion. Further, when the two are not audio signals but video signals having different resolutions, the output unit 64 may resize at the time of complementation.

As described above, in the eighth embodiment, since the determination unit 63 is provided, it is possible to reproduce an appropriate one of the audio signal received via the broadcasting network and the audio signal received via the communication network.

In the present embodiment, the output destination of the output unit 64 is finally the speaker 67, but for example, when the signal processing device is a television, the output destination may be an amplifier as described in the first embodiment. Alternatively, when the signal processing device is a recorder, the output destination may be a storage medium, and the output destination is not particularly limited.

(9th embodiment)
In this embodiment, a recorder is mainly assumed as a signal processing device. Since the video signal and the audio signal including the timing information have a larger amount of data than the video signal and the audio signal that do not have the timing information, the recording capacity is squeezed. Therefore, in the present embodiment, the timing information is removed for recording.

FIG. 12 is a block diagram showing a schematic configuration of the recorder 5 according to the ninth embodiment. The recorder 5, which is an example of the signal processing device, includes a video receiving unit 51, an audio receiving unit 52, a synchronization unit 53, an output unit 54, a recording medium 55, and a reading unit 56. The recording medium 55 may be inside the recorder 5 such as an internal hard disk, or may be inserted from the outside such as an optical disk.

The video receiving unit 51 receives the video signal, and the audio receiving unit 52 receives the audio signal via different networks (for example, the former is a broadcasting network and the latter is a communication network). The synchronization unit 53 synchronizes the video signal and the audio signal based on the timing information included in the video signal and the audio signal. The output unit 54 outputs the synchronized video signal and audio signal to the recording medium 55, and records the video signal and the audio signal in a synchronized state.

Here, the video signal and the audio signal may be recorded on the recording medium while including the timing information, but the output unit 54 removes at least a part of the timing information in the video signal and / or the timing information in the audio signal. It is desirable to output. The timing information is necessary for synchronizing the video signal and the audio signal, but it is not always necessary to retain the timing information once it is synchronized. Therefore, by removing the timing information, it is possible to efficiently record on the recording medium 55.

Further, the output unit 54 may convert the formats of the video signal and the audio signal and record them on the recording medium 55. For example, the output unit 54 converts a signal compliant with MPEG-H MMT into a signal compliant with MPEG2-TS and records it. You may.

The reading unit 56 reads out the video signal and the audio signal recorded on the recording medium 55 in a synchronized state, and outputs the video signal and the audio signal to an external device (not shown) such as a television. At this time, if necessary, the reading unit 56 may convert the format and output it, such as adding timing information to the read video signal and audio signal. This is effective when it is assumed that the output destination external device processes the video signal and the audio signal including the timing information, or the signal of a specific format is processed.

As described above, in the ninth embodiment, since the timing signal is removed for recording, the capacity required for recording can be reduced.
The output unit 54 may output the video signal and the audio signal from which the timing information has been removed to a medium other than the recording medium 55 (for example, in the case of the first to third embodiments). Further, the timing information may be removed when the synchronization unit 53 synchronizes the video signal and the audio signal.

(10th Embodiment)
When receiving signals from both the broadcasting network and the communication network, it is insufficient whether only the broadcasting network can be received normally or only the communication network can be received normally. In particular, mobile devices such as smartphones cannot stably receive signals from broadcasting networks and communication networks unless they are in an appropriate position. Therefore, in the present embodiment, a mechanism for assisting the user in grasping an appropriate position is provided.

FIG. 13 is a block diagram showing a schematic configuration of the smartphone 6 according to the tenth embodiment. In the present embodiment, the smartphone 6 which is an example of the signal processing device includes a broadcast reception level detection unit 68, a communication reception level detection unit 69, and a display control unit 6A. Others are the same as those in the above-described embodiment.

The broadcast reception level detection unit 68 detects the reception level of the broadcast network (broadcast wave). The communication reception level detection unit 69 detects the reception level of the communication network (communication radio wave). The display control unit 6A two-dimensionally displays the reception strength of the broadcast network and the reception strength of the communication network on the display 66.

FIG. 14 is a diagram showing an example of a two-dimensional display. As shown, the reception level of the broadcasting network can be displayed on the horizontal axis, and the reception level of the communication network can be displayed on the vertical axis.

The circles in the figure indicate the current reception strength (although there may be a slight time lag), and when the reception strength changes due to the movement of the smartphone 6, the display control unit 6A will display the circles. It is desirable to move the position in real time and display it.

The square mark in the figure indicates the target value for normally reproducing the broadcast signal and the communication signal currently being received. This position may differ depending on the signal to be received, such as the type of broadcast signal and the selected channel. There may be a plurality of these target values, and a target value for reproducing with the highest quality and a target value for reproducing with the minimum quality may be displayed.

While looking at this display, the user may move or adjust the antenna so that both the reception strength of the current broadcasting network and the reception strength of the communication network exceed the target value of the reception strength.

Such a display is started, for example, in response to a user operation. Then, the display control unit 6A may display the maximum value of the reception strength of the broadcasting network and the communication network after the start time, and in that case, even if the position is moved every time the maximum value is updated. Good. As a result, even if the reception strength does not reach the target value, the user can grasp the reception strength within the possible range at that time.

All or part of the signal processing device described above may be a function realized by the processor executing a predetermined program. Further, not all the functional parts in each signal processing device are indispensable, and may be omitted as necessary, other functional parts may be added, or the functional parts are distributed to a plurality of devices. May be good. Furthermore, a plurality of embodiments may be combined.
Based on the above embodiment, for example, the following configuration can be conceived.

[A-1] (first embodiment)
A first receiver that receives the first signal via the first network,
A second receiving unit that receives a second signal to be reproduced in synchronization with the first signal via the second network, and
With a synchronization unit that synchronizes the first signal and the second signal (controls the first signal and / or the second signal so that the first signal and the second signal are reproduced in synchronization). ,
A signal processing device including an output unit that outputs the synchronized second signal to an external device.

[A-1']
A first receiver that receives video signals via the first network,
A second receiver that receives an audio signal to be reproduced in synchronization with the video signal via the second network, and
A synchronization unit that synchronizes the video signal and the audio signal,
A display on which the video signal is reproduced and
An output unit that outputs the synchronized audio signal to an amplifier is provided.
A television in which one of the first network and the second network is a broadcasting network and the other is a communication network.

[B-1] (second embodiment)
A first receiver that receives the first signal via the first network,
A second receiving unit that receives a second signal to be reproduced in synchronization with the first signal via the second network, and
A control unit that generates a control signal that can be used to synchronize the first signal and the second signal.
A signal processing device including an output unit that outputs the control signal and the second signal to an external device.

[C-1] (Third embodiment)
A first receiver that receives the first signal via the first network,
A second receiving unit that receives a second signal to be reproduced in synchronization with the first signal via the second network, and
A control unit that generates a control signal that can be used to synchronize the first signal and the second signal.
A synchronization unit that synchronizes the first signal and the second signal,
An output unit that outputs one of the control signal, the second signal, and the synchronized second signal to the external device based on the information of the connected external device and / or the user setting. A signal processing device.

[C-2]
The control signal is
Does it indicate the delay time difference between the first signal and the second signal?
Indicates the time to delay the second signal,
The signal processing device according to B-1 or C-1.

[D-1]
A receiving device including a receiving unit that receives the second signal output from the output unit in the signal processing device according to any one of A-1 to C-2.

[E-1]
The signal processing device according to any one of A-1 to C-2 and
A signal processing system comprising the receiving device according to D-1.

[F-1] (Fourth Embodiment)
A receiver that receives signals containing multiple signals (multiple multiplexed signals) via a broadcast network, and
A selection unit that selects the first signal from the plurality of signals,
A request unit that generates a request signal that requests that a second signal to be reproduced in synchronization with the first signal be transmitted via a communication network, and a request unit.
Equipped with an operation reception unit that accepts user operations
A signal processing device in which the selection unit not only selects the first signal but also the request unit generates the request signal based on one user operation.

[F-2]
The signal processing device according to F-1, wherein the one user operation is a channel selection operation.

[F-3] (Sixth Embodiment)
There are a plurality of signals to be reproduced in synchronization with the first signal, and the requesting unit generates the requesting signal with reference to a storage unit that stores which of them is requested as the second signal. The signal processing apparatus according to 1 and 2.

[G-1]
A first receiver that receives a signal including a plurality of signals via the first network, and
A selection unit that selects the first signal from the plurality of signals,
A second receiving unit that receives a second signal to be reproduced in synchronization with the first signal via the second network, and
Equipped with an operation reception unit that accepts user operations
A signal processing device in which the first signal is selected and the second signal is received based on one user operation.

[H-1] (7th embodiment)
A first receiver that receives a signal including a plurality of signals via the first network, and
A first selection unit that selects a first signal from the plurality of signals,
A second receiver that receives a signal containing a plurality of signals via the second network, and
A second selection unit that selects a second signal to be reproduced in synchronization with the first signal from the plurality of signals.
Equipped with an operation reception unit that accepts user operations
A signal processing device in which the first selection unit not only selects the first signal but also the second selection unit selects the second signal based on one user operation.

[I-1] (8th embodiment)
A first receiver that receives a video signal and a first audio signal to be reproduced in synchronization with the video signal via the first network, and
A second receiving unit that receives a second audio signal to be reproduced in synchronization with the video signal via the second network, and
A determination unit for determining whether to reproduce the first audio signal or the second audio signal, and
A signal processing device including an audio output unit that outputs the first audio signal or the second audio signal according to a determination result.

[I-2]
The determination unit
When both the first audio signal and the second audio signal can be reproduced, it is determined that the second audio signal should be reproduced.
The signal processing device according to I-1, which determines that the first audio signal should be reproduced when the second audio signal cannot be reproduced.

[I-3]
The signal processing device according to I-1 and 2, wherein the determination unit determines according to the situation of the first network and / or the second network.

[I-4]
The signal processing device according to I-1 and 3, wherein the determination unit determines according to the reception quality of at least one of the received video signal, the first audio signal, and the second audio signal.

[I-5]
The audio output unit
When it is determined that the first audio signal should be reproduced, the missing portion of the first audio signal is supplemented with the second audio signal, and / or
The signal processing device according to I-1 to 7, wherein when it is determined that the second audio signal should be reproduced, the missing portion of the second audio signal is supplemented by using the first audio signal.

[I-6]
The signal processing device according to I-5, wherein the audio output unit synchronizes and complements the first audio signal and the second audio signal.

[I-7]
The signal processing device according to I-1 to 6, further comprising a synchronization processing unit that synchronizes the first signal with the second audio signal.

[J-1] (8th embodiment)
The first receiver that receives the first signal via the broadcasting network,
A second receiver that receives a second signal of the same type as the first signal via a communication network, and
A determination unit that determines whether to reproduce the first signal or the second signal,
A signal processing device including an output unit that outputs the first signal or the second signal according to a determination result.

[J-2]
The signal processing device according to J-1, wherein both the first signal and the second signal are video signals or both audio signals.

[J-3]
The output unit
When it is determined that the first signal should be reproduced, the missing portion of the first signal is supplemented with the second signal and / or
The signal processing apparatus according to J-2, wherein when it is determined that the second signal should be reproduced, the missing portion of the second signal is supplemented by using the first signal.

[K-1] (8th embodiment)
A first receiver that receives the first signal via the first network,
A second receiver that receives a second signal of the same type as the first signal via the second network, and
A signal processing device including an output unit that outputs the first signal while complementing it with the second signal.

[L-1] (9th embodiment)
A first receiver that receives a first signal including timing information via a first network,
A second receiving unit that receives a second signal including timing information, which should be reproduced in synchronization with the first signal, via the second network.
A synchronization unit that synchronizes the first signal and the second signal based on the timing information, and
A signal processing device including an output unit that removes at least a part of timing information from the synchronized first signal and the second signal and outputs the signal.

[L-2]
The signal processing device according to L-1, wherein the output destination of the output unit is a recording medium.

[M-1] (10th embodiment)
A signal processing device including a display control unit that displays the reception strength of a broadcast network and the reception strength of a communication network at a specific time point on a display in two dimensions.

[M-2]
The signal processing device according to M-1, wherein the display control unit performs a two-dimensional display having the reception strength of the network as the first axis and the reception strength of the communication network as the second axis.

[M-3]
The first receiver that receives the first signal via the broadcasting network,
A second receiving unit that receives a second signal to be reproduced in synchronization with the first signal via a communication network is provided.
The display control unit also displays target values on the display for the reception strength of the broadcast network for reproducing the first signal and the reception strength of the communication network for reproducing the second signal. The signal processing apparatus according to.

[M-4]
The signal processing device according to M-1 to 3, wherein the display control unit displays the reception strength of the broadcast network and the reception strength of the communication network on a display in two dimensions in real time.

[M-5]
The display control unit starts a two-dimensional display in response to a user operation, and displays the maximum value of the reception strength of the broadcasting network and the communication network on the display after the start time, according to M-1 to 4. Signal processing equipment.

In the above, the first network and the second network are, for example, a broadcasting network and a communication network (such as the Internet), but may be other networks capable of transmitting signals, and except in specific cases, in one-way communication. It does not matter whether it is a two-way communication or not. Broadcasting networks include terrestrial digital broadcasting, BS broadcasting, CS broadcasting, cable broadcasting, and the like, and there are no restrictions on the types. Further, the communication network may be multicast or unicast, except in specific cases.
The signal processing device is, for example, a television, a recorder, a smartphone, a mobile phone, a tablet, an amplifier, a tuner, a car navigation system, a personal computer, or the like.

The first signal and the second signal are, for example, a video signal and an audio signal, but may be a control signal or the like, except in specific cases. Both the first signal and the second signal may be video signals, for example, a video from one viewpoint and a video from another viewpoint in a 3D video or a multi-view video, or a part and another in a high resolution video. It may be a part. Further, both the first signal and the second signal may be audio signals. Further, each of the first signal and the second signal may include a plurality of signals (also video signals, audio signals, etc.) due to multiplexing or the like.

2 TV

Claims (16)

A first receiving unit that receives a first signal for reproducing a predetermined content via a first transmission path, and
A second receiving unit that receives a second signal for reproducing the predetermined content, which should be reproduced in synchronization with the first signal, via the second transmission path.
To reproduce the predetermined content after removing at least a part of a control signal that can be used to synchronize the first signal and the second signal based on the first signal and the second signal. A signal processing device including a recording means for recording the data of the above on a recording medium. A synchronization means for synchronizing the signal from the first receiving unit and the signal from the second receiving unit is provided.
The signal processing device according to claim 1, wherein the recording means records the data on the recording medium based on the output from the synchronization means. The first signal and the second signal are MPEG-H MMT compliant.
The signal processing device according to claim 1 or 2, wherein the data is MPEG2-TS compliant. The signal processing device according to any one of claims 1 to 3, wherein one of the first transmission path and the second transmission path is broadcasting and the other is communication. A first means for receiving an MPEG-H MMT-compliant first signal for playing a predetermined content, and
A second means for generating an MPEG2-TS compliant second signal for reproducing the predetermined content based on the first signal, and
A signal processing device including a third means for recording data for reproducing the predetermined content on a recording medium based on the second signal. The first signal includes control information used to synchronize signals received on different transmission paths.
The signal processing device according to claim 5, wherein the second signal does not include at least a part of the control information. Compared to storing the data for reproducing the predetermined content on the recording medium based on the first signal, the data for reproducing the predetermined content based on the second signal is stored in the recording medium. The signal processing apparatus according to claim 5 or 6, wherein the amount of data is smaller. The signal processing device according to any one of claims 5 to 7, wherein the second means generates the second signal by converting the first signal. A first means of receiving an MPEG-H MMT compliant signal for playing a given content, and
A signal processing device including a second means for recording MPEG2-TS compliant data on a recording medium for reproducing the predetermined content based on the signal. The signals include control information used to synchronize signals received on different transmission paths.
The signal processing apparatus according to claim 9, wherein the data does not include at least a part of the control information. Computer,
A means for receiving a first signal for reproducing a predetermined content via a first transmission path, and
A means for receiving a second signal for reproducing the predetermined content, which is to be reproduced in synchronization with the first signal, via the second transmission path.
To reproduce the predetermined content after removing at least a part of a control signal that can be used to synchronize the first signal and the second signal based on the first signal and the second signal. A signal processing program that functions as a means of recording data on a recording medium. Computer,
A means for generating an MPEG2-TS compliant second signal for reproducing the predetermined content based on the first signal compliant with MPEG-H MMT for reproducing the predetermined content, and a means for generating the second signal compliant with the MPEG2-TS for reproducing the predetermined content.
A signal processing program that functions as a means for recording data for reproducing the predetermined content on a recording medium based on the second signal. The computer functions as a means for recording MPEG2-TS compliant data for reproducing the predetermined content on a recording medium based on the MPEG-H MMT compliant signal for reproducing the predetermined content. Signal processing program to make. The first signal for reproducing the predetermined content is received via the first transmission path, and the first signal is received.
The second signal for reproducing the predetermined content, which is to be reproduced in synchronization with the first signal, is received via the second transmission path.
To reproduce the predetermined content after removing at least a part of a control signal that can be used to synchronize the first signal and the second signal based on the first signal and the second signal. A signal processing method for recording the above data on a recording medium. Receives the first MPEG-H MMT compliant signal for playing the given content and
Based on the first signal, an MPEG2-TS compliant second signal for reproducing the predetermined content is generated.
A signal processing method comprising recording data for reproducing the predetermined content on a recording medium based on the second signal. Receives an MPEG-H MMT compliant signal to play a given content
A signal processing method for recording MPEG2-TS compliant data on a recording medium for reproducing the predetermined content based on the signal.

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