JP2007097097A - Audio output control method, audio output control system, and audio output controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To synchronize timings of audio outputs from a couple of AV apparatuses and also equalize sound levels. <P>SOLUTION: In an audio output control system where an AV apparatus 201 and an AV apparatus 209 are connected with a wired or wireless link, the AV apparatus 201 transmits audio information to the AV apparatus 209, while the AV apparatus 209 transmits an ACK signal 304 to the AV apparatus 201 for sending a response the receiving condition of the audio signal transmitted from the AV apparatus 201. The AV apparatus 201 outputs the audio element of the audio information after receiving the ACK signal 304 from the AV apparatus 209 and the AV apparatus 209 outputs the audio element of the audio information received after transmitting the ACK signal 304 to the AV apparatus 201. Moreover, the AV apparatus 209 is provided with a hold unit 601 for storing the audio information transmitted from the AV apparatus 201, while the AV apparatus 209 reflects the audio information stored in the hold unit 601, if communication between the AV apparatus 201 and AV apparatus 209 is intermitted. <P>COPYRIGHT: (C)2007,JPO&amp;INPIT

Description

  The present invention relates to an audio output control method, an audio output control system, and an audio output control apparatus that control audio output in an AV system that includes audio output functions and includes at least two AV devices connected to each other wired or wirelessly. Is.

  The mutual control method of AV (audio / visual) equipment according to the prior art includes the audio output control method. For example, Patent Document 1 proposes a method in which a plurality of devices are connected via an IEEE 1394 standard serial bus or the like, an operation screen is displayed on a display device, and remote control is performed.

  FIG. 1 shows a device control method of the prior art described in Patent Document 1. In FIG. 1, a display device 101 and a remote controller 102 which are control devices, a TV tuner 103 which is a controlled device, and a digital video cassette recorder (DVCR) 104 which is a controlled device are connected to each other via an IEEE 1394 serial bus 100. Yes. The display device 101 requests the TV tuner 103 or the DVCR 104 to transmit information for displaying the operation panel of the TV tuner 103 or the DVCR 104 on the display device 101. This operation panel provides an environment in which the control device remotely operates the controlled device. When the display device 101 checks the function corresponding to each element of the operation panel and the function corresponding to each operation key of the remote controller 102 to detect whether or not the same function exists, Associates the operation keys of the remote controller 102 with the elements of the operation panel. Thereby, it is possible to provide the user with an operating environment for remotely controlling a desired function with a single remote controller operation.

JP 2001-25074 A.

  However, in the configuration of the above-described prior art, only the volume up or down operation in which the remote controller 102 is provided with the operation keys can be performed in the volume control. This is because, in an AV system in which the display device 101 and the DVCR 104 are connected wirelessly, the display device 101 has an audio output function or an audio external output terminal to which a speaker can be connected, and the DVCR 104 can connect a speaker. When having an audio external output terminal, there is a problem in controlling both the volume from the speaker connected to the display device 101 and the volume from the speaker connected to the DVCR 104 by the operation screen displayed on the display device 101. It becomes. When the wireless communication between the display device 101 and the DVCR 104 is interrupted, the volume of the speaker connected to the display device 101 is continuously controlled. However, since the volume control information to the speaker connected to the DVCR 104 is interrupted, the volume of the speaker is It becomes impossible to control. Therefore, the sound volume from the speaker connected to the display device 101 and the sound volume from the speaker connected to the DVCR 104 are different from each other, and there is a problem that the user feels uncomfortable.

  In the AV system as described above, a mechanism for synchronizing the audio output timing from the display device 101 and the audio output timing from the DVCR 104 has not been provided. Therefore, for example, when audio information is transmitted from the DVCR 104 to the display device 101, specifically, the audio information is A / D converted by the DVCR 104 and transmitted on the IEEE 1394 serial bus 100, and the transmitted audio information is transmitted by the display device 101. In the case where a process of receiving and D / A converting and outputting sound is performed, A until the speaker connected to the DVCR 104 outputs sound and the speaker connected to the display device 101 outputs sound. There is a possibility that a delay corresponding to the total time of the processing time of the / D conversion processing, the transmission time from the DVCR 104 to the display device 101, and the processing time of the D / A conversion processing occurs. Therefore, the audio output timing from the speaker connected to the DVCR 104 is different from the audio output timing from the speaker connected to the display device 101, and there is a problem of causing discomfort to the user.

  The present invention solves the above-described conventional problems, and includes: a first AV device having at least a volume control function and an audio output function; and a second AV device having at least a volume control function and an audio output function. Audio output control method and audio output control for synchronizing the audio output timing from the first AV device and the audio output from the second AV device and matching the sound volume in the wired or wireless AV system An object is to provide a system and an audio output control device.

In order to solve the conventional problem, the audio output control method according to the first aspect of the present invention includes:
Audio for an audio output control system in which a first audio device having at least a volume control function and an audio output function and a second audio device having at least an audio volume control function and an audio output function are connected by wire or wirelessly In the output control method,
Transmitting voice information to the second acoustic device by the first acoustic device;
A step of transmitting response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device by the second acoustic device;
Outputting the sound of the sound information after receiving the response information from the second sound device by the first sound device;
And outputting the voice of the received voice information after the response information is transmitted to the first acoustic equipment by the second acoustic equipment.

Outputting the voice of the received voice information by the second acoustic device,
After the response information is transmitted to the first acoustic device by the second acoustic device, the transmission time from the second acoustic device to the first acoustic device, and the first and second acoustic devices. And a step of outputting the voice of the received voice information after the time equal to or longer than the total time with the processing time in elapses.

  The first acoustic device does not execute the step of outputting the voice information when the response information is not received from the second acoustic device.

The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
The audio output control method is
The first audio device may further include a step of controlling the volume of the second audio device by transmitting the sound information packet to the second audio device.

The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
The audio output control method is
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the volume of the volume from the first acoustic device to the second acoustic device is set. You may further include the step which performs volume control of the said 2nd audio equipment by transmitting information.

Transmitting volume information to the second acoustic device by the first acoustic device;
Reflecting the volume of the volume information after receiving the response information transmitted from the second acoustic apparatus by the first acoustic apparatus;
Reflecting the volume of the volume information received from the first acoustic device after the response information is transmitted to the first acoustic device by the second acoustic device.

The step of reflecting the volume of the volume information by the second acoustic device is as follows:
After the response information is transmitted to the first acoustic device by the second acoustic device, the transmission time from the second acoustic device to the first acoustic device, and the first and second acoustic devices. The method may include a step of reflecting the volume of the volume information after a time equal to or longer than the total time with the processing time is elapsed.

The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
The audio output control method is
When communication between the first audio device and the second audio device is interrupted, a step of reflecting the volume of the volume information stored in the hold unit by the second audio device may be included.

The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
The audio output control method is
After the connection between the first audio device and the second audio device is interrupted and then reconnected, the second audio device reflects the volume of the virtual sound volume information, and then from the first audio device. The volume of the transmitted volume information may be reflected.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or higher than a predetermined level, the volume The information generation unit may further include a step of generating the virtual sound volume information.

  The difference between the level of the virtual volume information and the level of the volume information stored in the hold unit may be two or more predetermined levels.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume The step of generating virtual volume information by the information generation unit is not executed.

  The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. Then, when the connection is made again, the first audio device is not transmitted to the second audio device.

  After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device can be used to increase the volume by using the first acoustic device or to decrease the volume. The method may further include a step of transmitting certain volume down information to the second acoustic device.

The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The audio output control method is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Performing audio output based on the new volume information;
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. And executing voice output based on the new volume information.

Moreover, the audio output control system according to the second aspect of the present invention includes:
In an audio output control system in which at least a first acoustic device having a volume control function and an audio output function and a second audio device having at least a volume control function and an audio output function are connected by wire or wirelessly,
The first acoustic device transmits audio information to the second acoustic device,
The second acoustic device transmits response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device,
The first acoustic device outputs the voice information after receiving the response information from the second acoustic device,
The second acoustic device outputs voice of the received voice information after transmitting response information to the first acoustic device.

  The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. The voice of the received voice information may be output after the time equal to or longer than the total time with the processing time in elapses.

  The first acoustic device does not output the voice information when the response information is not received from the second acoustic device.

The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
The first acoustic device may control the volume of the second acoustic device by transmitting the sound information packet to the second acoustic device.

The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the first acoustic device transmits the volume to the second acoustic device. You may perform volume control of a said 2nd audio equipment by transmitting information.

The first audio device transmits volume information to the second audio device,
The first acoustic device reflects the volume of the volume information after receiving the response information transmitted from the second acoustic device,
The second acoustic device may reflect the volume of the volume information received from the first acoustic device after transmitting the response information to the first acoustic device.

  The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. The volume of the volume information may be reflected after the time equal to or longer than the total time with the processing time in.

The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
When communication between the first acoustic device and the second acoustic device is interrupted, the second acoustic device may reflect the volume of the volume information stored in the hold unit.

The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
After the connection between the first audio device and the second audio device is interrupted, the second audio device reflects the sound volume of the virtual sound volume information and then returns from the first sound device. The volume of the transmitted volume information may be reflected.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or higher than a predetermined level, the volume The information generation unit may generate the virtual volume information.

  The difference between the level of the virtual volume information and the level of the volume information stored in the hold unit may be two or more predetermined levels.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume The information generation unit does not generate virtual volume information.

  The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. Then, when the connection is made again, the first audio device is not transmitted to the second audio device.

  After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device receives a volume increase information that is a command to increase the volume or a command to decrease the volume. Some volume down information may be transmitted to the second acoustic device.

The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The second acoustic device is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Perform audio output based on the new volume information,
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. Audio output may be executed based on the new volume information.

An audio output control device according to the third aspect of the present invention includes:
In an audio output control apparatus in which at least a first acoustic device having a volume control function and an audio output function and a second audio device having at least a volume control function and an audio output function are connected by wire or wirelessly.
The first acoustic device transmits audio information to the second acoustic device,
The second acoustic device transmits response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device,
The first acoustic device outputs the voice information after receiving the response information from the second acoustic device,
The second acoustic device outputs voice of the received voice information after transmitting response information to the first acoustic device.

  The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. The voice of the received voice information may be output after the time equal to or longer than the total time with the processing time in elapses.

  The first acoustic device does not output the voice information when the response information is not received from the second acoustic device.

The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
The first acoustic device may control the volume of the second acoustic device by transmitting the sound information packet to the second acoustic device.

The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the first acoustic device transmits the volume to the second acoustic device. You may perform volume control of a said 2nd audio equipment by transmitting information.

The first audio device transmits volume information to the second audio device,
The first acoustic device reflects the volume of the volume information after receiving the response information transmitted from the second acoustic device,
The second acoustic device may reflect the volume of the volume information received from the first acoustic device after transmitting the response information to the first acoustic device.

  The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. The volume of the volume information may be reflected after the time equal to or longer than the total time with the processing time in.

The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
When communication between the first acoustic device and the second acoustic device is interrupted, the second acoustic device may reflect the volume of the volume information stored in the hold unit.

The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
After the connection between the first audio device and the second audio device is interrupted, the second audio device reflects the sound volume of the virtual sound volume information and then returns from the first sound device. The volume of the transmitted volume information may be reflected.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or higher than a predetermined level, the volume The information generation unit may generate the virtual volume information.

  The difference between the level of the virtual volume information and the level of the volume information stored in the hold unit may be two or more predetermined levels.

  When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume The information generation unit does not generate virtual volume information.

  The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. Then, when the connection is made again, the first audio device is not transmitted to the second audio device.

  After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device receives a volume increase information that is a command to increase the volume or a command to decrease the volume. Some volume down information may be transmitted to the second acoustic device.

The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The second acoustic device is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Perform audio output based on the new volume information,
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. Audio output may be executed based on the new volume information.

  According to the audio output control method of the present invention, the first acoustic device (or AV device) having at least a volume control function and an audio output function, and the second audio device having at least a volume control function and an audio output function. In an AV system in which (or AV device) is connected by wire or wirelessly, the audio output timing from the first audio device and the audio output timing from the second audio device can be synchronized and the volume can be matched. .

  The best mode for carrying out the present invention will be described below with reference to the drawings.

First embodiment.
FIG. 2 is a block diagram showing the configuration of the AV system according to the first embodiment of the present invention. The AV system of the present embodiment is configured to include two AV devices 201 and 209 that are wirelessly connected, and the AV devices 201 and 209 are arbitrary audio devices having an audio output function or an audio output terminal. In the embodiment, a speaker 206 is connected to the AV device 201, and a speaker 216 is connected to the AV device 209. In this specification, AV equipment includes two types of equipment: equipment that outputs only audio and equipment that outputs both video and audio.

  In the AV device 201, the CPU unit 202 that controls the entire AV device 201 controls the operation of the media playback unit 203, and transmits the audio information acquired by the media playback unit 203 from the media playback unit 203 to the audio output unit 204. . The media playback unit 203 can be a player or recorder of an arbitrary recording medium, or can be a tuner or the like instead. The audio output unit 204 outputs the audio information transmitted from the media playback unit 203 from the speaker 206 at a volume specified by volume information generally called volume input from the volume control unit 205. In addition, the CPU unit 202 transmits audio information received from the media playback unit 203 via the audio output unit 204 to a wireless communication unit (hereinafter referred to as a communication unit) 207, which is transmitted from the antenna 208 after transmission processing by the communication unit 207. Send it. In addition, the CPU unit 202 transmits the volume information received from the volume control unit 205 via the audio output unit 204 to the communication unit 207, and causes the communication unit 207 to transmit from the antenna 208 after the transmission processing.

On the other hand, in the AV device 209, the CPU unit 212 that controls the entire AV device 209 receives the audio information received through the antenna 210 and received and processed by the wireless communication unit (hereinafter referred to as communication unit) 211 as an audio output unit. To 213. Further, the CPU unit 212 transmits the volume information received through the antenna 210 and processed by the communication unit 211 to the switch unit 214. Two input-side terminals a and b of the switch unit 214 are connected to the CPU unit 212 and the sound volume control unit 215, respectively, and their output-side terminals are connected to the audio output unit 213. By switching the switch unit 214, the CPU unit 212 is switched. Is selected so as to be transmitted to the audio output unit 213. The audio output unit 213 outputs the audio information from the speaker 216 at a volume specified by the volume information transmitted from the switch unit 214. The CPU 212 of the AV device 209 further transmits an ACK (acknowledgment) signal for data (such as audio information and volume information) from the AV device 201 using the communication unit 211 and the antenna 210. In the AV device 201, the ACK signal transmitted from the AV device 209 is received using the antenna 208 and the communication unit 207 and transmitted to the CPU 202.

  According to this configuration, by setting the switch unit 214 of the AV device 209 so that the volume information transmitted from the CPU unit 212 is transmitted to the audio output unit 213, the audio signal of the audio output unit 213 of the AV device 209 is set. The volume can be controlled by the volume control unit 205 of the AV device 201.

  FIG. 3 is a timing chart showing a method for transmitting audio information in an AV system including the AV device 201 and the AV device 209 shown in FIG.

  3, a time axis 301 indicates a communication time flow in the AV device 201 of FIG. 2, and a time axis 302 indicates a communication time flow in the AV device 209 of FIG. The AV device 201 prepares audio information 303 at a certain point on the time axis 301 and transmits it to the AV device 209. The AV device 209 receives the audio information 303 transmitted from the AV device 201 at a certain time point on the time axis 302, generates an ACK signal 304 to be transmitted to the AV device 201 as a communication response signal thereto, and the AV device To 209. Also, the AV device 209 outputs the audio output signal 306 from the speaker 216 after a predetermined delay time 305 has elapsed. On the other hand, when the AV device 201 receives the ACK signal 304 on the time axis 301, it outputs an audio output signal 307 from the speaker 206. The AV device 201 does not output the audio output signal 307 unless it receives the ACK signal 304 from the AV device 209.

  According to this configuration, the AV device 201 outputs the audio output signal 307 after receiving the ACK signal 304 from the AV device 209, and the AV device 209 transmits the ACK signal 304 to the AV device 201 and delay time 305. After the elapse of time, by outputting the audio output signal 306, the audio output of the AV device 201 and the audio output of the AV device 209 coincide with each other. Here, the absolute time of the time axis 301 and the time axis 302 does not need to be the same, and the time fluctuation need not be synchronized. The delay time 305 is at least the total time of the transmission time from the AV device 201 to the AV device 209 and the processing time for the AV device 201 to transmit audio information to the AV device 209. For example, when the AV device 201 is configured to perform A / D conversion and the AV device 209 performs D / A conversion, processing time for A / D conversion in the AV device 201, This is the total time with the processing time for D / A conversion in the AV device 209.

  FIG. 4 is a timing chart showing a volume information transmission method in an AV system including the AV device 201 and the AV device 209 of FIG. 4, the same components as those in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 4, the AV device 201 prepares volume information 401 at a certain point on the time axis 301 and transmits it to the AV device 209. The AV device 209 receives the volume information 401 transmitted from the AV device 201 at a certain time point on the time axis 302, generates an ACK signal 402 to be transmitted to the AV device 201 as a communication response thereto, and the AV device 209. Send to. Further, after a predetermined delay time 403 has elapsed, the CPU unit 212 of the AV device 209 transmits a control signal 403 for reflecting the sound volume to the sound output unit 213 according to the received sound volume information 401. On the other hand, on the time axis 301, when receiving the ACK signal 402, the CPU unit 202 of the AV device 201 transmits a control signal 404 for reflecting the volume specified by the volume information 401 to the audio output unit 204.

  According to such a configuration, after receiving the ACK signal 402 from the AV device 209, the CPU unit 202 of the AV device 201 reflects the volume of the volume information 401 by transmitting the control signal 404 to the audio output unit 204, The CPU unit 212 of the AV device 209 reflects the volume of the volume information 401 by transmitting the control signal 403 to the audio output unit 213 after the ACK signal 402 is transmitted to the AV device 201 and the delay time 305 has elapsed. Thus, the volume in the audio output unit 204 of the AV device 201 and the volume in the audio output unit 213 of the AV device 209 coincide.

  FIG. 5 is a timing chart showing a volume information transmission method in an AV system including the AV device 201 and the AV device 209 of FIG. In FIG. 5, the same components as those in FIG. Here, labels from level 1 to level 9 expressed on a predetermined scale are assigned to the volume that increases stepwise, and these levels are used as volume information.

  In FIG. 5, when the volume information of the AV device 201 is increased from level 1 to level 9 along the time axis 301, the volume information of the AV device 209 is also increased from level 1 to level 9 along the time axis 302. Increase the volume. According to such a configuration, the transition of the volume information shown in FIG. 5 is a communication method of volume information when the communication between the AV device 201 and the AV device 209 is normal.

Modification of the first embodiment.
In the present embodiment, the configuration diagram of the AV system as shown in FIG. 2 is shown, but another configuration may be used. Further, although the present embodiment has been described as an AV system including a plurality of AV devices, any acoustic system that can reproduce sound can be used as long as it includes a plurality of acoustic devices having at least a voice control function and a voice output function. Further, although the audio information of the media playback unit 203 provided in the AV device 201 is transmitted to the audio output unit 204, another route such as an external audio input terminal (not shown) provided in the AV device 201 is used. The audio information acquired from the above may be transmitted to the audio output unit 204.

  In the AV apparatus 201, the audio information is transmitted from the media playback unit 203 to the CPU unit 202 via the audio output unit 204. However, the audio information may be transmitted from the media playback unit 203 to the CPU unit 202. In the AV device 201, the volume information is transmitted from the voice control unit 205 to the CPU unit 202 via the voice output unit 204. However, the volume information may be transmitted from the voice control unit 205 to the CPU unit 202. In the AV apparatus 201, the volume control unit 205 has been described as not being controlled by the CPU unit 202. However, the CPU unit 202 may control the volume control unit 205. In the AV device 201, the volume control unit 205 is separate from the CPU unit 202. However, the volume control unit 205 may be included in the CPU unit 202. In the AV device 201, the communication unit 207 is separate from the CPU unit 202. However, the communication unit 207 may be included in the CPU unit 202. In the AV device 201, the speaker 206 is different from the AV device 201. However, the speaker 206 may be included in the AV device 201.

  In the AV device 209, the audio information is transmitted from the communication unit 211 to the audio output unit 213 via the CPU unit 212. However, the audio information may be transmitted from the communication unit 211 to the audio output unit 213. In the AV device 209, the volume information is transmitted from the communication unit 211 to the switch unit 214 via the CPU unit 212. However, the volume information may be transmitted from the communication unit 211 to the switch unit 214. In the AV apparatus 209, the volume control unit 215 has been described as not being controlled by the CPU unit 212, but the CPU unit 212 may control the volume control unit 215. In the AV device 209, the volume control unit 215 is separate from the CPU unit 212. However, the volume control unit 215 may be included in the CPU unit 212. In the AV device 209, the communication unit 211 is separate from the CPU unit 212. However, the communication unit 211 may be included in the CPU unit 212. In the AV device 209, the speaker 216 is different from the AV device 209, but the speaker 216 may be included in the AV device 209. In the AV device 209, the switch unit 214 is separate from the audio output unit 213, but the switch unit 214 may be included in the audio output unit 213.

  Further, although the AV device 201 and the AV device 209 are connected by wireless communication, in this specification, wireless communication refers to all communication means including those using radio waves and those using optical communication. These AV devices may be connected by wire.

  In FIG. 5, the volume information is transmitted from the AV device 201 to the AV device 209, and the AV device 209 transmits one ACK signal to the AV device 209 every time it receives one volume information. May transmit one ACK signal to the AV device 209 every time a plurality of volume information is received. In FIG. 5, the AV device 201 prepares the next volume information to be transmitted to the AV device 209 after receiving the ACK signal from the AV device 209, but the AV device 201 receives the ACK signal from the AV device 209. Before the transmission, the next volume information to be transmitted to the AV device 209 may be prepared.

Second embodiment.
FIG. 6 is a block diagram showing a configuration of an AV system according to the second embodiment of the present invention. The feature of this embodiment is the operation when communication interruption occurs between two AV devices communicating with each other. In FIG. 6, the same components as those in FIG.

  In FIG. 6, the AV device 209 further includes a hold unit 601 connected to the CPU unit 212. The hold unit 601 includes an AV device during a period in which the AV device 201 and the AV device 209 can communicate with each other. The latest value of the volume information transmitted from 201 is stored. According to this configuration, when the volume information is transmitted from the AV device 201 to the AV device 209 and the AV device 201 and the AV device 209 cannot communicate with each other, the CPU 212 of the AV device 209 holds the hold information. Volume information is read from the unit 601, and the read volume information is transmitted to the audio output unit 213. When communication between the AV device 201 and the AV device 209 is reestablished, the CPU unit 212 of the AV device 209 replaces the volume information read from the hold unit 601 with the volume information received by the communication unit 211 as an audio output unit. To 213.

  FIG. 7 is a timing chart showing a method for transmitting audio information in an AV system including the AV device 201 and the AV device 209 of FIG. In FIG. 7, the same components as those in FIG.

  In FIG. 7, on the time axis 302, a communication disabled period 701 in which the AV device 201 and the AV device 209 cannot communicate with each other, and volume information 702 in the AV device 209 at that time are shown. According to this configuration, when the AV device 201 and the AV device 209 cannot communicate, the CPU unit 212 of the AV device 209 causes the latest volume information (when the AV device 201 and the AV device 209 are communicable) In FIG. 7, the volume information 702 of the AV device 209 is level 3 in the communication disabled period 701 between the AV device 201 and the AV device 209. When the communication between the AV device 201 and the AV device 209 is re-established, the AV device 201 uses the volume information that has not been transmitted during the communication disabled period 701 (volume information at levels 4, 5, and 6 in FIG. 7). Rather, the latest level 7 volume information in the AV device 201 is transmitted to the AV device 209. Upon receiving the level 7 volume information, the AV device 209 updates the content of the hold unit 601 from level 3 to level 7 volume information.

Modified example of the second embodiment.
It should be apparent that in this embodiment as well, the configuration of the modified example can be implemented in the same manner as the modified example of the first embodiment. For example, although the configuration diagram of the AV system is shown in FIG. 6, another configuration may be used.

Third embodiment.
FIG. 8 is a block diagram showing a configuration of an AV system according to the third embodiment of the present invention. The feature of this embodiment is the operation when communication interruption occurs between two AV devices communicating with each other. The AV device 209 further includes a memory 801 connected to the CPU unit 212, and the memory 801 stores volume information transmitted from the AV device 201. The AV device 209 is further configured to include a volume information generation unit 802 that is inserted between the CPU unit 212 and the switch unit 214 and generates virtual volume information (details will be described later). 8, the same components as those in FIGS. 2 and 6 are denoted by the same reference numerals, and the description thereof is omitted.

  FIG. 9 is a timing chart showing a volume information transmission method and virtual volume information generation method in an AV system including the AV device 201 and the AV device 209 of FIG. 9, the same components as those in FIGS. 3 and 7 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 9, the AV device 209 in FIG. 8 generates virtual volume information 901 using the volume information generation unit 802 after communication between the AV device 201 and the AV device 209 is disconnected and reconnected. According to this configuration, when the communication between the AV device 201 and the AV device 209 is once disconnected and reconnected, the volume information (level 3 volume information in FIG. 9) of the hold unit 601 and the AV device Even when there is a large difference between the volume information (for example, level 9 volume information) newly transmitted from 201, the AV device 209 has an intermediate size between the two volume information. By generating volume information (that is, virtual volume information 901) and reflecting it in the audio output unit 213, a rapid increase in the volume of the audio output from the speaker 216 can be prevented. Therefore, the AV device 209 generates the virtual volume information 901 and reflects it in the audio output unit 213 before updating the volume information from level 3 to level 9.

  FIG. 10 is a flowchart showing virtual sound volume information generation processing executed in the AV device 209 of the AV system of FIG. In step 1001 of FIG. 10, once the communication between the AV device 201 and the AV device 209 is disconnected and reconnected, the AV device 209 stores the volume information received by the AV device 209 in the memory 801. Next, in step 1002, a difference D1 between the level of the volume information stored in the memory 801 and the level of the volume information stored in the hold unit 601 is calculated. In the comparison steps 1003 and 1005, the calculated difference D1 is calculated. It is determined whether or not the absolute value of is 3 or more. In the flowchart of FIG. 10, it is determined whether the difference D1 is 3 or more or -3 or less. If the level of the volume information stored in the memory 801 is three or more levels higher than the level of the volume information stored in the hold unit 601, the process proceeds to step 1004, and the volume stored in the hold unit 601 is expressed by the following equation. Update information.

[Equation 1]
(Level of volume information stored in hold unit 601)
← (Volume level stored in hold unit 601) +2

  Next, the result of Equation 1 is transmitted to the audio output unit 213 via the switch unit 214 and stored in the hold unit 601. Next, the process returns to step 1002 for calculating the difference D1, and the processing is repeated. On the other hand, if the level of the volume information stored in the memory 801 is three or more levels lower than the level of the volume information stored in the hold unit 601, the process proceeds to step 1006 and is stored in the hold unit 601 as shown in the following equation. Update the volume information.

[Equation 2]
(Level of volume information stored in hold unit 601)
<-(Volume level stored in hold unit 601) -2

  Next, the result of Equation 2 is transmitted to the audio output unit 213 via the switch unit 214 and stored in the hold unit 601. Next, the process returns to step 1002 for calculating the difference D1, and the processing is repeated. If the absolute value of the difference D1 is less than 3, in step 1007, the volume information stored in the memory 801 is transmitted to the audio output unit via the switch unit 214, and the process of generating the virtual volume information 901 is terminated. To do.

  According to such a configuration, the volume information generation unit 802 is stored in the memory 801 and the volume information stored in the hold unit 601 when the communication between the AV device 201 and the AV device 209 is once disconnected and reconnected. If the absolute value of the difference D1 is 3 or more, the volume information generation unit 802 executes the calculation of Formula 1 or 2, and the calculation result is switched to the switch unit 214. Is transmitted to the audio output unit 216. At the same time, the calculation result is stored in the hold unit 601. If the volume information is received from the AV device 201 within the processing time in which the audio information generation unit 802 executes the calculation of Formula 1 or 2 and transmits the calculation result to the audio output unit 216, the content of the memory 801 is The received volume information value has been updated. Therefore, again, the volume information stored in the hold unit 601 and the volume information stored in the memory 801 are compared. If the absolute value of the difference D1 is 3 or more, the same processing is performed.

Modified example of the third embodiment.
It should be apparent that in this embodiment as well, the configuration of the modified example can be implemented in the same manner as the modified example of the first embodiment. In the present embodiment, the configuration diagram of the AV system is shown in FIG. 9, but another configuration may be used. Also, the volume information generation unit 802 is provided in the AV device 209 that receives the volume information and the virtual volume information 901 is generated. However, the volume information generation unit 802 is provided in the AV device 201 that transmits the volume information. Virtual volume information 901 may be generated. Further, although the sound volume information generation unit 802 is provided separately from the CPU unit 212, the sound volume information generation unit 802 may be included in the CPU unit 212. Further, although the volume information generation unit 802 is provided separately from the switch unit 214, the volume information generation unit 802 may be included in the switch unit 214.

  In comparison steps 1003 and 1005, if the absolute value of difference D1 is 3 or more, the calculation proceeds to step 1004 or 1006 where the calculation is performed. However, such a threshold value may be other than 3. In addition, in steps 1004 and 1006 for performing the calculation, 2 is added to or subtracted from the value of the volume information stored in the hold unit 601, but is added to the volume information stored in the hold unit 601, or The value to be subtracted may be other than 2. Also, in the calculation step 1005, it is assumed that only one value “2” is added or subtracted to the value of the volume information stored in the hold unit 601, but a plurality of different values are added or subtracted. May be. Instead, another value including a decimal or a fraction may be added or subtracted. In addition, although addition or subtraction is performed using Equation 1 or Equation 2, a step using another calculation formula including division or multiplication may be executed.

  In step 1004 or 1006, the calculation result of Formula 1 or 2 is transmitted to the audio output unit 213 via the switch unit 214 and the calculation result is stored in the hold unit 601 at the same time (in parallel). As described above, the calculation result may be transmitted to the voice output unit 213 via the switch unit 214 and then stored in the hold unit 601. Instead, the calculation result is stored in the hold unit 601. Then, the calculation result may be transmitted to the audio output unit 213 via the switch unit 214.

  Further, although the generation procedure of the virtual volume information 901 is shown in FIG. 10, this is merely an example, and another method may be used.

Fourth embodiment.
FIG. 11 is a block diagram showing a configuration of an AV system according to the fourth embodiment of the present invention. The feature of this embodiment is the operation when communication interruption occurs between two AV devices communicating with each other. 11, the same components as those in FIGS. 2 and 6 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 12, the AV device 201 includes an output determination unit 1102 and a memory 1101 connected to the CPU unit 202, and the volume information stored in the memory 1101 communicates with the AV device 201 and the AV device 209. The output determination unit 1202 determines whether or not to transmit volume up / down information (details will be described later) from the AV device 201 to the AV device 209 based on the volume information at the time of restarting. When the AV device 209 receives the volume up / down information transmitted from the AV device 201, the AV device 209 uses the volume information generation unit 1203 based on the received volume up / down information and the volume information stored in the hold unit 601. Then execute the following formula.

[Equation 3]
(Level of volume information stored in hold unit 601)
← (Volume level stored in hold unit 601) ± 1

  The AV device 209 executes the calculation of Equation 3, and transmits the calculation result of Equation 3 to the audio output unit 213 via the switch unit 214.

  FIG. 12 is a timing chart showing a method for transmitting volume information and a method for generating volume up / down information in an AV system including the AV device 201 and the AV device 209 of FIG. In FIG. 12, when the communication between the AV device 201 and the AV device 209 is once disconnected and reconnected, the AV device 201 may transmit volume up / down information 1201.

  According to such a configuration, when the communication between the AV device 201 and the AV device 209 is disconnected and reconnected, the volume information is stored in the memory 1101 when the volume information is transmitted from the AV device 201 to the AV device 209. The volume information already transmitted immediately before the communication between the AV device 201 and the AV device 209 is disconnected (level 3 volume information in FIG. 11) and the volume information to be transmitted at the time of reconnection (level 9 in FIG. 11). Even if there is a large difference between the volume information), the AV device 201 outputs the volume up / down information for increasing / decreasing the level of the volume information by 1 after reconnection, thereby outputting from the speaker 216. A sudden increase in sound volume can be prevented. For this reason, the AV device 201, when the communication between the AV device 201 and the AV device 209 is once disconnected and then reconnected, causes the output determination unit 1202 to increase the volume information to increase the volume information level by one. It is determined whether or not the volume up / down information 1201 that is one of the volume down information for lowering the level of the volume information is transmitted from the AV device 201 to the AV device 209, and according to the determination result, the AV device 201 to the AV device The volume up / down information 1201 is transmitted to 209, or the latest volume information is transmitted otherwise.

  FIG. 13 is a flowchart showing volume up / down information generation processing executed in the AV device 201 of the AV system of FIG. This process is a procedure for determining whether or not the volume up / down information 1201 is transmitted from the AV device 201 to the AV device 209.

  In FIG. 13, once the communication between the AV device 201 and the AV device 209 is disconnected and reconnected, the AV device 201 determines in step 1301 the level of the volume information of the AV device 201 to be transmitted after the communication reconnection. Then, the difference D2 from the level of the volume information stored in the memory 1101 is calculated. Then, in steps 1302 and 1303, it is determined whether or not the absolute value of the difference D2 of the calculation result is greater than 1. When the absolute value of the difference D2 is 1 or less, the process proceeds to step 1304, the latest volume information of the AV device 201 to be transmitted after reconnection of communication is transmitted to the AV device 209, and the process ends. On the other hand, if it is determined in step 1302 that the level of volume information to be transmitted after communication reconnection is two or more higher than the level of volume information stored in the memory 1101, then in step 1308, the AV device 201 In step 1309, the volume information generation unit 1203 calculates the following expression based on the volume information stored in the memory 1101.

[Equation 4]
(Volume level stored in the memory 1101)
← (Volume level stored in memory 1101) +1

  After executing the calculation of Expression 4, in Step 1307, the calculation result of Expression 4 is stored in the memory 1101, and the process returns to Step 1301 for calculating the difference. Alternatively, if it is determined in step 1303 that the level of volume information to be transmitted after communication reconnection is two or more lower than the level of volume information stored in the memory 1101, then in step 1305, the AV device 201 In step 1306, the volume information generation unit 1203 executes the following formula calculation based on the volume information stored in the memory 1101.

[Equation 5]
(Volume level stored in the memory 1101)
<-(Volume level stored in memory 1101) -1

  After executing the calculation of Equation 5, in Step 1307, the calculation result of Equation 5 is stored in the memory 1101 and the process returns to Step 1301 for calculating the difference.

  When the AV device 201 transmits volume information from the AV device 201 to the AV device 209 and receives a communication response signal indicating that the volume information has been received from the AV device 209, the AV device 201 transmits the volume information to the AV device 209. Volume information is stored in the memory 1101.

Modified example of the fourth embodiment.
It should be apparent that in this embodiment as well, the configuration of the modified example can be implemented in the same manner as the modified example of the first embodiment. In the present embodiment, the configuration diagram of the AV system is shown in FIG. 11, but another configuration may be used. Moreover, although the production | generation procedure of the volume up / down information 1201 was shown in FIG. 13, another method may be sufficient.

  In addition, although the example in which the volume information generation unit 1103 is separated from the CPU unit 212 is shown, the volume information generation unit 1103 may be included in the CPU unit 212. Further, although the example in which the volume information generation unit 1103 is separated from the audio output unit 213 has been shown, the volume information generation unit 1103 may be included in the audio output unit 213. Further, although the example in which the volume information generation unit 1103 is separated from the switch unit 214 is shown, the volume information generation unit 1103 may be included in the switch unit 214. In addition, in Formula 3, Formula 4 or Formula 5, “1” is added or subtracted. Instead, another value including a decimal or a fraction may be added or subtracted. . Further, although addition or subtraction is performed in Equation 3, Equation 4, or Equation 5, a step using another calculation formula including division or multiplication may be executed.

Fifth embodiment.
FIG. 14 is a block diagram showing a configuration of an AV system according to the fifth embodiment of the present invention. 15, the same components as those in FIGS. 2 and 6 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 14, the AV device 201 further includes a generation unit 1401 between the CPU unit 202 and the communication unit 207. The generation unit 1401 generates a sound information packet by synthesizing the volume information header and the volume information payload. Then, the data is transmitted to the AV device 209 via the communication unit 207. The AV device 209 further includes a separation unit 1402 between the CPU unit 212, the switch 214, and the audio output unit 213. By this separation unit 1402, the sound volume information header and the sound volume are received from the sound information packet received from the AV device 201. The information payload is separated and generated, the volume information is transmitted to the switch unit 214, and the audio information is transmitted to the audio output unit 213.

  FIG. 15 is a diagram showing a data structure of a sound information packet transmitted in the AV system of FIG. As shown in FIG. 15, the sound information packet 1501 includes a volume information header 1502 and an audio information payload 1503.

  According to this configuration, audio information with sound volume according to the sound volume information is output from the speaker 206 of the AV device 201 and the speaker 216 of the AV device 209. In general, the content of the output audio is frequency information included in the audio information, and the volume information corresponds to amplitude information included in the audio information. Here, when audio information and volume information are transmitted from the AV device 201 to the AV device 209, a sound information packet including a volume information header 1502 indicating volume information and an audio information payload 1503 indicating audio information is transmitted. It is possible to transmit volume information and audio information at the same time, or to transmit volume information corresponding to the transmitted audio information.

  According to this configuration, when audio information and volume information are transmitted from the AV device 201 to the AV device 209, the generation unit 1501 generates the sound information packet 1401 by synthesizing the volume information header 1402 and the volume information payload 1403. , And transmitted from the AV device 201 to the AV device 209. The separation unit 1502 of the AV device 209 separates and generates the volume information header 1402 and the volume information payload 1403 from the received sound information packet 1401, and transmits the volume information to the switch unit 214 and the audio information to the audio output unit 213. Accordingly, the volume information and the audio information are transmitted simultaneously, the volume information corresponding to the transmitted audio information is transmitted, or the AV device 201 controls the volume information of the AV device 209. It becomes possible.

Modified example of the fifth embodiment.
It should be apparent that in this embodiment as well, the configuration of the modified example can be implemented in the same manner as the modified example of the first embodiment. In the present embodiment, the configuration diagram of the AV system is shown in FIG. 15, but another configuration may be used.

  Further, although the generation unit 1501 is separated from the CPU unit 202, the generation unit 1501 may be included in the CPU unit 202. Further, although the separation unit 1502 is separated from the CPU unit 212, the separation unit 1502 may be included in the CPU unit 212.

  According to the AV system of the present invention, a first AV device having at least a volume control function and an audio output function and a second AV device having at least a volume control function and an audio output function are connected by wire or wirelessly. In the AV system, since the timing of the audio output from the first AV device and the audio output from the second AV device can be synchronized and the volume can be matched, the audio of the AV device having the audio output function can be obtained. This is useful as an output control method.

It is explanatory drawing of the audio | voice output control method which concerns on a prior art. 1 is a block diagram showing a configuration of an AV system according to a first embodiment of the present invention. 3 is a timing chart showing a method for transmitting audio information in the AV system of FIG. 2. 3 is a timing chart showing a method for transmitting volume information in the AV system of FIG. 2. 3 is a timing chart showing a method for transmitting volume information in the AV system of FIG. 2. It is a block diagram which shows the structure of the AV system which concerns on the 2nd Embodiment of this invention. 7 is a timing chart showing a method for transmitting audio information in the AV system of FIG. 6. It is a block diagram which shows the structure of the AV system which concerns on the 3rd Embodiment of this invention. 9 is a timing chart showing a method for transmitting volume information and a method for generating virtual volume information in the AV system of FIG. 8. It is a flowchart which shows the virtual sound volume information generation process performed in the AV system of FIG. It is a block diagram which shows the structure of the AV system which concerns on the 4th Embodiment of this invention. 12 is a timing chart showing a volume information transmission method and volume up / down information generation method in the AV system of FIG. It is a flowchart which shows the volume up / down information generation process performed in the AV system of FIG. It is a block diagram which shows the structure of the AV system which concerns on the 5th Embodiment of this invention. It is a figure which shows the data structure of the sound information packet transmitted in the AV system of FIG.

Explanation of symbols

201, 209 ... AV equipment,
202, 212 ... CPU part,
203 ... Media playback unit,
204, 213 ... voice output unit,
205, 215 ... volume control unit,
206, 216 ... speakers,
207, 211 ... communication section,
208, 210 ... antenna,
214 ... switch part,
301, 302 ... time axis,
303 ... voice information,
304, 402 ... ACK signal,
305 ... delay time,
306, 307 ... audio output signal,
401, 702 ... volume information,
403, 404 ... control signal,
601: Hold unit,
701 ... Communication disabled period,
801, 1101 ... memory,
802, 1103 ... Volume information generation unit,
901: Virtual volume information,
1102 ... Output determination unit,
1201 ... Volume up / down information,
1401 ... generating unit,
1402 ... separation part,
1501 ... sound information packet,
1502 ... Volume information header,
1503 ... Audio information payload.

Claims (45)

Audio for an audio output control system in which a first audio device having at least a volume control function and an audio output function and a second audio device having at least an audio volume control function and an audio output function are connected by wire or wirelessly In the output control method,
Transmitting voice information to the second acoustic device by the first acoustic device;
A step of transmitting response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device by the second acoustic device;
Outputting the sound of the sound information after receiving the response information from the second sound device by the first sound device;
And outputting the voice of the received voice information after the response information is transmitted to the first acoustic equipment by the second acoustic equipment. Outputting the voice of the received voice information by the second acoustic device,
After the response information is transmitted to the first acoustic device by the second acoustic device, the transmission time from the second acoustic device to the first acoustic device, and the first and second acoustic devices. 2. The audio output control method according to claim 1, further comprising the step of outputting the audio of the received audio information after a time equal to or longer than a total time with the processing time in elapses.   2. The audio output control method according to claim 1, wherein the first audio device does not execute the step of outputting the audio information when the response information is not received from the second audio device. 3. The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
The audio output control method is
2. The method according to claim 1, further comprising the step of controlling the volume of the second acoustic device by transmitting the sound information packet to the second acoustic device by the first acoustic device. Audio output control method. The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
The audio output control method is
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the volume of the volume from the first acoustic device to the second acoustic device is set. The audio output control method according to claim 1, further comprising a step of performing volume control of the second acoustic device by transmitting information. Transmitting volume information to the second acoustic device by the first acoustic device;
Reflecting the volume of the volume information after receiving the response information transmitted from the second acoustic apparatus by the first acoustic apparatus;
And a step of reflecting the volume of the volume information received from the first acoustic device after the response information is transmitted to the first acoustic device by the second acoustic device. The audio output control method described. The step of reflecting the volume of the volume information by the second acoustic device is as follows:
After the response information is transmitted to the first acoustic device by the second acoustic device, the transmission time from the second acoustic device to the first acoustic device, and the first and second acoustic devices. The audio output control method according to claim 6, further comprising a step of reflecting the volume of the volume information after a time equal to or longer than a total time with the processing time in step e. The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
The audio output control method is
Including a step of reflecting a volume of volume information stored in the hold unit by the second acoustic device when communication between the first acoustic device and the second acoustic device is interrupted. The audio output control method according to claim 6. The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
The audio output control method is
After the connection between the first audio device and the second audio device is interrupted and then reconnected, the second audio device reflects the volume of the virtual sound volume information, and then the first audio device 7. The audio output control method according to claim 6, wherein the volume of the transmitted volume information is reflected.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or higher than a predetermined level, the volume The audio output control method according to claim 9, further comprising a step of generating the virtual volume information by an information generation unit.   10. The audio output control method according to claim 9, wherein a difference between the level of the virtual volume information and the level of the volume information stored in the hold unit is equal to or more than a predetermined level.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume The audio output control method according to claim 9, wherein the step of generating virtual volume information by the information generation unit is not executed.   The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. The audio output control method according to claim 6, wherein when the connection is made again, the first audio device does not transmit to the second audio device.   After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device can be used to increase the volume by using the first acoustic device or to decrease the volume. 9. The audio output control method according to claim 8, further comprising a step of transmitting certain volume down information to the second acoustic device. The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The audio output control method is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Performing audio output based on the new volume information;
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. 15. The audio output control method according to claim 14, further comprising the step of executing audio output based on new sound volume information. In an audio output control system in which at least a first acoustic device having a volume control function and an audio output function and a second audio device having at least a volume control function and an audio output function are connected by wire or wirelessly,
The first acoustic device transmits audio information to the second acoustic device,
The second acoustic device transmits response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device,
The first acoustic device outputs the voice information after receiving the response information from the second acoustic device,
The audio output control system, wherein the second audio device outputs the audio of the received audio information after transmitting response information to the first audio device.   The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. 17. The audio output control system according to claim 16, wherein the audio of the received audio information is output after a time equal to or longer than a total time with the processing time in elapses.   The audio output control system according to claim 16, wherein the first audio device does not output audio of the audio information when no response information is received from the second audio device. The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
The audio output control system according to claim 16, wherein the first audio device controls the volume of the second audio device by transmitting the sound information packet to the second audio device. . The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the first acoustic device transmits the volume to the second acoustic device. 17. The audio output control system according to claim 16, wherein volume control of the second acoustic device is performed by transmitting information. The first audio device transmits volume information to the second audio device,
The first acoustic device reflects the volume of the volume information after receiving the response information transmitted from the second acoustic device,
The audio output according to claim 16, wherein the second audio device reflects the volume of the volume information received from the first audio device after transmitting the response information to the first audio device. Control system.   The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. The sound output control system according to claim 21, wherein the sound volume of the sound volume information is reflected after a time equal to or longer than a total time with the processing time in step e. The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
The second acoustic device reflects the volume of the volume information stored in the hold unit when communication between the first acoustic device and the second acoustic device is interrupted. 21. The audio output control system according to 21. The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
After the connection between the first audio device and the second audio device is interrupted, the second audio device reflects the sound volume of the virtual sound volume information and then returns from the first sound device. The sound output control system according to claim 21, wherein the sound volume of the transmitted sound volume information is reflected.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or greater than a predetermined level, the volume 25. The audio output control system according to claim 24, wherein the information generation unit generates the virtual volume information.   25. The audio output control system according to claim 24, wherein a difference between the level of the virtual volume information and the level of the volume information stored in the hold unit is two or more predetermined levels.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume The audio output control system according to claim 24, wherein the information generation unit does not generate virtual volume information.   The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. 22. The audio output control system according to claim 21, wherein when the connection is made again, the first audio device does not transmit to the second audio device.   After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device receives a volume increase information that is a command to increase the volume or a command to decrease the volume. 24. The audio output control system according to claim 23, wherein certain volume down information is transmitted to the second acoustic device. The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The second acoustic device is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Perform audio output based on the new volume information,
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. 30. The audio output control system according to claim 29, wherein audio output is executed based on new volume information. In an audio output control apparatus in which at least a first acoustic device having a volume control function and an audio output function and a second audio device having at least a volume control function and an audio output function are connected by wire or wirelessly.
The first acoustic device transmits audio information to the second acoustic device,
The second acoustic device transmits response information for responding to the reception status of the audio signal transmitted from the first acoustic device to the first acoustic device,
The first acoustic device outputs the voice information after receiving the response information from the second acoustic device,
The audio output control apparatus, wherein the second audio device outputs the audio of the received audio information after transmitting response information to the first audio device.   The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. 32. The audio output control apparatus according to claim 31, wherein the audio of the received audio information is output after a time equal to or longer than a total time with the processing time in elapses.   32. The audio output control device according to claim 31, wherein the first audio device does not output the audio information when no response information is received from the second audio device. The first acoustic device further includes a generation unit that generates a sound information packet including audio information including at least volume information, or a sound information packet including at least volume information and audio information,
The second acoustic device further includes a separation unit that separates the volume information and the sound information from the sound information packet,
32. The audio output control device according to claim 31, wherein the first acoustic device controls the volume of the second acoustic device by transmitting the sound information packet to the second acoustic device. . The first acoustic device includes a volume control unit that controls volume information,
The second acoustic device selects any one of a volume control unit that controls volume information, volume information received from the first acoustic device, and volume information input from the volume control unit. With a switch part,
When the switch unit of the second acoustic device is controlled to select the volume information received from the first acoustic device, the first acoustic device transmits the volume to the second acoustic device. 32. The audio output control apparatus according to claim 31, wherein volume control of the second acoustic device is performed by transmitting information. The first audio device transmits volume information to the second audio device,
The first acoustic device reflects the volume of the volume information after receiving the response information transmitted from the second acoustic device,
The audio output according to claim 31, wherein the second acoustic device reflects the volume of the volume information received from the first acoustic device after transmitting the response information to the first acoustic device. Control device.   The second audio device transmits the response information to the first audio device, and then transmits the transmission time from the second audio device to the first audio device, and the first and second audio devices. 37. The audio output control device according to claim 36, wherein the sound volume of the sound volume information is reflected after a time equal to or longer than a total time with the processing time in step e. The second acoustic device further includes a hold unit that stores volume information transmitted from the first acoustic device,
The second acoustic device reflects the volume of the volume information stored in the hold unit when communication between the first acoustic device and the second acoustic device is interrupted. 36. The audio output control device according to 36. The second acoustic device includes a hold unit that stores volume information transmitted from the first acoustic device, and a volume information generation unit, and the volume information generation unit stores the volume stored in the hold unit. Between the volume of the volume information stored in the hold unit and the volume of the volume information transmitted from the first acoustic device based on the information and the volume information transmitted from the first acoustic device. Virtual volume information having the volume of the volume, the volume information and the virtual volume information has a level expressed in a predetermined scale,
After the connection between the first audio device and the second audio device is interrupted, the second audio device reflects the sound volume of the virtual sound volume information and then returns from the first sound device. 37. The audio output control apparatus according to claim 36, which reflects the volume of the transmitted volume information.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first audio device received by the second audio device is equal to or higher than a predetermined level, the volume 40. The audio output control apparatus according to claim 39, wherein the information generation unit generates the virtual volume information.   40. The audio output control apparatus according to claim 39, wherein a difference between the level of the virtual volume information and the level of the volume information stored in the hold unit is equal to or greater than two predetermined levels.   When the difference between the level of the volume information stored in the hold unit and the level of the volume information transmitted from the first acoustic device received by the second acoustic device is less than a predetermined level, the volume 40. The audio output control apparatus according to claim 39, wherein the information generation unit does not generate virtual volume information.   The volume information of the first audio device changed while communication between the first audio device and the second audio device is interrupted, and the communication between the first audio device and the second audio device is interrupted. 37. The audio output control device according to claim 36, wherein when the connection is made again, the first audio device does not transmit to the second audio device.   After the connection between the first acoustic device and the second acoustic device is interrupted and then reconnected, the first acoustic device receives a volume increase information that is a command to increase the volume or a command to decrease the volume. 39. The audio output control apparatus according to claim 38, wherein certain volume down information is transmitted to the second acoustic device. The second acoustic device further includes a volume information generation unit that generates volume information in response to the volume up information or volume down information transmitted from the first acoustic device,
The second acoustic device is
When the volume up information is received, the volume information generation unit generates new volume information by adding at least a predetermined level to the level of the volume information stored in the hold unit. Perform audio output based on the new volume information,
When the volume down information is received, the volume information generation unit generates new volume information by subtracting at least one predetermined level from the level of the volume information stored in the hold unit. 45. The audio output control apparatus according to claim 44, wherein audio output is executed based on new volume information.

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