JP6668907B2 - Environmental audio distribution system, environmental audio processing method, and environmental audio processing program - Google Patents

Description

  The present invention relates to an environmental audio distribution system, an environmental audio processing method, and an environmental audio processing program.

  2. Description of the Related Art In recent years, with the spread of broadband and cloud environments, and the development of communication tools with the development of information and communication technology, working styles (work styles) that are not restricted by place or time have been spreading. As a result, it is expected that the main form of collaborative work in a group will also shift from a general mono-centralized and co-spatial type to a remote distributed cooperative type. In order to realize this, unified communication (registered trademark) technology / system integrating voice communication, facsimile (FAX), e-mail, instant messenger, voice over internet protocol (VoIP), etc., has attracted attention.

  Video and sound information occupy an important position as the rich information transmitted by the unified communication system. For example, a tool based on a conventional TV (television) conference system is mounted as one function of many unified communication systems.

  By the way, the so-called TV conference system is a communication tool mainly intended for intentional, formal and formal communication, such as a discussion after the agenda is decided. On the other hand, in recent years, it has been important to foster a sense of organizational unity and human relations in order to facilitate the collaborative work of teams. It is pointed out that informal communication with unplanned and contingency is important.

  As a tool of the unified communication system for supporting such informal communication, a non-planned form such as "Who is in the A conference room from when to when" as in a TV conference is not planned. It is possible to share a daily scene of a simple office, that is, a system that always communicates and presents environmental video and sound information in the office between remote offices.

  In this system, it is also possible to realize individual conversation between remote offices by using a user terminal possessed by each user. For example, Patent Literature 1 discloses a system in which not only conversation between remote users but also environmental sounds around the users are transmitted and shared with each other. More specifically, in the system disclosed in Patent Document 1 below, a plurality of environmental sound microphones for acquiring environmental sound around the user are arranged around the user, and the environmental sound acquired by the plurality of environmental sound microphones is arranged. Is distributed to other users.

JP-A-2004-266620

  However, in the system of Patent Document 1, when one user has an individual conversation (call) with another user in a remote office using a user terminal, the call voice of the one user is The sound may be obtained by the environmental sound microphone and distributed to another office, specifically, to a third party other than the call destination (other user) of the one user. That is, in such a system, there is a case where the call voice is distributed to a party not intended by the user.

  Therefore, the present invention has been made in view of the above-described problems, and it is an object of the present invention to provide a method in which a call voice is unintentionally distributed and a call content related to the call voice is known to an unintended third party. It is an object of the present invention to provide a new and improved environmental sound distribution system, an environmental sound processing method, and an environmental sound processing program, which can prevent such a situation.

  In order to solve the above problems, according to an aspect of the present invention, an environment sound acquisition unit that acquires environment sound via one or more sound collection units, and the environment acquired by the environment sound acquisition unit A delivery unit that delivers voice, a detection unit that detects a call terminal in a call state, a selection unit that selects the sound collection unit corresponding to the call terminal detected by the detection unit, and a selection unit that selects the sound collection unit. And a sound collection control unit that controls acquisition of the environmental sound using the sound collection unit.

  The selection unit may select the sound collection unit pre-linked to the detected call terminal.

  The environmental sound distribution system further includes a position detection unit that detects a position of the detected call terminal, and a distance calculation unit that calculates a distance between the detected call terminal and each of the sound collection units, The selection unit may select the sound collection unit corresponding to the detected call terminal based on the calculated distance.

  The selection unit may select the sound collection unit that has recognized a predetermined signal voice output from the call terminal.

  The environmental audio distribution system further includes a storage unit that stores the sound pickup unit in association with the call terminal, wherein the storage unit detects the sound pickup unit selected by the selection unit and detects the sound pickup unit. May be stored in association with.

  The sound collection control unit may reduce the sensitivity of the selected sound collection unit for acquiring the environmental sound.

  The sound collection control unit may stop acquisition of the environmental sound via the selected sound collection unit.

  The sound collection control unit may generate a disturbing sound that disturbs distribution of the environmental sound acquired using the selected sound collecting unit.

  The environmental sound acquisition unit may synthesize the environmental sound acquired using the selected sound collection unit and the interfering sound.

  According to another embodiment of the present invention, there is provided, in order to solve the above-described problem, obtaining environmental sound via one or a plurality of sound collection units, and distributing the obtained environmental sound. Detecting a call terminal in a call state, selecting the sound pickup unit corresponding to the detected call terminal, and controlling acquisition of the environmental sound using the selected sound pickup unit. And an environmental audio distribution method including:

  According to still another aspect of the present invention, there is provided an environmental sound acquiring unit configured to acquire an environmental sound via one or more sound collecting units. A distribution unit that distributes the environmental sound acquired by the acquisition unit, a detection unit that detects a call terminal in a call state, and a selection that selects the sound collection unit corresponding to the call terminal detected by the detection unit An environmental sound distribution program for functioning as a unit and a sound collecting control unit that controls acquisition of the environmental sound using the sound collecting unit selected by the selecting unit is provided.

  As described above, according to the present invention, it is possible to prevent a call voice from being unintentionally distributed and a call content related to the call voice from being known to an unintended third party.

It is an explanatory view showing the composition of environmental sound distribution systems 1 and 4 concerning a 1st and 4th embodiment of the present invention. FIG. 2 is an explanatory diagram illustrating a first base according to the first embodiment. FIG. 2 is a block diagram illustrating a configuration of a user terminal 10 according to the first embodiment. It is a block diagram showing composition of distribution control devices 70 and 72 concerning a 1st and 2nd embodiment. FIG. 4 is an explanatory diagram illustrating an example of a data table 92 according to the first embodiment. FIG. 3 is an explanatory diagram illustrating a processing method of the environmental audio distribution system 1 according to the first embodiment. It is a block diagram showing composition of environmental sound distribution system 2 concerning a 2nd embodiment. It is a block diagram showing composition of position sensing unit 120 concerning a 2nd embodiment. It is an explanatory view showing a processing method of the environmental sound distribution system 2 according to the second embodiment. It is an explanatory view showing the composition of environmental sound distribution system 3 concerning a 3rd embodiment. It is a block diagram showing composition of user terminal 12 concerning a 3rd embodiment. It is a block diagram showing composition of signal voice recognition unit 140 concerning a 3rd embodiment. It is an explanatory view showing a processing method of environmental sound distribution system 3 concerning a 3rd embodiment. It is a block diagram showing the composition of distribution control device 74 concerning a 4th embodiment. It is an explanatory view showing a processing method of environmental sound distribution system 4 concerning a 4th embodiment. FIG. 3 is a block diagram illustrating a hardware configuration of distribution control devices 70, 72, 74 and the like.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the specification and the drawings, components having substantially the same functional configuration are denoted by the same reference numerals, and redundant description is omitted.

  Further, in this specification and the drawings, a plurality of components having substantially the same function and configuration may be distinguished from each other by adding different alphabets after the same reference numeral. For example, a plurality of configurations having substantially the same functional configuration or logical significance are distinguished as required by the user terminals 10a and 10b. However, when it is not necessary to particularly distinguish each of a plurality of components having substantially the same functional configuration, only the same reference numeral is assigned. For example, when there is no need to particularly distinguish the user terminals 10a and 10b, they are simply referred to as the user terminals 10.

<< First Embodiment >>
The first embodiment of the present invention relates to an environmental audio distribution system 1 for sharing environmental audio between a plurality of sites. First, an outline of an environmental audio distribution system 1 according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2, and then the configuration and processing method of the first embodiment will be sequentially described in detail. In the following description, in addition to the uttered voice uttered by a human in the base, the concept includes all environmental sounds in the base and is referred to as environmental sound. Examples of the environmental sound include a sound of opening and closing a door, a sound of moving a chair, a ringing sound (ringbell) emitted by a call function unit of the user terminal 10 described later, a key touch sound, a foot sound, and the like. Further, the call voice means a voice voice in a conversation individually performed between the user U at one site and the user U at the other site using the user terminal 10 described later.

<Overview of Environmental Audio Distribution System 1>
FIG. 1 is an explanatory diagram showing the configuration of the environmental audio distribution system 1 according to the first embodiment, and FIG. 2 is an explanatory diagram illustrating an example of a first base according to the present embodiment. As shown in FIGS. 1 and 2, the environmental sound distribution system 1 according to the present embodiment includes a plurality of user terminals (call terminals) 10, a plurality of sound collection devices (sound collection units) 30 and a A plurality of environmental sound output devices 50, a plurality of user terminals 10, a plurality of sound collection devices 30, and a plurality of environmental sound output devices 50 existing at the second base, a distribution control device 70, and a storage device (storage unit) 90 And Each device existing at the first base and the second base is connected to the distribution control device 70 and the storage device 90 via the network 100. Note that each base is an office of a remote company, a classroom of an educational institution, and the like. Specifically, each base is a different room, a different floor in one building, or a dispersed building.

(User terminal 10)
The user terminal 10 has a function related to processing of voice data, that is, a function as a call terminal. For example, the user terminal 10 has a sound collection function of acquiring a call voice of the user U in a conversation individually performed using the user terminal 10, and further has a sound collection function of another base distributed from a distribution control device 70 described later. It also has a function of outputting a call voice in a conversation using another user terminal 10 of another user U. The user terminal 10 may have a function related to processing of video data. For example, the user terminal 10 has a function of acquiring video data of the user U who uses the user terminal 10. May also be provided with a function of outputting video data of another site distributed from. Note that FIG. 2 illustrates a notebook PC (Personal Computer) as an example of the user terminal 10, but the user terminal 10 is not limited to a notebook PC. For example, the user terminal 10 may be a desktop PC or a communication terminal such as a mobile terminal. Furthermore, in the first embodiment, it is assumed that the user terminal 10 is at a fixed position (for example, on the desk of each user U). The details of the user terminal 10 will be described later.

  Further, identification information (for example, terminal ID (identification)) for identifying each user terminal 10 is allocated to each user terminal 10. For example, the user terminal 10 can transmit the acquired call voice (specifically, voice data related to the call voice) and the like to the distribution control device 70 described below together with the identification information. By using the identification information, each user terminal 10 can be controlled.

(Sound collection device 30)
The sound collection device 30 converts sound that is pneumatic vibration into sound data that is an electric signal, and transmits the sound data to a distribution control device 70 described later. Specifically, the sound collection device 30 acquires the environmental sound in each site. Note that the sound collection device 30 can be configured by, for example, a microphone or the like, and furthermore, a plurality of the sound collection devices can be provided on a wall or the like of each base, or can be provided on each user terminal 10. . However, in the latter case, the sound collection device 30 is a device for acquiring environmental sounds, and is used as a part of the call terminal function of the user terminal 10 by the user U in a conversation individually performed using the user terminal 10. This is different from the function unit that has a sound collection function that acquires the call voice of the user. Further, identification information (for example, a sound collection device ID) for specifying each sound collection device 30 is assigned to each sound collection device 30. Here, the sound pickup device 30 can transmit the acquired audio data relating to the environmental sound together with the identification information of the sound pickup device 30 to a distribution control device 70, which will be described later, and the distribution control device 70 By using the identification information, each sound collection device 30 can be controlled.

(Environmental sound output device 50)
The environmental sound output device 50 has a function of converting sound data of environmental sound of another site distributed from a distribution control device 70 described later into environmental sound which is pneumatic vibration, and outputting the converted environmental sound. For example, the environmental sound output device 50 is configured by a speaker or the like, and may be provided in plural on a wall or the like of each base, or may be provided in each user terminal 10. However, in the latter case, the environmental sound output device 50 is a device for outputting the environmental sound, and serves as a part of the call terminal function of the user terminal 10 and serves as a part of another base distributed from the distribution control device 70. This is different from the functional unit that has a function of outputting the call voice of the user U. Further, identification information (for example, environment sound output device ID) for specifying the environment sound output device 50 may be allocated to each environment sound output device 50. For example, a distribution control device 70 described later By using the identification information, each environmental sound output device 50 can be controlled.

(Distribution control device 70)
The distribution control device 70 receives the environmental sound from the sound pickup device 30 at each site, and further controls the distribution of the environmental sound to the environmental sound output device 50 at each site. Further, the distribution control device 70 receives the call voice from the user terminal 10 at each site, and further controls the distribution of the call voice to the user terminal 10 at each site. Note that the distribution control device 70 may be installed at any of a plurality of bases, or may be provided at a place other than these bases.

  Specifically, the distribution control device 70 distributes the environmental sound of the other site to the environmental sound output device 50 existing in the one site, based on a request for sharing the environmental sound from the user U of the one site. . As described above, environmental sounds include environmental sounds in addition to human uttered voices. For this reason, by transmitting the environmental sound of the other base, for example, the user U existing at the first base can transmit the daily conversation and the environmental sound at the second base remote from the first base to the second base. You can hear as if you existed.

  Further, the distribution control device 70 realizes an individual call between the users U located at different bases by distributing a call voice. For example, based on a request for a call from one user U of one base, the distribution control device 70 requests the one user U for a call voice received from the user terminal 10 used by the one user U. To the user terminal 10 at the other base, and further, the call voice received from the user terminal 10 at the other base is delivered to the user terminal 10 of one user U which is the request source of the call. With this configuration, the user terminal 10 functions as a call terminal, and the user U existing at the first base and the user U existing at the second base communicate with each other individually using the user terminal 10. Becomes possible. The details of the distribution control device 70 will be described later.

(Storage device 90)
The storage device 90 is a device that stores information and the like used in the control by the distribution control device 70 described above. For example, the data table 92 in which the identification information (sound collection device ID) of the sound collection device 30 associated with each user terminal 10 is described together with the identification information (for example, terminal ID) of each user terminal 10 at each base. Remember. The details of the example of the data table 92 will be described later. In addition, as a storage medium used for the storage device 90, for example, a magnetic recording medium such as a hard disk (Hard Disk) or an EEPROM (Electrically Erasable) is used.
and Programmable Read Only Memory), flash memory, MRAM (Magnetoresistive Random Access Memory), FeRAM (Ferroelectric Random Access Memory is a non-volatile memory, but PRAM (Phase is not a fast access memory). Further, the storage device 90 may be provided inside the distribution control device 70 described above, may be provided at any of a plurality of bases, or may be provided at a place other than these bases.

(Network 100)
As described above, the network 100 connects each device existing at the first site and each device existing at the second site to the distribution control device 70 and the like. The network 100 can be, for example, the Internet, a dedicated line, a LAN (Local Area Network), a WAN (Wide Area Network), or the like, and its aspect is not limited.

  Further, the environmental sound distribution system 1 according to the present embodiment may include a plurality of imaging devices (not shown) existing at the first base and the second base. The imaging device converts an image formed on an imaging surface based on light collection from an imaging range into video data that is an electrical signal. For example, the imaging device is provided above the head of the user U, such as a ceiling at each site, and in this case, the imaging device can obtain video data of the site in a bird's-eye view. It is transmitted to the distribution control device 70. Then, the distribution control device 70 that has received the video data can distribute the video data to the user terminal 10 or the like at another base.

  Here, a specific example of the arrangement of each device at each site will be described with reference to FIG. FIG. 2 is an explanatory diagram showing a specific example of the arrangement of each device at the first base. In the example shown in FIG. 2, user terminals 10a to 10d, sound collection devices 30a and 30b, environmental sound output devices 50a and 50b are installed at the first base, and users U1 to U3 exist.

  For example, when the user U at the second base selects a position near the sound pickup device 30a at the first base to share audio data, the distribution control device 70 transmits the environmental sound obtained by the sound pickup device 30a. The data is distributed to the environmental sound output device 50 at the second base or the like (for example, the environmental sound output device 50 located near the user U at the second base). Then, the environmental sound output device 50 at the second base outputs the environmental sound distributed from the distribution control device 70. In this case, the user U at the second base can hear the conversation and the environmental sound at the first base as if he were at a position near the sound collection device 30a at the first base.

<Background>
In the environmental sound distribution system 1 according to the present embodiment, a plurality of sound collection devices 30 are arranged at various positions in the base. Further, the user U may not be conscious of the existence of the sound pickup device 30, for example, even when the sound pickup device 30 is arranged in front of the user. Further, in the environmental sound distribution system 1, the sound pickup device 30 may be arranged in each site so as not to be conscious of the existence of the sound pickup device 30.

  In the environment audio distribution system 1 as described above, a case is considered where the user U at the first base makes a call using the user terminal 10. When the user U talks using the user terminal 10 and the user U is not conscious of the existence of the sound pickup device 30 arranged around the user U, the user U speaks without sneaking a voice. The call voice of the user U is acquired by the sound collection device 30 as a part of the environmental voice, and is distributed to another site (for example, the second site) via the distribution control device 70. Further, even when the user U makes a call while concealing the presence of the sound pickup device 30 and depending on the sound pickup sensitivity of the sound pickup device 30, the call sound is also acquired by the sound pickup device 30. May be distributed to other sites. Further, when a user other than the user U is absent at the first base where the user U is present, the user U makes a call without concealing the voice because the other person is absent. In some cases, the call voice is acquired by the sound pickup device 30 and distributed to another site.

  Further, even when the user U of the first base pays attention and talks, the user terminal 10 which is the call destination of the user U of the second base is set to the hands-free setting, and If the call voice of the user U is output so as to be heard around the destination user terminal 10, the call voice is acquired by the sound collection device 30 in the second base and distributed to another base. Sometimes. In such a situation, the content of the call related to the call voice may be any one that does not cause a problem even if shared between the users U at each base, but the content of the call is related to the privacy of each user U, If the contents should be kept secret only between the predetermined users U, it is a problem that the contents of the call are known to a third party. That is, in the environmental sound distribution system 1, there is a concern that the call sound is distributed to a third party not intended by the user U, and the contents of the call are known.

  Therefore, the present inventor has come to create an embodiment of the present invention with the above circumstances in mind. According to the embodiment of the present invention, it is possible to prevent the call voice from being unintentionally distributed, and to prevent the call content related to the call voice from being known to an unintended third party. Hereinafter, the configuration and the processing method according to the embodiment of the present invention will be sequentially described in detail.

<Configuration of User Terminal 10>
As described above, the user terminal 10 used by each user U at each base has a function related to processing of voice data, that is, a function as a call terminal. Hereinafter, a functional unit related to processing of audio data of the user terminal 10 will be described with reference to FIG. FIG. 3 is a block diagram illustrating a configuration of the user terminal 10 according to the first embodiment. As shown in FIG. 3, the user terminal 10 mainly includes a terminal communication unit 102, an audio signal conversion unit 104, an audio input unit 106, an audio output unit 108, and a call state notification unit 110. Note that the user terminal 10 may have other functional units (not shown) in addition to the functional units related to the processing of the audio data, for example, may include functional units related to the processing of the video data. .

(Terminal communication unit 102)
The terminal communication unit 102 transmits and receives audio data to and from the distribution control device 70. Specifically, the terminal communication unit 102 transmits the audio data converted by the audio signal conversion unit 104 to be described later to the distribution control device 70, and transmits the audio data received from the distribution control device 70 to the audio signal conversion unit 104. Output.

(Audio signal converter 104)
The audio signal conversion unit 104 performs conversion between call audio, which is pneumatic vibration, and audio data, which is an electrical signal. Specifically, the audio signal conversion unit 104 converts the call audio acquired by the audio input unit 106 described later into an electrical signal, and acquires, for example, audio data that can be transmitted and received by the network 100. In addition, the audio signal conversion unit 104 converts the audio data received from the distribution control device 70 into a pneumatic signal, acquires a call audio, and outputs the acquired call audio to an audio output unit 108 described later.

(Voice input unit 106)
The voice input unit 106 acquires the call voice of the user U, and outputs the voice to the voice signal conversion unit 104 described above. The voice input unit 160 can be, for example, a microphone.

(Audio output unit 108)
The audio output unit 108 outputs the call audio transmitted from the distribution control device 70. The audio output unit 108 can be, for example, a headphone speaker, a speaker, or the like.

(Call status notification unit 110)
When the user terminal 10 makes a call or receives a call, that is, when the user terminal 10 is in a call state, the call state notification unit 110 transmits information indicating that the user terminal 10 is in a call state to the terminal communication unit. The data is transmitted to the distribution control unit 70 via the communication terminal 102. For example, the information transmitted by the call state notification unit 110 includes a terminal ID (identification information) of the corresponding user terminal 10 and information such as ON / OFF and 1/0 for notifying the communication state (for example, when the user terminal 10 If the user terminal 10 is not in a call state, the information may be ON or information 1 if the user terminal 10 is not in a call state.

<Configuration of distribution control device 70>
The distribution control device 70 distributes the environmental sound or the call sound as described above. Hereinafter, a functional unit related to environmental sound distribution in the distribution control device 70 will be described with reference to FIG. FIG. 4 is a block diagram illustrating a configuration of the distribution control device 70 according to the present embodiment. As illustrated in FIG. 4, the distribution control device 70 according to the present embodiment includes a communication unit 710, an acquisition unit (environmental sound acquisition unit) 720, a distribution unit 730, a control unit (sound collection control unit) 740, It mainly has a detection unit 750 and a selection unit 760. Note that the distribution control unit 70 further includes a functional unit (not shown) that controls reception of the call voice from the user terminal 10 and distribution of the call voice to another user terminal 10.

(Communication unit 710)
The communication unit 710 transmits and receives audio data of environmental sound and other information to and from the sound collection device 30 and the environmental sound output device 50 located at each base. Specifically, the communication unit 710 outputs the audio data related to the environmental sound transmitted from each sound collection device 30 to the acquisition unit 720 described later, and also outputs the audio data related to the environment sound output from the distribution unit 730 described later. The audio data is transmitted to each environmental audio output device 50. Further, the communication unit 710 transmits control information from the control unit 740, which will be described later, to the sound collection device 30, the environmental sound output device 50, and the like.

(Acquisition unit 720)
The acquisition unit 720 acquires audio data relating to environmental audio via one or a plurality of sound collection devices 30 under the control of the control unit 740 described below.

(Distributor 730)
The acquisition unit 720 distributes audio data related to environmental audio to one or more environmental audio output devices 50 under the control of the control unit 740 described below.

(Control unit 740)
The control unit 740 generally controls the operation of the distribution control device 70. Further, the control unit 740 can control acquisition of environmental sound using the sound collection device 30 described above. Specifically, the control unit 740 can control the start and stop of the sound pickup operation of each sound pickup device 30 via the above-described communication unit 710, and furthermore, the sound pickup sensitivity of each sound pickup device 30 (Acquisition sensitivity) can be controlled. In addition, the control unit 740 may control each environmental sound output device 50 in a similar manner.

(Detection unit 750)
The detecting unit 750 detects the user terminal 10 in a call state. Specifically, the detection unit 750 transmits the state of the user terminal 10 that is transmitted from each user terminal 10 (specifically, when the user terminal 10 makes a call, or when the user terminal 10 receives a call). Is detected), and the user terminal 10 in a call state is specified based on the detected information.

(Selector 760)
The selection unit 760 selects the sound collection device 30 corresponding to the user terminal 10. In detail, the selection unit 760 refers to the data table 92 stored in the storage device 90, selects the sound collection device 30 corresponding to the user terminal 10 detected and specified by the detection unit 750, and The selection result is output to the control unit 740 described above. Then, the control unit 740 controls the selected sound collection device 30 based on the selection result.

<Configuration of Data Table 92>
Next, the data table 92 referred to by the selection unit 760 will be described with reference to FIG. FIG. 5 is an explanatory diagram illustrating an example of the data table 92 according to the present embodiment.

  For example, in the data table 92, as shown in FIG. 5, identification information of each user terminal 10 at each base (in FIG. 5, for example, "termA" and "termX" are shown as each terminal ID). Further, the identification information of the sound pickup device 30 previously associated with each user terminal 10 (in FIG. 5, for example, “micB”, “micW”, “micY”, "MicZ" is shown). Specifically, in the data table 92, a sound pickup device ID of “micB” is described in a column on the right of a column in which a terminal ID of “termA” is displayed, and these notations are represented by “termA”. Means that the sound collecting device 30 having the sound collecting device ID “micB” is associated with the user terminal 10 having the terminal ID of “micB”. In the data table 92, a plurality of sound pickup device IDs “micW”, “micY”, and “micZ” are described in a column on the right of the column displaying the terminal ID “termX”. In these notations, a user terminal 10 having a terminal ID of “termX” is associated with three sound collection devices 30 each having a sound collection device ID of “micW”, “micY”, and “micZ”. Means that. Note that the format of the data table 92 is not limited to the format shown in FIG. 5, but is particularly limited as long as the format allows the sound collection device 30 associated with each user terminal 10 to be recognized. Not something.

  Further, in the data table 92, the sound collection devices 30 associated in advance with the respective user terminals 10 are the sound collection devices 30 arranged near the corresponding user terminals 10 at each base. That is, the sound collection device 30 is a sound collection device 30 that has a high possibility of acquiring a call voice using the user terminal 10 as a part of the environmental voice.

<Processing method>
The configuration according to the present embodiment has been described above. Subsequently, a method of the environmental sound distribution processing of the environmental sound distribution system 1 according to the present embodiment will be described with reference to FIG. FIG. 6 is an explanatory diagram illustrating a processing method of the environmental audio distribution system 1 according to the present embodiment. Note that, in the embodiment described below, the first site is the calling side of a call, the second site is the called side of the call, and the voice of the call at each of the calling side and the called side. The case where the acquisition is controlled will be described. However, since the operation at the called side at the second base is the same as the operation at the calling side at the first base, the operation at the calling side at the first base will be described below. Only the operation will be described. Therefore, the operation on the calling side of the second base can be described by exchanging the first base and the second base in the following description of the embodiment.

  In the present embodiment, for example, the user terminal 10 in a call state (specifically, when the user terminal 10 makes a call) at the first base is detected (S103), and the detected user terminal 10 is linked to the detected user terminal 10. The selected sound pickup device 30 is selected (S105), and the acquisition of environmental sound using the selected sound pickup device 30 is controlled (S107). One or a plurality of sound collection devices 30 at the first base continuously acquire the environmental sound, and the sound data relating to the acquired environmental sound is transmitted to one or more of the second base via the distribution control device 70. It is distributed to a plurality of environmental sound output devices 50. Further, the distributed audio data relating to the environmental audio is converted into environmental audio, and is continuously output from the environmental audio output device 50. Hereinafter, a processing method of the environmental audio distribution system 1 according to the present embodiment will be described in detail.

  Specifically, the sound collection device 30 at the first base transmits the acquired sound data relating to the environmental sound to the distribution control device 70 together with the sound collection device ID of the sound collection device 30. Further, the distribution control device 70 distributes the audio data relating to the environmental sound transmitted from each sound pickup device 30 at the first site to the environmental sound output device 50 at the second site. Note that the sound collection device 30 at the first base is a sound collection device 30 that has been requested in advance by the user U at the second base to acquire environmental sound. Next, the process proceeds to step S101.

(Step S101)
When the user terminal 10 at the first base enters the call state, the user terminal 10 at the first base distributes the terminal ID of the user terminal 10 and information indicating that the user terminal 10 is in the call state (call state information). Transmit to control device 70. Next, the process proceeds to step S103.

(Step S103)
The distribution control device 70 specifies the user terminal 10 in the call state based on the terminal ID and the call state information received from the user terminal 10 at the first base in the call state. Next, the process proceeds to step S105.

(Step S105)
The distribution control device 70 refers to the data table 92 stored in the storage device 90 using the terminal ID of the specified user terminal 10, and collects the sound at the first base linked in advance to the specified user terminal 10. The device 30 is selected, and the sound collection device ID of the selected sound collection device 30 is obtained. Next, the process proceeds to step S107.

(Step S107)
The distribution control device 70 controls the selected sound collection device 30. Specifically, the distribution control device 70 uses the acquired sound collection device ID to transmit control information for instructing the selected sound collection device 30 to lower the sound collection sensitivity (acquisition sensitivity). Next, the process proceeds to step S109.

(Step S109)
The selected sound collection device 30 lowers the sound collection sensitivity under the control of the distribution control device 70, and the function of acquiring the environmental sound is suppressed. This makes it difficult for the sound collection device 30 linked to the user terminal 10 in a call state, that is, the sound collection device 30 disposed near the user terminal 10, to acquire the surrounding environmental sound. The voice of the user U using the user terminal 10 is no longer acquired by the sound collection device 30. As a result, the call voice can be prevented from being acquired by the sound collection device 30 and distributed to the second base.

  Note that, in step S109, the sound pickup sensitivity of the selected sound pickup device 30 is reduced, and the function of acquiring the environmental sound of the sound pickup device 30 is not limited to being suppressed. The acquisition operation of the environmental sound of the sound pickup device 30 may be stopped, or only the speech sound of a person among the environmental sounds acquired by the sound pickup device 30 may be removed by filtering. The audio data relating to the audio may be transmitted to the distribution control device 70. Further, in the present embodiment, the above-described processing method is limited to the case where the above-described processing method is performed at both the calling side and the called side of the call, and the delivery of the calling voice of both the calling side and the called side is prevented. However, for example, it may be carried out on only one of the calling side and the called side of the call, in which case, the calling voice of either the calling side or the called side may be transmitted to a third party. Delivery can be prevented.

  When the call using the user terminal 10 ends, the user terminal 10 controls the distribution of the terminal ID of the user terminal 10 and information indicating that the call at the user terminal 10 has ended. Transmit to the device 70. Then, based on the reception of the information, the distribution control device 70 stops the suppression control of the environmental sound acquisition function for the sound collection device 30 in which the environmental sound acquisition function is suppressed in step S109 described above. . As a result, the sound collection device 30 returns to the normal state, that is, continuously acquires the surrounding environmental sound, and transmits the sound data related to the acquired environmental sound to the distribution control device 70.

  With such a configuration, the sound collection device 30 at the first base located near the user terminal 10 in the call state cannot acquire the call voice of the user U using the user terminal 10. As a result, the call voice is not distributed to the second base as the environmental voice acquired by the sound collection device 30, so that the call voice of the call using the user terminal 10 is unintentionally distributed. Can be prevented. Therefore, it is possible to prevent the contents of the call related to the call voice from being known to an unintended third party.

<< Second Embodiment >>
In the above-described first embodiment, it is assumed that the user terminal 10 at each base is at a fixed position, and the user terminal 10 and the sound collection device 30 are linked in advance based on their positional relationship. . On the other hand, in a second embodiment described below, the position of the user terminal 10 in a call state is detected, and a nearby sound collection device 30 is associated with the user terminal 10 according to the detected position. In the present embodiment, even when the user terminal 10 is not fixedly installed in the base and can be moved, the sound collection device 30 near the user terminal 10 according to the position of the user terminal 10 can be used. Can be grasped and controlled, so that it is possible to prevent the call voice of the call using the user terminal 10 from being unintentionally delivered to a third party. First, after describing the outline of the environmental audio distribution system 2 according to the present embodiment, the configuration and processing method of the present embodiment will be sequentially described in detail.

<Overview of Environmental Audio Distribution System 2>
FIG. 7 is a block diagram illustrating a configuration of the environmental audio distribution system 2 according to the second embodiment. As shown in FIG. 7, the environmental audio distribution system 2 according to the present embodiment includes a plurality of user terminals 10 located at first and second bases, like the environmental audio distribution system 1 according to the first embodiment. It includes a plurality of sound collection devices 30 and a plurality of environmental sound output devices 50, a distribution control device 72, and a storage device 90. Further, the environmental sound distribution system 2 detects the position of the user terminal 10 in a call state, calculates the distance between the user terminal 10 and each sound pickup device 30 based on the detected position, and calculates A position detection unit 120 for selecting the sound pickup device 30 based on the sound pickup device 30 is included. In the environment audio distribution system 2 according to the present embodiment, the components other than the distribution control device 72 and the position detection unit 120 are the same as those of the first embodiment except for the distribution control device 72 and the position detection unit 120. The description of the device is omitted, and the details of the configuration of the distribution control device 72 and the position detection unit 120 will be described.

<Configuration of distribution control device 72>
The distribution control device 72 distributes the environmental voice or the call voice similarly to the distribution control device 70 according to the first embodiment. As shown in FIG. 4, which is a block diagram illustrating the configuration of the distribution control device 72 according to the present embodiment, the distribution control device 72 according to the present embodiment includes a communication unit 710, like the first embodiment. , An acquisition unit 720, a distribution unit 730, a control unit 740, a detection unit 752, and a selection unit 762. Note that the communication unit 710, the acquisition unit 720, the distribution unit 730, and the control unit 740 of the distribution control device 72 are the same as the functional units having the same names of the distribution control device 70 according to the first embodiment. , Description thereof will be omitted.

(Detection unit 752)
As in the first embodiment, the detection unit 752 detects information transmitted from each user terminal 10 indicating that the user terminal 10 is in a call state, and detects a user in a call state based on the detected information. The terminal 10 is specified. Further, the detection unit 752 transmits information requesting to detect the position of the specified user terminal 10 to the position detection unit 120 described later via the communication unit 710 together with the terminal ID of the user terminal 10. The detecting unit 752 may transmit the information requesting to detect the position of the user terminal 10 only when the user terminal 10 in the call state is detected, or may transmit the information requesting the user terminal 10 in the call state. A plurality of transmissions may be periodically performed from when the communication terminal 10 is detected to when the end of the call on the user terminal 10 is detected.

(Selector 762)
The selection unit 762 selects the sound pickup device 30 corresponding to the user terminal 10 detected by the detection unit 752 with reference to the data table 92 of the storage device 90 updated by the position detection unit 120 described below, The result of the selection is output to control unit 740 described above.

<Configuration of position detection unit 120>
As described above, the position detection unit 120 detects the position of the user terminal 10 in a call state, calculates the distance between the user terminal 10 and each sound pickup device 30 based on the detected position, and calculates the distance. The sound pickup device 30 is selected based on the result, and is linked to the user terminal 10. The position detection unit 120 may be provided as a device separate from the distribution control device 72, or a part or the whole thereof may be provided inside the distribution control device 72 described above. Hereinafter, each functional unit in the position detection unit 120 will be described with reference to FIG. FIG. 8 is a block diagram illustrating a configuration of the position detection unit 120 according to the second embodiment. As illustrated in FIG. 8, the position detection unit 120 determines a distance between the user terminal 10 and each of the sound collection devices 30 and a position acquisition unit (position detection unit) 122 that acquires position information of the user terminal 10 in a call state. A distance calculating unit 124 for calculating, a selecting unit 126 for selecting the sound pickup device 30 based on the calculated result, an updating unit 128 for updating the data table 92 stored in the storage device 90 based on the selected result, and a communication unit. 130 mainly.

(Position acquisition unit 122)
The position acquisition unit 122 acquires the position information of the user terminal 10 based on receiving the information requesting to detect the position of the user terminal 10 from the distribution control device 70. Note that the method for acquiring the position information of the user terminal 10 by the position acquisition unit 122 according to the present embodiment is not particularly limited, and various known methods can be used. Hereinafter, an example of a method of acquiring position information by the position acquisition unit 122 will be described.

  For example, the position acquisition unit 122 has three or more radio wave intensity reception units (not shown) fixedly arranged in each base, and further holds the position information of the radio wave intensity reception units in advance. When these radio wave intensity receiving units at the first base receive specific radio waves emitted by the user terminal 10 in a call state, the position acquisition unit 122 determines the radio wave intensity of the radio waves received by each radio wave intensity receiving unit. , The position information of the user terminal 10 in the base can be obtained by using the triangulation technology. In the present embodiment, the number of the radio wave intensity receiving units is not limited to three or more fixedly arranged in each site, but may be one or two. In addition, the radio wave intensity receiving unit can be configured by, for example, a plurality of wireless LAN access points provided in each base.

  Further, for example, the position acquisition unit 122 has a plurality of fixedly arranged imaging devices (not shown) in each base, and further holds the position information of the imaging devices in advance. When these imaging devices in the base receive specific radio waves or light emitted from the user terminal 10 in a call state, the imaging device acquires an image of the user terminal 10 and the position acquisition unit 122 By analyzing the acquired image, the position information of the user terminal 10 in the base can be acquired.

  Furthermore, for example, the position acquisition unit 122 receives a specific light emitted by the user terminal 10 in a call state or a light reflected by the user terminal 10 and a plurality of fixedly arranged light receiving devices (shown in FIG. (Omitted). In this case, the position acquisition unit 122 can acquire the position information of the user terminal 10 in the base based on the light receiving direction of the light by the light receiving unit and the like.

(Distance calculation unit 124)
The distance calculation unit 124 calculates each distance between the user terminal 10 in the call state and each of the sound collection devices 30 in the same base as the user terminal 10. In detail, the distance calculation unit 124 uses the position information of the user terminal 10 in the call state acquired by the above-described position acquisition unit 122 and the position information of each sound collection device 30 held in advance, and Each distance between the user terminal 10 and each sound pickup device 30 is calculated. Then, the calculated result is output to the selection unit 126 described later.

(Selection unit 126)
The selection unit 126 selects the sound collection device 30 corresponding to the user terminal 10 in the call state based on each distance calculated by the distance calculation unit 124. For example, the selection unit 126 selects the sound pickup device 30 that is equal to or less than a predetermined distance, that is, the sound pickup device 30 that is close to the user terminal 10 in a call state, among the distances calculated by the distance calculation unit 124. . Then, the selection unit 126 sends the selection result (specifically, the terminal ID of the user terminal 10 and the sound collection device 30 selected as the sound collection device 30 corresponding to the user terminal 10) to the update unit 128 described later. The sound pickup device ID) is output.

(Update unit 128)
The updating unit 128 updates the information of the data table 92 stored in the storage device 90 via the communication unit 130, which will be described later, based on the selection result from the above-described selecting unit 126. Specifically, the update unit 128 stores the sound collection device 30 selected by the above-described selection unit 126 in association with the user terminal 10 as the sound collection device 30 corresponding to the user terminal 10 in a call state. Next, the sound collecting device ID of the selected sound collecting device 30 is transmitted to the storage device 90 together with the terminal ID of the user terminal 10 in the talking state. Then, the received storage device 90 stores the terminal ID of the user terminal 10 in the talking state and the transmitted sound collection device ID of the sound collection device 30 in the data table 92 in association with each other.

(Communication unit 130)
The communication unit 130 can transmit and receive information to and from the distribution control device 70 and the like. The communication unit 130 can receive, for example, information requesting to detect the position of the user terminal 10 from the distribution control device 70 and output the information to the position acquisition unit 122.

<Processing method>
The configuration according to the present embodiment has been described above. Subsequently, a method of the environmental audio distribution processing of the environmental audio distribution system 2 according to the present embodiment will be described with reference to FIG. FIG. 9 is an explanatory diagram illustrating a processing method of the environmental audio distribution system 2 according to the present embodiment.

  In the present embodiment, for example, the user terminal 10 in a call state at the first base is specified (S203), the position of the specified user terminal 10 is detected (S205), and the user terminal 10 and each sound pickup are detected. The distance to the device 30 is calculated (S207), the sound pickup device 30 is selected based on the calculation result (S209), the data table 92 is updated based on the selection result (S211), and the updated data table 92 is further updated. The sound pickup device 30 is selected based on the above, and the acquisition of the environmental sound using the selected sound pickup device 30 is controlled (S213). In this embodiment, as in the first embodiment, one or a plurality of sound collection devices 30 at the first base continuously acquire the environmental sound, and the acquired environmental sound is transmitted to the distribution control device. It is distributed to one or a plurality of environmental audio output devices 50 at the second location via 72, and is continuously output from the environmental audio output devices 50. Hereinafter, a processing method of the environmental audio distribution system 2 according to the present embodiment will be described in detail.

(Step S201)
As in step S101 of the first embodiment, when the user terminal 10 at the first base enters the call state, the user terminal 10 at the first base sets the terminal ID of the user terminal 10 and the user terminal 10 at the call state. Is transmitted to the distribution control device 72. Next, the process proceeds to step S203.

(Step S203)
The distribution control device 72 specifies the user terminal 10 in the call state based on the terminal ID and the call state information received from the user terminal 10 at the first base in the call state. Further, the distribution control device 72 transmits to the position detecting unit 120 information requesting to detect the position of the specified user terminal 10 together with the terminal ID of the user terminal 10. Next, the process proceeds to step S205.

(Step S205)
The position detection unit 120 acquires the position information of the user terminal 10 requested by the distribution control device 72. Next, the process proceeds to step S207.

(Step S207)
The position detection unit 120 calculates each distance between the user terminal 10 from which the position information has been obtained in step S205 and each of the sound collection devices 30 in the same base as the user terminal 10 (that is, the first base). Next, the process proceeds to step S209.

(Step S209)
The position detection unit 120 selects a sound collection device 30 that is shorter than or equal to a predetermined distance as the sound collection device 30 corresponding to the user terminal 10 based on the result calculated in step S207. Next, the process proceeds to step S211.

(Step S211)
The position detection unit 120 updates the information of the data table 92 stored in the storage device 90 based on the selection result in step S209. More specifically, the position detection unit 120 instructs the storage device 90 to store the sound collection device 30 selected in step S209 in association with the user terminal 10. The storage device 90 updates the information in the stored data table 92 based on the instruction. Next, the process proceeds to step S213.

(Step S213)
The distribution control device 72 refers to the data table 92 updated in step S211 using the terminal ID of the user terminal 10 specified in step S203, and collects the first base linked to the specified user terminal 10. The sound device 30 is selected. Further, the distribution control device 72 acquires the sound pickup device ID of the selected sound pickup device 30, and uses the acquired sound pickup device ID in the same manner as in step S107 of the first embodiment, as in step S107 of the first embodiment. 30 is controlled. Next, the process proceeds to step S215.

(Step S215)
As in step S109 of the first embodiment, the selected sound pickup device 30 lowers the sound pickup sensitivity under the control of the distribution control device 72, and suppresses the function of acquiring the environmental sound.

  According to this configuration, the position of the user terminal 10 in a call state is detected by the position detection unit 120, and the sound pickup device 30 is selected according to the position of the user terminal 10, so that the user terminal 10 moves within the base. Even if it is possible, the sound collection device 30 near the user terminal 10 can be appropriately selected and controlled. Furthermore, according to such a configuration, since the sound pickup device 30 in the vicinity can be appropriately selected and controlled, the sound pickup device 30 located in the vicinity of the user terminal 10 in the call state can control the user terminal 10. The voice of the user U used cannot be acquired. As a result, the call voice is not distributed to the second site as the environmental voice acquired by the sound collection device 30, and the call voice of the call using the user terminal 10 is unintentionally distributed to the third party. Can be prevented.

  In the present embodiment, even when the sound pickup device 30 is moving within the base, the position detection unit 120 determines the position of the sound pickup device 30 in the same manner as the acquisition of the position information of the user terminal 10 described above. Information may be acquired, and each distance between the user terminal 10 in a call state and each of the sound collection devices 30 may be calculated based on the acquired position information of the sound collection device 30.

  Further, in the present embodiment, as described above, the distribution control device 72 (specifically, the detection unit 752) ends the call on the user terminal 10 from the time when the user terminal 10 in the call state is detected. The information requesting to detect the position of the user terminal 10 may be periodically transmitted to the position detection unit 120 a plurality of times until the position is detected. Then, the distribution control device 72 periodically transmits the above information, so that the position of the user terminal 10 is periodically detected while the user terminal 10 is in a call state, and according to the detected position. The sound collection device 30 corresponding to the user terminal 10 is selected. Therefore, for example, even when the user U is talking while moving inside the base with the user terminal 10, the sound collection device 30 is appropriately selected and controlled according to the position of the user terminal 10. Therefore, it is possible to prevent the call voice of the call using the user terminal 10 from being unintentionally distributed to a third party.

<< Third Embodiment >>
In the third embodiment described below, a predetermined signal sound is output from the user terminal 12, and the sound collection device 30 that can acquire the predetermined signal sound is changed to the sound collection device 30 corresponding to the user terminal 12, That is, the sound pickup device 30 near the user terminal 12 is selected. In the present embodiment, similarly to the second embodiment, even when the user terminal 10 can move in the base, the sound collection device 30 near the user terminal 12 is appropriately selected, Can be controlled. First, after describing the outline of the environmental audio distribution system 3 according to the present embodiment, the configuration and processing method of the present embodiment will be sequentially described in detail.

<Overview of Environmental Audio Distribution System 3>
FIG. 10 is a block diagram illustrating a configuration of the environmental audio distribution system 3 according to the present embodiment. As shown in FIG. 10, the environmental audio distribution system 3 according to the present embodiment includes a plurality of user terminals 12 located at first and second bases, as in the environmental audio distribution system 1 according to the first embodiment. It includes a plurality of sound collection devices 30 and a plurality of environmental sound output devices 50, a distribution control device 70, and a storage device 90. Further, the environmental sound distribution system 3 analyzes the predetermined signal sound acquired by each sound pickup device 30 and selects the sound pickup device 30 as the sound pickup device 30 corresponding to the user terminal 12. including. Note that the environmental voice distribution system 3 according to the present embodiment is the same as the first embodiment except for the user terminal 12 and the signal voice recognition unit 140. Is omitted, and details of the configurations of the user terminal 12 and the signal voice recognition unit 140 will be described.

<Configuration of User Terminal 12>
The user terminal 12 according to the present embodiment has a function related to processing of voice data, that is, a function as a call terminal, as in the first embodiment. Hereinafter, each functional unit related to the processing of the audio data of the user terminal 12 will be described with reference to FIG. FIG. 11 is a block diagram illustrating a configuration of the user terminal 12 according to the present embodiment. As shown in FIG. 11, the user terminal 12 includes a terminal communication unit 102, an audio signal conversion unit 104, an audio input unit 106, an audio output unit 108, a call state notification unit 110, a signal audio generation unit 112 and a signal voice transmitting unit 114. Note that the terminal communication unit 102, the audio signal conversion unit 104, the audio input unit 106, the audio output unit 108, and the call state notification unit 110 of the user terminal 12 are the same names of the user terminal 10 according to the first embodiment. Since it is the same as the functional unit, the description is omitted here.

(Signal sound generator 112)
The signal sound generation unit 112 is a functional unit that generates a predetermined signal sound. For example, the signal sound generation unit 112 may generate a predetermined signal sound by converting text data such as a terminal ID assigned to the user terminal 12 into sound. In addition, when the corresponding user terminal 10 is the called side, the signal voice generating unit 112 may notify the incoming call and generate a ringing sound capable of specifying the corresponding user terminal. . Furthermore, the signal sound generation unit 112 is a signal having a specific frequency (preferably, a signal having a frequency corresponding to a frequency band inaudible to humans, such as an ultrasonic wave) capable of specifying the corresponding user terminal 12. May be generated. Note that the signal voice generating unit 112 may generate a predetermined signal voice when the corresponding user terminal 12 enters a call state, or may generate a predetermined signal voice when the corresponding user terminal 12 enters a call state. Until the call at 12 ends, it may be periodically generated a plurality of times.

(Signal voice transmitting unit 114)
The signal voice transmission unit 114 is a device that outputs the predetermined signal voice generated by the above-described signal voice generation unit 112 to the outside of the user terminal 12, specifically, to the sound collection device 30 around the user terminal 12. Yes, for example, a speaker or the like.

<Configuration of Signal Voice Recognition Unit 140>
As described above, the signal voice recognition unit 140 analyzes the predetermined signal voice acquired by each sound collecting device 30 and, based on the analysis result, associates the corresponding sound collecting device 30 with the user terminal 12. Selected as the sound pickup device 30 to be used. Note that the signal voice recognition unit 140 may be provided as a device separate from the distribution control device 70, or a part or the whole thereof may be provided inside the above-described distribution control device 70. Hereinafter, each functional unit in the signal voice recognition unit 140 will be described with reference to FIG. FIG. 12 is a block diagram illustrating a configuration of the signal voice recognition unit 140 according to the present embodiment. As shown in FIG. 12, the signal voice recognition unit 140 mainly includes an acquisition unit 142, an analysis unit 144, a selection unit 146, an update unit 148, and a communication unit 150.

(Acquisition unit 142)
The acquisition unit 142 acquires the sound data of the environmental sound via one or a plurality of sound collection devices 30.

(Analyzing unit 144)
The analysis unit 144 detects whether the environmental sound acquired by each of the sound collection devices 30 includes a predetermined signal sound output from the user terminal 12, and includes a predetermined signal sound if the environment sound includes the predetermined signal sound. A predetermined signal voice is analyzed, and it is determined which user terminal 12 is the signal voice output. For example, when the environment sound acquired by the sound pickup device 30 includes a predetermined signal sound, the analysis unit 144 analyzes the predetermined signal sound, and determines a terminal of the specific user terminal 12 based on the analysis result. When the ID is obtained, the signal voice can be determined to be the signal voice output from the user terminal 12 related to the terminal ID. When the distance between the user terminal 12 and the sound pickup device 30 is long, the information of the terminal ID is analyzed by the analysis unit 144 from a predetermined signal sound included in the environmental sound acquired by the sound pickup device 30. It is difficult to get. Therefore, when the terminal ID is obtained from the signal voice, the user terminal 12 associated with the terminal ID and the sound collection device 30 that has acquired the environmental voice including the predetermined signal voice from which the terminal ID can be obtained are included. Can be said to be close. Then, the analysis unit 144 will later describe the terminal ID of the user terminal 12 that has output the predetermined signal voice and the sound collection device ID of the sound collection device 30 that has acquired the environmental sound including the predetermined signal voice. Output to the selection unit 146.

(Selector 146)
The selection unit 146 selects the sound collection device 30 corresponding to the user terminal 12 in the call state based on the analysis result obtained by the analysis unit 144. In detail, the selection unit 146 outputs from the analysis unit 144 as the user terminal 12 corresponding to the terminal ID output from the analysis unit 144, that is, the sound collection device 30 corresponding to the user terminal 12 that has output the predetermined signal voice. The sound pickup device 30 related to the sound pickup device ID thus selected is selected. Then, the selection unit 146 sends the selection result (specifically, the terminal ID of the user terminal 10 and the sound collection device 30 selected as the sound collection device 30 corresponding to the user terminal 12) to the update unit 148 described later. The sound pickup device ID) is output.

(Update section 148)
The update unit 148 stores the data in the storage device 90 via the communication unit 150 described below, based on the selection result from the above-described selection unit 146, similarly to the update unit 128 of the position detection unit 120 according to the second embodiment. The information of the data table 92 is updated.

(Communication unit 150)
The communication unit 150 can transmit and receive information to and from the sound collection device 30, the storage device 90, and the distribution control device 70.

<Processing method>
The configuration according to the present embodiment has been described above. Subsequently, a method of the environmental audio distribution processing of the environmental audio distribution system 3 according to the present embodiment will be described with reference to FIG. FIG. 13 is an explanatory diagram illustrating a processing method of the environmental audio distribution system 3 according to the present embodiment.

  In the present embodiment, for example, at the first location, the user terminal 12 in a call state outputs a predetermined signal voice (S303), and the user terminal 12 that outputs the predetermined signal voice and the acquisition of the signal voice are acquired. The sound device 30 is specified (S307), the data table 92 is updated based on the selection result (S309), and the acquisition of the environmental sound using the selected sound device 30 based on the updated data table 92 is performed. Control is performed (S313). In this embodiment, as in the first embodiment, one or a plurality of sound collection devices 30 at the first base continuously acquire the environmental sound, and the acquired environmental sound is transmitted to the distribution control device. It is distributed to one or a plurality of environmental audio output devices 50 at the second location via 70 and is continuously output from the environmental audio output device 50. Hereinafter, a processing method of the environmental audio distribution system 3 according to the present embodiment will be described in detail.

(Step S301)
The user terminal 10 at the first base is in a call state. Next, the process proceeds to step S303.

(Step S303)
The user terminal 12 in a call state outputs a predetermined signal voice to the outside of the user terminal 12. Further, the user terminal 12 transmits the terminal ID of the user terminal 12 and information indicating that the user terminal 12 is in a call state to the distribution control device 70. Next, the process proceeds to step S305.

(Step S305)
The signal voice recognition unit 140 acquires the environmental voice via one or more sound collection devices 30 at the first location. Next, the process proceeds to step S307.

(Step S307)
The signal voice recognition unit 140 detects whether the environmental voice acquired by each sound pickup device 30 includes a predetermined signal voice output from the user terminal 12, and determines whether the environmental voice obtained from the user terminal 12 includes the predetermined signal voice. Analyzes a predetermined signal voice and determines which user terminal 12 is the signal voice output. Further, based on the analysis result, the signal voice recognition unit 140 obtains the environmental sound including the predetermined signal voice as the sound collection device 30 corresponding to the user terminal 12 that has output the predetermined signal voice. Select the device 30. Next, the process proceeds to step S309.

(Step S309)
As in step S211 of the second embodiment, the signal voice recognition unit 140 updates the information in the data table 92 stored in the storage device 90 based on the selection result in step S307. Next, the process proceeds to step S311.

(Step S311)
The distribution control device 70 specifies the user terminal 12 in the call state based on the terminal ID and the call state information received from the user terminal 12 at the first base in the call state. Next, the process proceeds to step S313. Further, the process proceeds from step S313 to step S315, but these steps are the same as step S213 and step S215 in the second embodiment, and a description thereof will not be repeated.

  With such a configuration, the sound pickup device 30 corresponding to the user terminal 12 in the call state is selected using the predetermined signal voice, so that the user terminal 12 can move within the base. Thus, the sound collection device 30 near the user terminal 12 can be appropriately selected and controlled. Further, according to this configuration, since the sound pickup device 30 can be appropriately selected and controlled, the sound pickup device 30 located near the user terminal 12 in a call state uses the user terminal 12. It becomes impossible to acquire the call voice of the user U. As a result, the call voice is not distributed to the second base as the environmental voice acquired by the sound collection device 30, so that the call voice of the call using the user terminal 12 is unintentionally distributed. Thus, it is possible to prevent the contents of the call related to the call voice from being known to an unintended third party.

  Also, in the present embodiment, as described above, the user terminal 12 (specifically, the signal voice generation unit 112) periodically transmits a predetermined signal voice while the user terminal 12 is in a call state. May be generated. Then, the user terminal 12 periodically outputs a predetermined signal voice, so that the sound collection device 30 corresponding to the user terminal 12 is periodically selected while the user terminal 12 is in a call state. Therefore, for example, even when the user U is talking while moving inside the base with the user terminal 12, the sound pickup device 30 is appropriately selected and controlled according to the position of the user terminal 12. Therefore, it is possible to prevent the call voice of the call using the user terminal 12 from being unintentionally distributed to a third party.

<< 4th Embodiment >>
In the above-described first to third embodiments, by controlling the specific sound collection device 30, it is prevented that the call voice is unintentionally distributed. On the other hand, in a fourth embodiment to be described below, a call sound is unintentionally distributed by generating a disturbing sound and distributing the generated environmental sound including the disturbing sound to the environmental sound output device 50 at another site. Thus, it is possible to prevent the contents of the call related to the call voice from being known to an unintended third party. First, after describing the outline of the environmental sound distribution system 4 according to the fourth embodiment of the present invention, the configuration and the processing method of the fourth embodiment will be sequentially described in detail.

<Overview of Environmental Audio Distribution System 4>
The environmental audio distribution system 4 according to the present embodiment is the same as the environmental audio distribution system 1 of the first embodiment, and FIG. 1 is a block diagram showing the configuration of the environmental audio distribution system 4 according to the present embodiment. As shown, it includes a plurality of user terminals 10, a plurality of sound collection devices 30 and a plurality of environmental sound output devices 50 existing at the first and second bases, a distribution control device 74, and a storage device 90. Since the environmental sound distribution system 4 according to the present embodiment is the same as the first embodiment except for the distribution control device 74, the description of the devices other than the distribution control device 74 is omitted here, and the distribution control device The details of the configuration of 74 will be described.

<Configuration of distribution control device 74>
The distribution control device 74 according to the present embodiment distributes environmental sounds or call voices, similarly to the distribution control device 70 according to the first embodiment. Hereinafter, a functional unit related to environmental sound distribution in the distribution control device 74 will be described with reference to FIG. As illustrated in FIG. 14, the distribution control device 74 according to the present embodiment includes a communication unit 710, an acquisition unit 720, a distribution unit 730, a detection unit 750, and a selection unit 760, as in the first embodiment. And a generating unit 770 and a synthesizing unit 780. Note that the communication unit 710, the acquisition unit 720, the distribution unit 730, the detection unit 750, and the selection unit 760 of the distribution control device 74 are the same as the functional units having the same names of the distribution control device 70 according to the first embodiment. Therefore, these descriptions are omitted here.

(Generation unit 770)
The synthesizing unit 780 synthesizes the disturbing sound for disturbing the distribution of the call sound on the user terminal 10 acquired by the sound collecting device 30. The disturbing voice may be a noise voice such as white noise, or a voice having a phase opposite to the voice of the user terminal 10 in a voice communication state. In the latter case, by synthesizing the call voice with the disturbing sound having the opposite phase to the call voice, the call voice is canceled, and is not distributed to another site as a part of the environmental sound.

(Synthesizing unit 780)
The disturbing sound generated by the generating unit 770 is synthesized with the environmental sound acquired by the sound collection device 30 selected by the selecting unit 760. The environmental sound including the disturbing sound obtained by the synthesis is distributed to the environmental sound output device 50 of another base via the distribution unit 730 and the communication unit 710.

<Processing method>
The configuration according to the present embodiment has been described above. Subsequently, a method of the environmental audio distribution processing of the environmental audio distribution system 4 according to the present embodiment will be described with reference to FIG. FIG. 15 is an explanatory diagram illustrating a processing method of the environmental audio distribution system 4 according to the present embodiment.

  In the present embodiment, for example, the user terminal 10 that is in a call state at the first base is detected (S403), and the sound collection device 30 associated with the detected user terminal 10 is selected (S405), and interference is caused. A sound is generated (S407), and a disturbing sound is synthesized with the environmental sound acquired from the selected sound collection device 30 (S409). In this embodiment, as in the first embodiment, one or a plurality of sound collection devices 30 at the first base continuously acquire the environmental sound, and the acquired environmental sound is transmitted to the distribution control device. It is distributed to one or a plurality of environmental audio output devices 50 at the second location via 74, and is continuously output from the environmental audio output devices 50. Hereinafter, a processing method of the environmental audio distribution system 4 according to the present embodiment will be described in detail.

(Step S401)
When the user terminal 10 at the first base enters the call state, the user terminal 10 at the first base transmits the terminal ID of the user terminal 10 and information indicating that the user terminal 10 is in the call state (call state information). The data is transmitted to the distribution control device 74. Next, the process proceeds to step S403. Note that the process proceeds from step S403 to step S405, but these steps are the same as steps S103 and S105 in the first embodiment, and a description thereof will not be repeated. Further, after step S405, the process proceeds to step S407.

(Step S407)
The distribution control device 74 generates a disturbing sound. Next, the process proceeds to step S409.

(Step S409)
The distribution control device 74 synthesizes the disturbance sound generated in step S407 with the environmental sound acquired by the sound collection device 30 selected in step S405. Further, the distribution control device 74 distributes the environmental sound obtained by the synthesis to the environmental sound output device 50 at the second base. In step S409, the disturbing sound generated in step S407 may be directly delivered to the environmental sound output device 50 at the second base without synthesizing.

  According to such a configuration, by generating the disturbing sound and distributing the environmental sound including the generated disturbing sound to the environmental sound output device 50 at another site, the call sound included in the environmental sound is difficult to hear due to the disturbing sound. Therefore, it is possible to prevent the call voice from being unintentionally delivered and the contents of the call related to the call voice from being known to an unintended third party.

<< hardware configuration >>
The embodiments of the present invention have been described above. The processing such as the above-described environmental sound distribution control is realized by cooperation between software and hardware such as a distribution control device 70 (72, 74), a position detection unit 120, and a signal sound recognition unit 140 described below. .

  FIG. 16 is a block diagram illustrating a hardware configuration of the distribution control device 70 and the like. The distribution control device 70 includes a CPU (Central Processing Unit) 901, a ROM (Read Only Memory) 902, a RAM (Random Access Memory) 903, a host bus 904, a bridge 905, an external bus 906, and an interface 907. , A storage device (HDD) 911 and a network interface 915.

(CPU 901, ROM 902, RAM 903)
The CPU 901 functions as an arithmetic processing device and a control device, and controls the overall operation of the distribution control device 70 and the like according to various programs. Further, the CPU 901 may be a microprocessor. The ROM 902 stores programs used by the CPU 901 and operation parameters. The RAM 903 temporarily stores a program used in the execution of the CPU 901 and parameters that change as appropriate in the execution. These are interconnected by a host bus 904 including a CPU bus and the like, and realize the functions of the control unit 740 and the like described above.

(Host bus 904)
The host bus 904 is connected via a bridge 905 to an external bus 906 such as a PCI (Peripheral Component Interconnect / Interface) bus. Note that the host bus 904, the bridge 905, and the external bus 906 do not necessarily need to be separately configured, and these functions may be implemented on one bus.

(Storage device 911)
The storage device 911 is a data storage device built in the distribution control device 70 and the like according to the present embodiment and configured as an example of a storage unit that stores information used for control. The storage device 911 may include a storage medium, a recording device that records data on the storage medium, a reading device that reads data from the storage medium, a deletion device that deletes data recorded on the storage medium, and the like. The storage device 911 is configured by, for example, an HDD (Hard Disk Drive). The storage device 911 drives a hard disk and stores programs executed by the CPU 901 and various data.

(Network interface 915)
The network interface 915 is a communication interface including, for example, a communication device for connecting to the network 100. The network interface 915 may be a wireless LAN (Local Area Network) compatible communication device or a wire communication device that performs wired communication.

<< supplement >>
Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to such examples. Anyone having ordinary knowledge in the technical field to which the present invention pertains can conceive various changes or modifications or combinations within the scope of the technical idea described in the claims. Obviously, it is understood that these also belong to the technical scope of the present invention.

  Note that each functional unit of each device such as the user terminal 10 (12) and the distribution control device 70 (72, 74) is limited to being configured as included in a single device as described above. Instead, they may be configured as separate devices constituting a single system, or the above-described devices may be combined and configured as a single device. Further, the above-described environmental sound distribution system 1 (2, 3, 4) may further include another device.

  In addition, each step in the processing of each embodiment described above does not necessarily have to be processed in the order described. For example, each step may be processed in an appropriately changed order. Also, each step may be partially processed in parallel or individually instead of being processed in time series. Furthermore, the processing method of each step does not necessarily have to be processed according to the described method, and may be processed by another device or a functional unit, for example.

  Further, at least a part of the environmental audio distribution method according to the above-described embodiment can be configured by software as an environmental audio distribution program that causes a computer to function. A program that realizes at least a part of the program may be stored in a recording medium such as a flexible disk or a CD-ROM, and may be read and executed by the distribution control device * or the like or another device connected to these devices. The recording medium is not limited to a removable medium such as a magnetic disk or an optical disk, but may be a fixed recording medium such as a hard disk device or a memory. Furthermore, a program that implements at least a part of these methods may be distributed via a communication line (including wireless communication) such as the Internet. Furthermore, the program may be distributed in an encrypted, modulated, or compressed state via a wired or wireless line such as the Internet, or stored in a recording medium.

1, 2, 3, 4 Environmental audio distribution system 10, 10a, 10b, 10c, 10d, 12 User terminal 30, 30a, 30b Sound collection device 50, 50a, 50b Environmental audio output device 70, 72, 74 Distribution control device 90 Storage device 92 Data table 100 Network 102 Terminal communication unit 104 Voice signal conversion unit 106 Voice input unit 108 Voice output unit 110 Call status notification unit 112 Signal voice generation unit 114 Signal voice transmission unit 120 Position detection unit 122 Position acquisition unit 124 Distance calculation Unit 126, 146, 760, 762 Selection unit 128, 148 Update unit 130, 150, 710 Communication unit 140 Signal / speech recognition unit 142, 720 Acquisition unit 144 Analysis unit 730 Distribution unit 740 Control unit 750, 752 Detection unit 770 Generation unit 780 Synthesizing unit 901 C U
902 ROM
903 RAM
904 Host bus 905 Bridge 906 External bus 907 Interface 911 Storage device 915 Network interface U1, U2, U3 User

Claims (11)

An environmental sound acquiring unit that acquires environmental sound via one or more sound collecting units;
A delivery unit that delivers the environmental sound acquired by the environmental sound acquisition unit,
A detection unit for detecting a call terminal in a call state;
A selection unit that selects the sound collection unit corresponding to the call terminal detected by the detection unit,
A sound collection control unit that controls acquisition of the environmental sound using the sound collection unit selected by the selection unit,
An environmental audio distribution system comprising:   The environmental sound distribution system according to claim 1, wherein the selection unit selects the sound collection unit preliminarily linked to the detected call terminal. A position detection unit that detects the position of the detected call terminal,
A distance calculation unit that calculates a distance between the detected call terminal and each of the sound collection units,
Further comprising
The environmental sound distribution system according to claim 1, wherein the selection unit selects the sound collection unit corresponding to the detected call terminal based on the calculated distance.   The environmental sound distribution system according to claim 1, wherein the selection unit selects the sound collection unit that has recognized a predetermined signal sound output from the call terminal. Further comprising a storage unit that stores the sound collection unit in association with the call terminal;
The environmental sound distribution system according to claim 3, wherein the storage unit stores the sound collection unit selected by the selection unit in association with the detected call terminal.   The environmental sound distribution system according to any one of claims 1 to 5, wherein the sound collecting control unit reduces the sensitivity of the selected sound collecting unit for acquiring the environmental sound.   The environmental sound distribution system according to any one of claims 1 to 5, wherein the sound collecting control unit stops acquiring the environmental sound via the selected sound collecting unit.   The environmental sound distribution system according to any one of claims 1 to 5, wherein the sound collecting control unit generates a disturbing sound that disturbs distribution of the environmental sound acquired using the selected sound collecting unit. .   The environmental sound distribution system according to claim 8, wherein the environmental sound obtaining unit synthesizes the environmental sound obtained using the selected sound collecting unit and the disturbing sound. Obtaining environmental sound via one or more sound collecting units;
Delivering the acquired environmental sound;
Detecting a call terminal in a call state;
Selecting the sound collection unit corresponding to the detected call terminal;
Controlling the acquisition of the environmental sound using the selected sound pickup unit;
, Including an environmental audio distribution method. Computer
An environmental sound acquiring unit that acquires environmental sound via one or more sound collecting units;
A delivery unit that delivers the environmental sound acquired by the environmental sound acquisition unit,
A detection unit for detecting a call terminal in a call state;
A selection unit that selects the sound collection unit corresponding to the call terminal detected by the detection unit,
A sound collection control unit that controls acquisition of the environmental sound using the sound collection unit selected by the selection unit,
Environmental sound distribution program to function as

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