JP2009105650A - In-house broadcasting system and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an in-house broadcasting system having a function for preventing howling. <P>SOLUTION: The in-house broadcasting system 1 having a telephone transmitter 30 to output a voice signal based on a sensed voice and one, two or more speakers 40 to output voice based on the voice signal output from the telephone transmitter 30 includes a transmission position information acquisition part 22 for acquiring transmission position information about the position of the telephone transmitter 30 to output a voice signal, a volume information storing part 26 for storing volume information showing volume that can be sensed at each position where the telephone transmitter 30 can be located to each volume of voice output from each speaker 40, and a control part 23 for controlling output volume of each speaker 40 on the basis of the transmission position information acquired by the transmission information storing part 22 and the volume information stored by the volume information storing part 26. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a local broadcasting system and method having a howling prevention function.

  When performing on-site broadcasting in a plant facility or the like, depending on the position of the transmitter, the transmitter may collect the sound output from the speaker. In this case, the transmitter converts the collected voice into a voice signal, and a feedback loop is formed in which the voice signal is amplified by the amplification unit included in the loudspeaker and output from the speaker, and howling (resonance) occurs. . Therefore, in order to prevent howling, it is necessary to break this feedback loop.

For example, Patent Document 1 discloses a howling canceller that cuts off the feedback loop by simulating a feedback transmission audio signal that is fed back from a speaker to a transmitter and subtracting the simulated signal from an audio signal input from the transmitter. A loudspeaker having the same is disclosed.
JP 2006-197496 A

  On the other hand, the inventor of the present application has arrived at the present invention by paying attention to breaking the feedback loop by controlling the output volume of the speaker, and thereby the local broadcasting having a function of preventing howling in the local broadcasting. It is an object to provide a system and method.

A first aspect of the present invention is a private broadcasting system having a transmitter that outputs a sound signal corresponding to a sensed sound, and one or more speakers that output a sound corresponding to the sound signal output from the transmitter. There,
A transmission position information acquisition unit that acquires transmission position information related to the position of the transmitter that is outputting the audio signal;
A volume information storage unit for storing volume information indicating a volume sensed at each position where the transmitter can be located with respect to each volume of the sound output from each speaker;
A control unit that controls the output volume of each speaker based on the transmission position information acquired by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
It is a premises broadcasting system characterized by comprising.

According to a second aspect of the present invention, there is provided a private broadcasting system having a transmitter that outputs an audio signal corresponding to a sensed audio, and one or more speakers that output an audio signal corresponding to the audio signal output from the transmitter. Because
A transmission position information acquisition unit that acquires transmission position information related to the position of the transmitter that is outputting the audio signal;
For each speaker, a volume information storage unit for storing volume information indicating an upper limit value of a speaker output volume at which no howling occurs when the transmitter outputs an audio signal at each position where the transmitter can be located;
A control unit that controls the output volume of each speaker based on the transmission position information detected by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
It is a premises broadcasting system characterized by comprising.

The third invention is the private broadcasting system according to the first invention,
The volume information storage unit stores the volume information for each speaker;
The control unit controls the output volume of each speaker so that the sum of the volume corresponding to each speaker at a position corresponding to the position information acquired by the transmission position information acquisition unit is equal to or lower than a predetermined reference volume. It is a premises broadcasting system characterized by doing.

A fourth invention is the private broadcasting system according to the second invention,
The volume information storage unit stores a condition regarding the upper limit value for each speaker at each position,
The control unit controls the output volume of each speaker so that the output volume of each speaker at the position corresponding to the position information acquired by the transmission position information acquisition unit satisfies the condition. It is a local broadcasting system.

A fifth invention is the private broadcasting system according to any one of the first to fourth inventions,
The control unit is a private broadcasting system characterized by controlling an output volume of a speaker corresponding to transmission position information detected by the transmission position information acquisition unit.

A sixth invention is the private broadcasting system according to any one of the first to fifth inventions,
Each of the transmitters is a private PHS, and the transmitter starts outputting a voice signal by transmitting a call request including identification information of the transmitter to the exchange,
A transmitter position detector for detecting the position of each transmitter;
A position information storage unit that stores position information related to the position detected by the transmitter position detection unit and identification information of the corresponding transmitter in association with each other;
The transmission position information acquisition unit
An identification information acquisition unit that acquires identification information of a transmitter that has transmitted the call request from the exchange;
A local broadcast system comprising: a position information acquisition unit that acquires position information associated with the acquired identification information as the transmission position information with reference to the position information storage unit .

A seventh invention is the private broadcasting system according to any one of the first to fifth inventions,
The transmitter outputs a voice signal together with identification information of the transmitter,
A transmitter position detector for detecting the position of each transmitter;
A position information storage unit that stores position information related to the position detected by the transmitter position detection unit and identification information of the corresponding transmitter in association with each other;
The transmission position information acquisition unit
A local broadcasting system characterized in that, with reference to the position information storage unit, position information associated with identification information output together with an audio signal from the transmitter is acquired as the transmission position information.

  According to the present invention, it is possible to provide a local broadcasting system and method having a function of preventing howling in local broadcasting.

  FIG. 1 is a diagram showing an overview of a facility 100 to which a private broadcasting system 1 according to an embodiment of the present invention is applied. As shown in the figure, in a facility 100, local broadcasting speakers 40 of the local broadcasting system 1 are installed at various locations. The speaker can broadcast on the premises via the speaker 40 by speaking to the transmitter 30 from anywhere in the facility 100.

<< Example 1 >>
FIG. 2 is a block diagram showing a configuration of the local broadcasting system 1. As shown in FIG. 1, a local broadcasting system 1 includes a local broadcasting device 10, an antenna 35 and speakers 40 connected to the local broadcasting device 10 and provided at various locations in the facility 100 as shown in FIG. A transmitter 30 which is a PHS terminal and a PHS switch 50 are provided. The local broadcasting device 10 includes an audio receiving unit 21, a transmission position information acquisition unit 22, a control unit 23, a transmitter position detection unit 24, a position information storage unit 25, and a volume information storage unit 26.

  When a predetermined call button is pressed, the transmitter 30 which is a private PHS terminal transmits a call request including identification information of the local station to the exchange 50, and then transmits a voice signal corresponding to the sensed voice. Transmit to the exchange 50. In addition, although PSID or an extension number can be used as the identification information of the transmitter 30, the following description will be made assuming that an extension number is used.

  An active tag 31 that transmits a high-frequency signal including identification information of the transmitter 30 is attached to the transmitter 30, and the antenna 35 receives a high-frequency signal transmitted from the active tag 31.

  The transmitter position detection unit 24 detects the position of the transmitter 30 to which the active tag 31 is attached and its identification information based on the high frequency signal received by the antenna 35. The details of the position detection method using the active tag 31 are as described in, for example, Japanese Patent Application Laid-Open No. 2006-23261.

The speaker 40 outputs sound corresponding to the sound signal transmitted from the control unit 23.
The voice receiver 21 receives the voice signal output from the transmitter 30 via the exchange 50.

  The position information storage unit 25 stores the position information detected by the transmitter position detection unit 24 and the extension number in association with each transmitter 30. In the present embodiment, the premises area of the facility 100 is divided into unit areas (for example, 1 m × 1 m square), and each unit area is divided into a vertical position Ai and a vertical position Bj (i, j = 1). , 2,...), And the position information is represented by a section (Ai, Bj) including each position. The transmitter position detection unit 24 detects the position of each transmitter 30 in substantially real time, and the position information stored in the position information storage unit 25 is also updated in substantially real time.

  FIG. 3 is a diagram illustrating a configuration of data stored in the position information storage unit 25. As shown in the figure, an extension number that identifies the transmitter 30, position information of the transmitter 30, and information that identifies a speaker to be controlled when the transmitter 30 is in that position are stored. Yes. In the present embodiment, the volume of each speaker 40 is expressed in five levels from “1” to “5”, and the volume detected in each unit area is also expressed in five levels from “1” to “5”. Shall be. Further, as shown in FIG. 1, when the facility 100 is partitioned by a wall or the like, it is considered that howling can occur only when speech is transmitted within the same partition as the speaker 40. Therefore, in FIG. 3, according to the position information, the identification information of the speaker 40 installed in the same section as the transmission position specified by the position information is also recorded. Since the installation position of the speaker 40 is known in advance, the speaker 40 corresponding to the transmission position information can be specified with reference to the installation position information.

  However, in the case where the facility 100 is not partitioned by a wall or the like, and when howling occurs due to the audio input from the plurality of speakers 40 being superimposed on the same transmitter 30, the feedback from the plurality of speakers 40 It is necessary to consider the influence of sound (specifically, the sum of sound volumes from a plurality of speakers 40), and in that case, the position information storage unit 25 may affect the position. All the speakers 40 may be set as control targets without storing the plurality of speakers 40 as control targets. Alternatively, the identification information of the speaker 40 to be controlled may not be stored.

  The transmission position information acquisition unit 22 acquires the identification number (extension number) of the transmitter 30 included in the call request from the exchange 50, refers to the position information storage unit 25, and is associated with the extension number. Position information is acquired as transmission position information.

  The volume information storage unit 26 stores the identification information of each speaker 40 and the volume information in each unit area for the sound output from each speaker 40 in association with each other. The volume information is calculated by performing a simulation experiment or the like for each speaker 40.

4A to 4E are diagrams illustrating specific examples of volume information of the speaker 40 (here, speaker SP ₁ as an example) stored in the volume information storage unit 26. FIG. As shown in FIG. 4A, if the volume output by the speaker SP ₁ (ie, the volume in the unit area where the speaker 40 is present) is “5”, it is next to the unit area where the speaker SP ₁ is located. The volume is stored for each unit area such that the volume is “4” in the unit area and the volume is “3” in the adjacent unit area. Similarly, FIG. 4 (b), (c) , (d), (e), the each volume of the speaker SP ₁ outputs "4", "3", "2", "1" for each case, the volume of the speaker SP ₁ in each unit region are stored. Similarly, for all the other speakers 40, volume information for each volume of the speaker 40 is stored for each unit area.

  The control unit 23 controls the output volume of the speaker 40 based on the transmission position information acquired by the transmission position information acquisition unit 22 and the volume information stored in the volume information storage unit 26. That is, when the volume in the unit area corresponding to the transmission position information acquired by the transmission position information acquisition unit 22 exceeds a predetermined reference volume at which howling can occur, the control unit 23 prevents the howling from occurring. The volume of the speaker 40 is lowered.

FIG. 5 is a diagram illustrating a processing flow of the control unit 23. The contents of the processing executed by the control unit 23 will be specifically described with reference to FIG. In the facility 100, _N speakers SP _{1 to} SP _N are installed, but in this embodiment, it is assumed that there is one speaker 40 to be controlled to prevent howling.

  First, the control unit 23 uses the transmission position information acquisition unit 22 to acquire position information of each transmitter 30 and information for specifying the speaker 40 to be controlled (S502). Then, based on the volume information stored in the volume information storage unit 26, the volume at the position corresponding to the output volume of the speaker 40 to be controlled is acquired (S504). It is determined whether this volume exceeds a reference volume (S506). As a result, when the volume exceeds the reference volume (S506: YES), the output volume of the speaker 40 is lowered by one level (S508), and the volume information of the speaker stored in the volume information storage unit 26 is updated ( S510), the process returns to S506. On the other hand, if this volume is equal to or lower than the reference volume (S506: NO), no howling occurs, and the process ends.

FIGS. 6A and 6B are diagrams schematically showing the volume distribution according to the processing result of the control unit 23. FIG. Located in the speaker SP ₁ is the unit area (A1, B1), the transmission device 30 is positioned in the unit area (A2, B3). Here, similarly to the above, each speaker 40 is based on the volume “5”, and the reference volume that causes howling is “2”.

In this case, as shown in FIG. 6 (a), speaker volume 40 at this position, the volume of the speaker SP ₁ is "3", since exceeds the reference volume "2", howling occurs. Therefore, the control unit 23 decreases the output volume of the speaker SP ₁ that has caused the sound to reach the position by one step. Then, the volume of the speaker SP ₁ in the unit area (A2, B3) as shown in FIG. 6 (b) "2", the occurrence of howling can be prevented.

  As described above, according to the local broadcasting system 1 of the present embodiment, howling can be prevented by controlling the output volume of the speaker according to the transmission position by the transmitter 30.

  In addition, the volume information storage unit 26 stores in advance the volume at which howling occurs when the transmitter 30 is located for each unit area for each speaker 40. By referring to this volume information storage unit 26, the speaker is stored. The output volume can be easily controlled.

<< Example 2 >>
Next, a private broadcasting system according to the second embodiment will be described. In the local broadcasting system 1, the number of speakers to be controlled is one in order to prevent howling. However, in the local broadcasting system of this embodiment, it corresponds to the case where there are two or more speakers to be controlled. Although different from the local broadcasting system 1, the configuration is the same as the local broadcasting system 1 shown in FIG.

  FIG. 7 is a diagram illustrating a processing flow of the control unit 23 in the present embodiment. Hereinafter, the content of the process performed by the control unit 23 will be specifically described with reference to FIG.

  First, the control unit 23 uses the transmission position information acquisition unit 22 to acquire position information of each transmitter 30 and information for specifying the speaker 40 to be controlled (S702). In addition, when the speaker 40 used as a control object is not memorize | stored in the positional information storage part 25, all the speakers 40 are made into a control object. Then, based on the volume information stored in the volume information storage unit 26, the volume of the speaker 40 to be controlled is acquired, and the total value of the volume at the position is calculated (S704). It is determined whether this volume exceeds a reference volume (S706). As a result, if this total value exceeds the reference volume (S706: YES), the output volume of the speaker 40 having the highest volume at that position is lowered by one level (S708), and the speaker stored in the volume information storage unit 26 is stored. Is updated (S710), and the process returns to S706. On the other hand, when the total value is equal to or lower than the reference volume (S706: NO), no howling occurs, and the process ends.

FIG. 8A to FIG. 8C are diagrams schematically showing the volume distribution according to the processing result of the control unit 23. The speaker SP ₁ is the unit area (A1, B1), located in the speaker SP ₂ is (A1, B7), the transmission device 30 is positioned in the unit area (A2, B3). Here, as in the first embodiment, each speaker 40 is based on the volume “5”, and the reference volume that causes howling is “2”.

In this case, as shown in FIG. 8 (a), the volume of the speaker 40 at this position, the volume of the speaker SP ₁ is "3", since the volume of the speaker SP ₂ is "1", the volume The total value is “4”. When the total value is “4” exceeding the reference volume “2”, howling occurs, and therefore the control unit 23 decreases the output volume of the speaker SP _{1 having} the highest volume at that position by one step. Then, the volume of the speaker 40 in the unit area (A2, B3) as shown in FIG. 8 (b), the volume of the speaker SP ₁ is "2", the volume of the speaker SP ₂ remains at "1" Therefore, the total value of the volume is “3”. However, even in this case, since the total volume exceeds the reference volume “2” and howling occurs, the control unit 23 further reduces the output volume of the speaker SP _{1 by one} more stage. Then, the volume of the unit area (A2, B3) as shown in FIG. 8 (c), the volume of the speaker SP ₁ is "1", since the volume of the speaker SP ₂ remains at "1", the volume The total value is “2”, and howling can be prevented.

  As described above, the on-site broadcasting system of the present embodiment can also prevent howling by controlling the output volume of the speaker 40 in accordance with the transmission position by the transmitter 30. Further, even when howling can occur simultaneously with a plurality of speakers 40, howling can be prevented by controlling the output volume of each speaker 40.

<< Example 3 >>
Next, a private broadcasting system according to the third embodiment will be described.
The configuration of the local broadcast system of the present embodiment is the same as the configuration of the local broadcast system 1 shown in FIG. 2, but the information stored in the volume information storage unit 26 is different. That is, in this embodiment, the volume information storage unit 26 includes information for identifying each speaker 40, and information on the upper limit value of the output volume of each speaker 40 that does not cause howling when the transmitter 30 is in each unit area. Are stored in association with each other. The volume information is calculated by performing a simulation experiment or the like for each speaker 40.

FIG. 9 is a diagram illustrating a specific example of the upper limit value information of the output volume of the speaker 40 (here, speaker SP ₁ as an example) stored in the volume information storage unit 26 in the present embodiment. As shown in the drawing, located in the speaker SP ₁ is the unit area (A1, B1), when the transmission device 30 is positioned in the unit area (A2, B1), the output of the speaker 40 that the volume information storage unit 26 stores Since the upper limit of the volume is “3”, it is determined that howling does not occur if the output volume of the speaker SP ₁ is “3”. In this case, it is not necessary to lower the output volume of the speaker SP _1. However, if the output volume of the speaker SP ₁ is “4”, it is determined that howling occurs, and the output volume of the speaker SP ₁ is lowered by one level.

  The control unit 23 controls the output volume of the speaker 40 based on the position information acquired by the transmission position information acquisition unit 22 and the volume information stored in the volume information storage unit 26. That is, when the output volume of the speaker 40 to be controlled exceeds the upper limit value of the output volume of the speaker 40 at the position of the transmitter 30, the control unit 23 sets the output volume of the speaker 40 so that howling does not occur. Lower.

  FIG. 10 is a diagram illustrating a processing flow of the control unit 23. Hereinafter, the contents of the processing executed by the control unit 23 will be specifically described with reference to FIG. In this embodiment, it is assumed that there is one speaker 40 to be controlled in order to prevent howling.

  First, the control unit 23 uses the transmission position information acquisition unit 22 to acquire position information of each transmitter 30 and information specifying the speaker 40 to be controlled (S1002). Based on the information stored in the volume information storage unit 26, the upper limit value of the output volume of the speaker 40 to be controlled is acquired (S1004). It is determined whether or not the output volume of the speaker 40 exceeds the upper limit value (S1006). As a result, when the output volume of the speaker exceeds the upper limit value (S1006: YES), the output volume of the speaker 40 is lowered to the upper limit value (S1008), and the process returns to S1006. On the other hand, when the output volume of the speaker is equal to or lower than the upper limit value (S1006: NO), no howling occurs, and the process ends.

  As described above, the local broadcasting system 3 of the present embodiment can also prevent howling by controlling the output volume of the speaker according to the transmission position by the transmitter 30.

<< Example 4 >>
Next, a private broadcasting system that is the fourth embodiment will be described. In the on-site broadcasting system of the third embodiment, there is one speaker to be controlled in order to prevent howling. However, in this embodiment, there is a point corresponding to the case where there are two or more speakers to be controlled. Although different from the third embodiment, the configuration is the same as the private broadcasting system 1 shown in FIG.

FIG. 11 is a diagram illustrating a specific example of the upper limit value information of the output volume of the speaker 40 (here, speaker SP ₁ and speaker SP ₂ as an example) stored in the volume information storage unit 26 in the present embodiment. As shown in the drawing, located in the speaker SP ₁ is the unit area (A1, B1), located in the speaker SP ₂ is a unit area (A1, B7), located in transmitter device 30 is a unit area (A2, B3) In this case, the conditions of the upper limit values of the output volumes of the speakers SP ₁ and SP ₂ stored in the volume information storage unit 26 are SP ₁ ≦ 4 and SP ₁ + SP ₂ ≦ 9. Therefore, if the output volume of the speaker SP ₁ is “4” and the output volume of the speaker SP ₂ is “5”, it is determined that this upper limit condition is satisfied and howling does not occur, and the output volume of the speaker SP ₁ is lowered. There is no need. However, for example, if the output volume of the speaker SP ₁ is “5” and the output volume of the speaker SP ₂ is “5”, it is determined that howling occurs without satisfying this upper limit condition, and this upper limit condition is satisfied. In order to do so, the output volume of the speaker SP ₁ is lowered by one step.

  The control unit 23 controls the output volume of the speaker 40 based on the information acquired by the transmission position information acquisition unit 22 and the information stored in the volume information storage unit 26. That is, when the output volume of the speaker 40 to be controlled does not satisfy the condition of the upper limit value of the output volume of the speaker 40 at the position of the transmitter 30, the control unit 23 prevents the howling from occurring in the speaker 40. Decrease the output volume.

  FIG. 12 is a diagram illustrating a processing flow of the control unit 23. Hereinafter, the control of the control unit 23 will be specifically described with reference to FIG.

  First, the control unit 23 acquires the position information of each transmitter 30 based on the information acquired by the transmission position information acquisition unit 22 (S1202). Based on the information stored in the volume information storage unit 26, the condition of the upper limit value of the output volume of the speaker 40 to be controlled is acquired (S1204). It is determined whether or not the output volume of the speaker 40 satisfies the upper limit condition (S1206). As a result, when the condition of the upper limit value is not satisfied (S1206: NO), the output volume of the speaker 40 is lowered so that the output volume of the speaker 40 satisfies the upper limit value condition (S1208), and the process returns to S1006. . On the other hand, when the output volume of the speaker satisfies the upper limit condition (S1206: YES), no howling occurs, and the process ends.

  As described above, the on-site broadcasting system of the present embodiment can also prevent howling by controlling the output volume of the speaker 40 in accordance with the transmission position by the transmitter 30.

  In addition, the description of the above embodiment is for facilitating understanding of the present invention, and does not limit the present invention. It goes without saying that the present invention can be changed and improved without departing from the gist thereof, and that the present invention includes equivalents thereof.

  For example, the transmitter 30 is not limited to a local PHS terminal, and may be a microphone that outputs an audio signal together with identification information of the transmitter. In this case, the exchange 50 is not provided as in the above embodiment, and the private broadcasting system directly receives the identification information of the transmitter by the microphone, but the other configuration is the PHS identification information (PSID). It is the same except that the microphone identification information is used instead of the extension number).

  In the above embodiment, the transmitter position detection unit 24 detects the position of the transmitter 30 by the active tag 31 attached to the transmitter 30, but the position detection unit of the transmitter 30 is not limited to this. Alternatively, other appropriate position detection means can be used. For example, an IC tag storing identification information of the transmitter 30 is attached to the transmitter 30, and IC tag readers are installed at various locations in the facility 100. The transmitter position detection unit 24 is provided with a machine part for storing the installation position of each IC tag reader and the identification information in association with each other, and each IC tag reader is read from an IC tag located in the vicinity thereof. 30 identification information and identification information of the IC tag reader are transmitted to the private broadcasting system. Thereby, the transmitter position detection unit 24 detects the position of the IC tag by referring to the storage unit based on the identification information of the transmitter 30 and the identification information of the IC tag reader transmitted from the IC tag reader. Can do.

It is a figure which shows the outline | summary of the plant | facility 100 using the local broadcasting system 1 which is one Embodiment of this invention. 1 is a block diagram showing a configuration of a local broadcasting system 1. FIG. It is a figure which shows the structure of the data which the position information storage part 25 memorize | stores. It is a figure which shows the specific example of the volume information of a certain speaker 40 which the volume information storage part 26 memorize | stores. It is a figure which shows the processing flow of the control part. It is a figure which shows the distribution of the sound volume by the processing result of the control part 23 typically. It is a figure which shows the processing flow of the control part. It is a figure which shows the distribution of the sound volume by the processing result of the control part 23 typically. Speaker 40 that the volume information storage unit 26 stores (here, as an example, the speaker SP ₁₎ is a diagram showing a specific example of the upper limit value information of the output volume. It is a figure which shows the processing flow of the control part. Speaker 40 that the volume information storage unit 26 stores (here, as an example, the speaker SP ₁ and the speaker SP ₂₎ is a diagram showing a specific example of the upper limit value information of the output volume. It is a figure which shows the processing flow of the control part.

Explanation of symbols

1, 2, 3, 4 Local Broadcasting System 10 Local Broadcasting Device 21 Reception Unit 22 Transmitting Position Information Acquisition Unit 23 Control Unit 24 Transmitter Position Detection Unit 25 Area Information Storage Unit 26 Voice Information Storage Unit 30 Transmitter 31 Active Tag 35 Antenna 40 Speaker 50 Exchange 100 Facility

Claims (9)

A private broadcasting system having a transmitter that outputs a voice signal corresponding to a sensed voice, and one or more speakers that output a voice corresponding to a voice signal output from the transmitter,
A transmission position information acquisition unit that acquires transmission position information related to the position of the transmitter that is outputting the audio signal;
A volume information storage unit for storing volume information indicating a volume sensed at each position where the transmitter can be located with respect to each volume of the sound output from each speaker;
A control unit that controls the output volume of each speaker based on the transmission position information acquired by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
An on-site broadcasting system comprising: A private broadcasting system having a transmitter that outputs a sound signal corresponding to a sensed sound, and one or more speakers that output a sound corresponding to a sound signal output from the transmitter,
A transmission position information acquisition unit that acquires transmission position information related to the position of the transmitter that is outputting the audio signal;
For each speaker, a volume information storage unit for storing volume information indicating an upper limit value of a speaker output volume at which no howling occurs when the transmitter outputs an audio signal at each position where the transmitter can be located;
A control unit that controls the output volume of each speaker based on the transmission position information detected by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
An on-site broadcasting system comprising: The local broadcasting system according to claim 1,
The volume information storage unit stores the volume information for each speaker;
The control unit controls the output volume of each speaker so that the sum of the volume corresponding to each speaker at a position corresponding to the position information acquired by the transmission position information acquisition unit is equal to or lower than a predetermined reference volume. A local broadcasting system characterized by In the local broadcasting system according to claim 2,
The volume information storage unit stores a condition regarding the upper limit value for each speaker at each position,
The control unit controls the output volume of each speaker so that the output volume of each speaker at the position corresponding to the position information acquired by the transmission position information acquisition unit satisfies the condition. On-site broadcasting system. In the local broadcasting system in any one of Claims 1-4,
The local broadcast system, wherein the control unit controls an output volume of a speaker corresponding to the transmission position information detected by the transmission position information acquisition unit. In the local broadcasting system in any one of Claims 1-5,
Each of the transmitters is a private PHS, and the transmitter starts outputting a voice signal by transmitting a call request including identification information of the transmitter to the exchange,
A transmitter position detector for detecting the position of each transmitter;
A position information storage unit that stores position information related to the position detected by the transmitter position detection unit and identification information of the corresponding transmitter in association with each other;
The transmission position information acquisition unit
An identification information acquisition unit that acquires identification information of a transmitter that has transmitted the call request from the exchange;
A local broadcasting system, comprising: a position information acquisition unit that acquires position information associated with the acquired identification information as the transmission position information with reference to the position information storage unit. In the local broadcasting system in any one of Claims 1-5,
The transmitter outputs a voice signal together with identification information of the transmitter,
A transmitter position detector for detecting the position of each transmitter;
A position information storage unit that stores position information related to the position detected by the transmitter position detection unit and identification information of the corresponding transmitter in association with each other;
The transmission position information acquisition unit
A private broadcasting system characterized in that, with reference to the position information storage unit, position information associated with identification information output together with an audio signal from the transmitter is acquired as the transmission position information. A transmitter that outputs a sound signal corresponding to the sensed sound, one or more speakers that output a sound corresponding to the sound signal output from the transmitter, and each volume of the sound output from each speaker On the other hand, a local broadcast method using a volume information database that stores volume information indicating a volume detected at each position where the transmitter can be located,
Computer
Obtaining transmission position information relating to the position of the transmitter that is outputting an audio signal;
Controlling the output volume of each speaker based on the transmission position information acquired by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
A local broadcasting method characterized by comprising: A transmitter that outputs a sound signal corresponding to the sensed sound, one or more speakers that output a sound corresponding to a sound signal output from the transmitter, and the transmitter is located for each speaker. A volume information database for storing volume information indicating an upper limit value of an output volume of a speaker at which no howling occurs when the transmitter outputs an audio signal at each possible position,
Obtaining transmission position information relating to the position of the transmitter that is outputting an audio signal;
Controlling the output volume of each speaker based on the transmission position information detected by the transmission position information acquisition unit and the volume information stored in the volume information storage unit;
A local broadcasting method characterized by comprising: