JP4010861B2 - Broadcast control apparatus, broadcast control system, and broadcast control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a broadcast control method, a broadcast control apparatus, and a broadcast control program for digital private broadcasting using a reception apparatus and a transmission apparatus connected to a network.
[0002]
[Prior art]
  When local broadcasting is performed by connecting a plurality of sound sources to any of a plurality of speakers (hereinafter referred to as multi-system local broadcasting), for example, a sound source using a matrix circuit as disclosed in Japanese Patent Laid-Open No. 10-303836 is used. Is generally a method for controlling the connection between a speaker and a speaker.
[0003]
  FIG. 16A is an overall configuration diagram of a network premises broadcast system using a conventional matrix circuit. This system includes input devices 1a to c such as a CD player and a microphone, amplifiers 2a to 2c, analog / digital (A / D) converters 3a to 3c, a broadcast control device 4, and digital / analog (D / A). ) Converters 5a to 5c, amplifiers 6a to 6c, and speakers 7a to 7c. The broadcast control device 4 has a matrix circuit 40, a CPU 41, and a memory 42. The matrix circuit 40 has input lines 46a to 46c, output lines 47a to 47c, and bus lines 48a to 48c. A / D converters 3a-c are connected to input lines 46a-c, and D / A converters 5a-c are connected to output lines 47a-c. The bus lines 48a to 48c are provided between the input lines 46a to 46c and the output lines 47a to 47c. At the intersections of the input lines 46a-c and output lines 47a-c and the bus lines 48a-c, switches (not shown) are provided. The CPU 41 controls switching of this switch. In the memory 42, which speaker 7a-c is connected to the input device 1a-c is stored as a pattern for each input device 1a-c. When a broadcast start event occurs such as the input devices 1a to 1c starting to operate, the CPU 41 reads a pattern corresponding to the input devices 1a to 1c that are operating from the memory 42, and the pattern is designated. The switch is controlled to connect the input devices 1a to 1c operating to the speakers 7a to 7c. As a result, the audio signals from the input devices 1a to 1c are amplified by the speakers 7a to 7c.
[0004]
  On the other hand, in recent years, a network premises broadcasting system has been proposed in which an audio signal input from an input device is assembled into an audio packet and transmitted. FIG. 16B is an overall configuration diagram of the network premises broadcast system. This network premises broadcasting system includes an input device 1, an amplifier 2, a transmission device 3, a network 4 such as a LAN or an intranet, a reception device 5, an amplifier 6, and a speaker 7. The transmission device 3 assembles a voice signal input from the input device 1 into a voice packet and transmits the voice packet to the reception device 5. The receiving device 5 receives the voice packet, decomposes it, and reconstructs it into digital voice data. The digital audio data is converted into an analog audio signal, then amplified by the amplifier 6 and amplified from the speaker 7.
[0005]
[Problems to be solved by the invention]
  In the network premises broadcast system, each voice packet transmitted from the transmission device 3 describes the address of the reception device 5 that is the destination of the packet. Each receiving device 5 receives only a packet addressed to itself. Therefore, the broadcast control apparatus 4 described in the Japanese Patent Laid-Open No. 10-303836 is not necessary for the network local broadcasting system, and simplification of wiring and system construction can be achieved. However, in the network premises broadcasting system, means for realizing so-called multi-way broadcasting in which broadcasting is performed by freely selecting a combination of an audio signal input to an input device 1 and an output destination speaker 7 of the audio signal. Has not been provided yet.
[0006]
  It is an object of the present invention to provide a technique for performing multi-way broadcasting in a network premises broadcasting system.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems, the first invention of the present application is:An operation device provided with at least one operation unit, one or more transmission devices connected to an input device, and one or more reception devices connected to a speakerOver the networkFor realizing multi-way broadcasting in which broadcast data transmitted from one or a plurality of transmitting devices is received by one or a plurality of receiving devicesA broadcast control apparatus is provided. This apparatus includes the following means.
A combination of a transmission device identifier that uniquely identifies one transmission device as a transmission source on the network and a reception device identifier that uniquely identifies each of one or more reception devices as transmission destinations on the network A transmission system storage means for storing transmission system information including a transmission system identifier that defines the transmission system and that identifies the transmission system;
A transmission system selection table that stores an operation apparatus identifier that uniquely identifies the operation apparatus on the network, an operation section identifier that identifies the operation section on each operation apparatus, and the transmission system identifier in association with each other. Storage means,
・First receiving means for receiving an operation notification including an operating device identifier and an operating unit identifier from an operating device connected via the network;
A system selection unit that manages the on / off state of each transmission system and turns on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification;
-A transmitter connected via the network after receiving the operation notificationFromSendIndicates startBroadcast event occurrence notification together with the transmitting device identifierSecond to receiveReceiving means,
-The transmission system identifier is included in the transmission system information, and is included in the transmission system information of the transmission system in the ON stateDetermine the receiving device identifierDecision means,
・ Determined via the networkThe receiver identifierTo the transmitterNoticeNotification means.
[0008]
  Transmission system information defining a transmission system that is a combination of a transmission apparatus identifier of a transmission source and a reception apparatus identifier of a transmission destination is stored. This transmission system information is stored in a database, for example. Then, a transmission system having the transmission device as a transmission source is selected based on the transmission system information, and a reception device identifier included in the transmission system is notified to the transmission device.
[0009]
  The transmission device is connected to an input device that inputs an audio signal to the transmission device, such as a CD player, a microphone, a radio, or a cable broadcast receiver, and assembles an audio packet from the input audio signal. When the transmission device detects the start of voice input, it transmits a broadcast event occurrence notification to the computer via the network. The voice input is started by, for example, the start of audio playback by the CD player, a talk switch provided on the microphone, a radio broadcast switch provided on the broadcast console, a sound source selection switch such as a cable broadcast switch, or the like. This can be detected by detecting a control signal indicating that the button has been pressed. When the broadcast event occurrence notification transmitted from the transmission device is received, the reception device identifier of the reception device that is the transmission destination of the audio packet of the transmission device is determined. The receiving device identifier is, for example, a network address. This receiving device identifier is notified to the transmitting device.
[0010]
  The transmitting device transmits a voice packet addressed to the receiving device specified by the notified receiving device identifier. The receiving apparatus disassembles the voice packet addressed to itself and outputs the voice to the speaker.
  In this way, the transmission device can transmit the audio packet to the reception device specified by the notified reception device identifier, and multi-source broadcasting in the network private broadcasting system is possible.
[0011]
  The second invention of the present application is the first invention, wherein
・A plurality of transmission devices are connected to the network,
The transmission system information includes the priority order of each transmission system,
-When the same receiving apparatus identifier is included in each transmission system information associated with each transmitting apparatus identifier received by the second receiving means from a plurality of transmitting apparatuses, the determining means Provided is a broadcast control apparatus that performs a determination to notify a transmission apparatus of a reception apparatus identifier of the reception apparatus.
[0012]
  When receiving device identification information included in different transmission system information competes, the transmission system with the higher priority is given priority. That is, the competing receiving device identifier is notified as a broadcast destination to the transmitting device of the transmission system with the higher priority.
  The third invention of the present application is the first invention, wherein
A plurality of transmission devices are connected to the network;
The transmission system information includes the priority order of each transmission system,
When the same receiving device identifier is included in each transmission system information associated with each transmitting device identifier received by the second receiving means from a plurality of transmitting devices, and the transmitting device with the lower priority transmission system is the first The notification means notifies the transmission device that transmission to the reception device is stopped, and transmits the transmission device having a high priority to the transmission device. Provided is a broadcast control device that notifies a receiving device identifier.
[0013]
  When duplicate transmission destinations exist and post-transmission is selected, for example, the first transmission device is notified of the duplicate transmission destination reception device identifier, and the second transmission device is notified of the second transmission destination reception device identifier. To be. In this way, based on the receiving device identifier of the duplicate transmission destination notified to the first transmission device, it is possible to stop the voice packet transmission to the duplication destination among the already performed voice packet transmissions. Therefore, even if a voice packet is transmitted from the second transmission device to the second transmission destination based on the reception device identifier of the second transmission destination notified to the second transmission device, the voices of the first transmission device and the second transmission device are transmitted. There is no contention for packet transmission. Alternatively, when a duplicate transmission destination exists and post-transmission is selected, the first transmission device receives the second non-duplication transmission destination receiver identifier obtained by removing the duplicate transmission destination from the first transmission destination. The receiving device is notified of the receiving device identifier of the second transmission destination. In this way, since the voice packet can be transmitted from the first transmitter to the first non-overlapping destination, and the voice packet can be transmitted from the second transmitter to the second destination, the first transmitter And the voice packet transmission of the second transmitter does not compete.
[0014]
  On the other hand, when there is a duplicate transmission destination and preemptive transmission is selected, for example, the second transmission device is notified of the reception device identifier of the second non-duplication transmission destination excluding the duplicate transmission destination from the second transmission destination. So that By so doing, it is possible to continue voice packet transmission from the first transmission device to the first transmission destination and to perform voice packet transmission from the second transmission device to the second non-overlapping transmission destination.
[0015]
  Further, when there are no duplicate transmission destinations, for example, all the reception device identifiers of the second transmission destination are notified to the second transmission device regardless of selection of prefetching or posttrading. By so doing, it is possible to perform voice packet transmission from the second transmission device to the second transmission destination while maintaining voice packet transmission from the first transmission device to the first transmission destination.
[0016]
  The fourth invention of the present application is the first invention, whereinThe transmission system storage means further includes at least one transmission system information.Transmission system information group and the transmission system information groupTransmission system information belonging toButBy the determining meansWith the use condition which is the condition usedProvided is a broadcast control apparatus that stores a plurality of combinations. The broadcast control apparatus further includes the following means.
・ Detects changes in the use conditionsDetection means,
・ Changes in the detected use conditionsBased on the determination means usedTransmission system information groupSwitching means for switching.
[0017]
  The change in the use condition is, for example, that a certain time or day of the week has been reached, or that a fire alarm button has been pressed. When a change in the usage condition of the transmission system information group is detected, the transmission system information group corresponding to the changed usage condition is used. Depending on the situation, for example, in the event of a fire, the entire building can be broadcast only from the microphone installed at the disaster prevention center, or at night, only the speakers installed indoors can broadcast. A suitable transmission system can be used.
[0018]
  The fifth invention of the present application isAn operation device provided with at least one operation unit, one or more transmission devices connected to an input device, one or more reception devices connected to a speaker, and a broadcast control device are connected via a network. Provide a network premises broadcasting system configured. The broadcast control device realizes multi-way broadcasting in which broadcast data transmitted from one or more transmission devices is received by one or more reception devices, and includes the following means.
A combination of a transmission device identifier that uniquely identifies one transmission device as a transmission source on the network and a reception device identifier that uniquely identifies each of one or more reception devices as transmission destinations on the network A transmission system storage means for storing transmission system information including a transmission system identifier that defines the transmission system and that identifies the transmission system;
A transmission system selection table that stores an operation apparatus identifier that uniquely identifies the operation apparatus on the network, an operation section identifier that identifies the operation section on each operation apparatus, and the transmission system identifier in association with each other. Storage means,
・First receiving means for receiving an operation notification including an operating device identifier and an operating unit identifier from an operating device connected via the network;
A system selection unit that manages the on / off state of each transmission system and turns on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification;
-A transmitter connected via the network after receiving the operation notificationFromSendIndicates startBroadcast event occurrence notification together with the transmitting device identifierSecond to receiveReceiving means,
-The transmission system identifier is included in the transmission system information, and is included in the transmission system information of the transmission system in the ON stateDetermine the receiving device identifierDecision means,
・ Determined via the networkThe receiver identifierTo the transmitterNoticeNotification means.
[0019]
  The sixth invention of the present application isAn operation device provided with at least one operation unit, one or more transmission devices connected to an input device, and one or more reception devices connected to a speakerOver the networkA CPU and storage means are provided in order to realize multi-way broadcasting that is connected and allows one or more receiving devices to receive broadcast data transmitted from one or more sending devices.ComputerFunction as the following meansProvide a broadcast control program. This program causes the computer to function as the following means.
A transmission device identifier for uniquely identifying one transmission device as a transmission source on the network; A transmission system that defines a transmission system that is a combination of a receiving apparatus identifier that uniquely identifies each of one or more receiving apparatuses that are transmission destinations on the network, and includes a transmission system identifier that identifies the transmission system Transmission system storage means for storing information,
A transmission system selection table that stores an operation apparatus identifier that uniquely identifies the operation apparatus on the network, an operation section identifier that identifies the operation section on each operation apparatus, and the transmission system identifier in association with each other. Storage means,
・First receiving means for receiving an operation notification including an operating device identifier and an operating unit identifier from an operating device connected via the network;
A system selection unit that manages the on / off state of each transmission system and turns on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification;
-A transmitter connected via the network after receiving the operation notificationFromSendIndicates startBroadcast event occurrence notification together with the transmitting device identifierSecond to receiveReceiving means,
-The transmission system identifier is included in the transmission system information, and is included in the transmission system information of the transmission system in the ON stateDetermine the receiving device identifierDecision means,
・ Determined via the networkThe receiver identifierTo the transmitterNoticeNotification means.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
  <First embodiment>
  (1) Overall configuration
  FIG. 1 is an overall configuration diagram of a network premises broadcast system according to a first embodiment. In this network private broadcasting system, the broadcast control device 1, the transmission devices 2a to i, the reception devices 3a to j, and the operation devices 4a to k have unique addresses on the network 10 such as a LAN or an intranet. Connected. The unique address is, for example, an IP address.
[0021]
  The broadcast control apparatus 1 can be realized using a computer. A sensor 5 such as a fire alarm or a gas detector is connected to the broadcast control apparatus 1 via the RS-232C or the network 10. The broadcast control apparatus 1 includes a management DB 100, a module group 110, a transmission / reception unit 120, and a memory 130. Details of the management DB 100 and the module group 110 will be described later. The transmission / reception unit 120 is an interface between the network 10 and the broadcast control device 1. The memory 130 temporarily stores data necessary for the module group 110 to perform processing.
[0022]
  The amplifier 6a is connected to the arbitrary transmission device 2a on a one-to-one basis. Input devices 7a such as a microphone and a CD player are connected to the amplifier 6a on a one-to-one basis. When the input device 7a starts operation, a control signal is transmitted to the transmission device 2a. When receiving the control signal, the transmission device 2a transmits a broadcast event occurrence notification to the broadcast control device 1. This broadcast event occurrence notification includes information indicating the address of the transmission device 2a. Thereafter, the transmission device 2 a assembles the input audio signal into an audio packet and transmits the audio packet to the reception device 3. The transmission destination address of the voice packet is notified by the broadcast control device 1.
[0023]
  Amplifiers 8a are connected one-to-one to any receiving device 3a. The receiving device 3a receives the voice packet addressed to itself, converts it into an analog voice signal, and outputs it to the amplifier 8a.
  Speakers 9a are connected one-to-one to any amplifier 8a. The amplifier 8a amplifies the analog audio signal from the receiving device 3 and outputs it to the speaker 9a. The speaker 9a receives this analog audio signal and amplifies it.
[0024]
  The arbitrary operation device 4a includes an operation notification unit 41a and an operation unit 42a. The operation unit 42a corresponds to one or a plurality of transmission systems, and accepts an operation for selecting a broadcasting destination using a certain input device 7 as a sound source. For example, an operation by pressing a button for selecting “classroom”, “gymnasium”, “schoolyard” (hereinafter referred to as a broadcast destination selection button) is accepted. Here, the transmission system refers to a combination of any one of the transmission apparatuses 2 and at least one reception apparatus 3, and the correspondence between the operation unit 42 a and the transmission system is stored in the broadcast control apparatus 1. And the operation notification part 41a transmits operation notification to the broadcast control apparatus 1, when the said operation is performed. When the broadcast control apparatus 1 receives the operation notification, the broadcast control apparatus 1 makes a broadcast by the transmission system possible. The operation notification includes information for uniquely identifying the operation device 4a, for example, an address of the operation device 4a, and information for uniquely identifying the operation unit 42a, for example, a button ID. A single operation device 4a may be provided with a plurality of operation units 42a. In this case, it is possible to simultaneously select a plurality of broadcast destinations by operating the plurality of operation units 42a at the same time.
[0025]
  The sensor 5 has a known smoke detection function (not shown), for example, and issues a warning notification to the broadcast control device 1 when smoke is detected.
  (2) Management DB
  Next, information stored in the management DB 100 of the broadcast control apparatus 1 will be described. In the management DB 100, an input system table 1001, an output system table 1002, an output group table 1003, a transmission system table 1004, and a transmission system selection table 1005 are stored. 2 to 4 are conceptual explanatory diagrams of information stored in these five types of tables.
[0026]
  FIG. 2A is a conceptual explanatory diagram of information stored in the input system table 1001. The input system table 1001 stores identification information of the transmission devices 2a to 2i. Specifically, the input system table 1001 stores input IDs and transmission device addresses in a one-to-one correspondence. The input ID is information for the broadcast control apparatus 1 to uniquely identify the transmission apparatuses 2a to i. The transmission device address is an address on the network 10 of the transmission devices 2a to i. An input device name such as the microphone 1 may be further stored in association with the input ID and the transmission device address.
[0027]
  FIG. 2B is a conceptual explanatory diagram of information stored in the output system table 1002. The output system table 1002 stores identification information of the receiving devices 3a to 3j. Specifically, the output system table 1002 stores output IDs and receiving device addresses in a one-to-one correspondence. The output ID is information for the broadcast control apparatus 1 to uniquely identify the receiving apparatuses 3a to 3j. The receiving device address is an address on the network 10 of the receiving devices 3a to 3j. A speaker name corresponding to the receiving device, for example, the first floor speaker 1 may be further stored in association with the output ID and the receiving device address.
[0028]
  FIG. 2C is a conceptual explanatory diagram of information stored in the output group table 1003. The output group table 1003 defines an output group composed of a plurality of receiving apparatuses 3. Specifically, the group table 1003 stores a group ID and a plurality of output IDs in association with each other. The group ID is information for uniquely identifying the output group. The group ID corresponds to the output ID of the transmission device 2 that forms the output group specified by the group ID. Output group names such as “classroom”, “schoolyard”, “gymnasium”, and the like may be further stored in association with the group ID.
[0029]
  FIG. 3 is a conceptual explanatory diagram of information stored in the transmission system table 1004 (transmission system group). The transmission system table 1004 stores transmission system information that defines a transmission system. In the transmission system table 1004, a table ID for uniquely identifying the transmission system table 1004 and transmission system information are stored in association with each other. The transmission system information includes a transmission system ID, an input ID, an output ID, a broadcast priority, and a system selection flag. The transmission system ID is information for the broadcast control apparatus 1 to uniquely identify the transmission system. Therefore, if a certain transmission system ID is designated, a combination of a certain transmission device 2 and one or a plurality of reception devices 3 is uniquely determined. A transmission system name, for example, transmission system 1 may be included in the transmission system information and accumulated. The broadcast priority is information for determining which transmission system is preferentially used when their output IDs compete as a result of simultaneous use of different transmission systems. In the present embodiment, the transmission system having the larger broadcast priority number is preferentially used. In this embodiment, a plurality of transmission system tables 1004 are accumulated in the management DB 100. The transmission system table with the table ID “T01” is stored for normal use, the transmission system table with the table ID “T02” is stored for emergency use, and one of the transmission system tables is selected as a table to be used according to the situation. The
[0030]
  The system selection flag is a flag used to indicate a transmission system in use. When the system selection flag is on, it indicates that the transmission system is selected. It is assumed that all the system selection flags of the transmission system information that do not correspond to any of the operation units 42 are turned on.
  FIG. 4 is a conceptual explanatory diagram of information stored in the transmission system selection table 1005. The transmission system selection table 1005 associates the operation unit 42 of the controller device 4 with the transmission system. Specifically, in the transmission system selection table 1005, the operation device address, the button ID for identifying the operation unit 42 provided in the operation device 4, and the transmission system ID are stored in association with each other. Here, as shown in FIG. 4, the button IDs and the transmission system IDs may correspond one-to-one, or one button ID and a plurality of transmission system IDs may correspond.
[0031]
  (3) Module group
  With reference to FIG. 1 again, the function of the module group 110 of the broadcast control apparatus 1 will be described. The module group 110 includes a registration module 1101, a system selection module 1102, a table switching module 1103, and a notification module 1104.
[0032]
  The registration module 1101 accepts input of information stored in each table of the management DB 100 and registers it in the management DB 100. The system selection module 1102 accepts selection of transmission system information by operating the controller device 4 and updates the system selection flag in the transmission system table 1004.
  The table switching module 1103 detects a switching event, for example, an alarm notification transmitted from the sensor 5, and updates the table switching flag of the management table 1301 stored in the memory 130. The management table 1301 is created in advance in the memory 130 by the table switching module 1103. FIG. 5 is a conceptual explanatory diagram of the management table 1301. The management table 1301 stores a table ID and a table switching flag in association with each other. If the table switching flag is on, it indicates that the transmission system table is in use. This flag is turned on / off by the table switching module 1103. In this embodiment, the table switching flag whose table ID is “T01” is set to on by default. The transmission system is selected from a transmission system table whose table switching flag is on. The notification module 1104 notifies the address of the receiving device 3 that is the transmission destination of the voice packet to any transmitting device 2a that has transmitted the broadcast event occurrence notification.
[0033]
  [Screen example]
  6 to 10 are examples of screens displayed on a display (not shown) connected to the broadcast control apparatus 1. The user of the broadcast control apparatus 1 operates the broadcast control apparatus 1 according to the displayed screen.
  FIG. 6 is an example of a menu screen. On this screen, buttons for “input system registration”, “output system registration”, “output group registration”, “transmission system registration”, and “transmission system selection registration” are displayed. When “Input system registration” is pressed, the input system registration screen of FIG. 7A is displayed. When “output system registration” is pressed, an output system registration screen shown in FIG. 7B is displayed. When “output group registration” is pressed, an output group registration screen shown in FIG. 8 is displayed. When “transmission system registration” is pressed, the transmission system registration screen of FIG. 9 is displayed. When “transmission system selection registration” is pressed, the transmission system selection registration screen of FIG. 10 is displayed.
[0034]
  The input system registration screen in FIG. 7A is a screen for accepting registration of information in the input system table 1001. This screen accepts input of an input ID and a transmission device address. When the “Register” button is pressed, the input ID and the transmission device address input in the text box are stored in association with the input system table 1001. When the “End” button is pressed, the menu screen of FIG. 6 is restored.
[0035]
  The output system registration screen in FIG. 7B is a screen that accepts registration of information in the output system table 1002. This screen accepts input of a text box for an output ID and a receiving device address. When the “Register” button is pressed, the output ID and the receiving device address input in the text box are stored in the output system table 1002. When the “End” button is pressed, the menu screen of FIG. 6 is restored.
[0036]
  FIG. 8 is an example of an output group registration screen. This screen accepts registration of information in the output group table 1003. On this screen, a table having a plurality of cells arranged vertically and horizontally is displayed. A group ID is displayed in each cell in the top row of this table. The group ID displayed in this row is uniquely given by the registration module 1001, but may be input by the user. In each cell in the leftmost column of this table, a group ID and an output ID are displayed. When the user clicks a desired cell with a mouse, for example, a mark is displayed in that cell. As a result, the group ID of the column including the marked cell corresponds to the output ID or group ID of the row including the marked cell. When the “Register” button is pressed, the group specified in this table is registered in the group table 1003 of FIG. When the “End” button is pressed, the menu screen of FIG. 6 is restored.
[0037]
  FIG. 9 is an example of a transmission system registration screen. This screen accepts registration of transmission system information in the transmission system table 1004. On this screen, a table having a plurality of cells arranged vertically and horizontally is displayed. In the upper part of the table, the table ID of the transmission system table 1004 is displayed in a drop-down list, and selection of any table ID is accepted. In each cell of this table, a transmission system ID, an input ID, a broadcast priority, a system selection flag, a group ID, and an output ID are displayed in order from the top row. The transmission system ID is uniquely given by the registration module 1101. Only the input IDs registered in the input system table 1001 can be freely input by the user. An arbitrary natural number can be input as the broadcast priority. For each cell in each row below the system selection flag, information can be freely input or changed by the user clicking with a mouse, for example. When a cell in the row of the output group is clicked, the output ID of the receiving device 3 that forms the output group of that row is automatically added to the transmission system information to which the cell belongs. If you want to register a new transmission system, enter information in the rightmost column. When the “Register” button is pressed, the transmission system information specified in this table is registered in the transmission system table 1004 of FIG. When the “End” button is pressed, the menu screen of FIG. 6 is restored.
[0038]
  FIG. 10 is an example of a transmission system selection registration screen. This screen accepts registration of information in the transmission system selection table 1005. On this screen, an operation device address and a button ID can be input, and one or more transmission system IDs registered in the transmission system table can be selected from a drop-down list. When the “Register” button is pressed, the input or selected information is registered in the transmission system selection table 1005. When the “End” button is pressed, the menu screen of FIG. 6 is restored.
[0039]
  If the transmission system name, input name, output name, and output group name are displayed in place of the transmission system ID, input ID, output ID, and group ID in each screen of FIGS. Operation becomes easier.
  [Process flow]
  (1) Overall processing flow
  FIG. 11 shows the flow of processing performed in the entire network local area broadcasting system according to the present invention. In this system, switching event detection (# 1), operation notification (# 2), broadcast event occurrence notification (# 3), output system notification (# 4), and voice packet transmission (# 5) are performed. These will be specifically described below.
[0040]
  Broadcast control apparatus 1 detects a switching event (# 1). For example, the broadcast control apparatus 1 detects an alarm notification from the sensor 5 that has detected smoke. When the broadcast control apparatus 1 detects a switching event, the broadcast control apparatus 1 performs a table switching process described later, and turns on the table switching flag of any transmission system table. Hereinafter, a transmission system table whose table switching flag is on is referred to as a current table.
[0041]
  When the operation unit 42a is operated, the operation notification unit 41a included in the arbitrary operation device 4a issues an operation notification to the broadcast control device 1 (# 2). When receiving the operation notification, the broadcast control apparatus 1 performs a transmission system selection process described later, and selects transmission system information used in a broadcast process described later from the current table.
  The arbitrary transmission device 2a transmits to the broadcast control device 1 a broadcast event occurrence notification indicating that the input device 7a has started operation (# 3). When receiving the broadcast event occurrence notification, the broadcast control device 1 determines the address of the reception device 3a that is the transmission destination of the audio packet by broadcast processing described later, and notifies this to the transmission device 2a (# 4). The transmitter 2a transmits a voice packet addressed to the notified address (# 5). The receiving device 3a receives a voice packet addressed to itself, converts it into an analog voice signal, and outputs it to a speaker.
[0042]
  (2) Flow of processing performed by the broadcast control device
  The broadcast control device 1 performs three processes: a table switching process, a transmission system selection process, and a broadcast process.
  Hereinafter, these three processes will be described in detail.
  (2-1) Table switching process flow
  FIG. 12 is a flowchart showing the flow of the table switching process.
[0043]
  Step S21: The table switching module 1103 determines whether or not a switching event, for example, an alarm notification has been received. When it detects, it transfers to step S22. If not detected, step S21 is repeated. That is, in this process, unless an alarm notification is generated, the normal transmission system table with the table ID “T01” becomes the current table.
[0044]
  Step S22: The table switching module 1103 sets the emergency transmission system table as the current table based on the management table 1301. That is, the table switching flag of the transmission system table specified by the table ID “T02” is turned on.
  The table switching module 1103 may switch the current table by detecting that an emergency cancel button (not shown) provided in the sensor 5 or the like is operated. In this case, the table switching flag of the transmission system table identified by the table ID “T01” based on the management table 1301 is turned on.
[0045]
  (2-2) Flow of transmission system selection processing
  FIG. 13 is a flowchart showing a flow of transmission system selection processing.
  Step S31: The system selection module 1102 determines whether or not an operation notification transmitted from the operation notification unit 41a has been received. If received, the process proceeds to step S32. If not received, step S31 is repeated.
[0046]
  Step S32: The system selection module 1102 specifies a transmission system ID corresponding to the address and button ID of the operation device 4a included in the operation notification based on the transmission system selection table 1005. Then, the system selection flag corresponding to the specified transmission system ID in the current table is turned on.
  (2-3) Broadcast processing flow
  FIG. 14 is a flowchart showing a flow of broadcast processing performed by the broadcast control apparatus 1. In this process, when a broadcast event occurs in an input device 7i connected to a certain transmission device 2i, the address of the reception device 3 is set to the transmission device 2i so that a voice packet is transmitted from the transmission device 2i to the predetermined reception device 3. Notification is made (steps S51 to S53). Then, when a broadcast event further occurs in an input device 7j connected to a certain transmission device 2j, it is preferable to avoid duplicate voice packet transmission from different transmission devices 2 to the same reception device 3, so that the transmission devices 2i, Pre-fetch / post-fetch transmission for transmitting a voice packet from one of j to a receiving device that preferentially overlaps is further performed (steps S54 to S61). That is, the transmission of the voice packet by the transmission device 2i that has already been performed is maintained and the address notification of the non-overlapping reception device 3 is sent to the transmission device 2j, or the address of the reception device 3 that has already been notified to the transmission device 2i. Post-transmission transmission in which the transmission apparatus 2j is notified of the address of the reception apparatus 3 in response to the occurrence of a new broadcast event after performing a transmission stop notification instructing the transmission apparatus 2i to stop transmission of voice packets to duplicate ones. Is performed based on the broadcast priority corresponding to each broadcast event. Here, it is assumed that each piece of transmission system information in which at least the system selection flag is on includes different broadcast priorities.
[0047]
  Step S51: The notification module 1104 determines whether a broadcast event occurrence notification has been received from an arbitrary transmission device 2i. If received, the process proceeds to step S52. If not received, step S51 is repeated.
  Step S52: The notification module 1104 has the system selection flag turned on among the transmission system information including the input ID corresponding to the transmission device address included in the broadcast event occurrence notification received in Step S51 (hereinafter referred to as the first transmission system). A first output ID, which is an output ID included in the information), is determined based on the current table and stored in the memory 1301.
[0048]
  Step S53: The notification module 1104 obtains the first reception address, which is the reception device address corresponding to the first output ID, from the output system table 1002, and notifies the transmission device 2i.
  Step S54: The notification module 1104 determines whether or not a broadcast event occurrence notification is further received from an arbitrary transmission device 2j. If received, the process proceeds to step S55. If not received, step S54 is repeated.
[0049]
  Step S55: The notification module 1104 has the system selection flag turned on among the transmission system information including the input ID corresponding to the transmission device address included in the broadcast event occurrence notification received in Step S54 (hereinafter, the second transmission system). A second output ID, which is an output ID included in the information), is determined based on the current table and stored in the memory 1301.
[0050]
  Step S56: The notification module 1104 compares the first output ID with the second output ID, and determines whether at least one of the output IDs included in the second output ID matches any of the first output IDs. To do. If they match, the process proceeds to step S57. If not, the process proceeds to step S60.
  Step S57: The notification module 1104 determines whether or not the priority P1 of the transmission system information including the first output ID is lower than the priority P2 of the transmission system information including the second output ID. If P1 <P2, the process proceeds to step S58. If P1> P2, the process proceeds to step S59.
[0051]
  Step S58: The notification module 1104 sends the information to the receiving device 3 specified by the duplicate output ID that is the output ID included in the first output ID and matches any of the output IDs included in the second output ID. A transmission stop notification instructing stop of voice packet transmission is transmitted to the transmitter 2i.
  Step S59: The notification module 1104 outputs the receiving device address corresponding to the non-overlapping output ID that is the output ID included in the second output ID and does not match any of the output IDs included in the first output ID. Acquired from the system table 1002 and notifies the transmitter 2j.
[0052]
  Step S60: The notification module 1104 obtains the second reception address, which is the reception device address corresponding to the second output ID, from the output system table 1002, and notifies the transmission device 2j.
  Step S61: The notification module 1104 stores the second output ID as the first output ID in the memory 1301, and returns to step S54.
[0053]
  <Other embodiment examples>
  (A) The switching event is not limited to alarm notification. For example, the current table may be switched using a change in time as a switching event. Specifically, consider the case where it is desired to broadcast only with speakers installed indoors at night or on holidays. In this case, the transmission system table including only the output ID of the receiving device 3 connected to the speaker installed indoors in the transmission system information is generated as the overtime transmission system table. A table ID “T03” is assigned to this table and stored in the management DB 100 of the first embodiment. In step S21 (switching event detection step) in the table switching process, the table switching module 1103 is based on a timer integrated with the broadcast control device 1, for example at a predetermined time or day of the week, for example, 6:00 pm Detect that it is Sunday. Thereafter, in step S22, the table switching flag of the overtime transmission system table specified by the table ID “T03” is turned on based on the management table 1301. Further, in step S21 in the table switching process, when it is detected that the table switching module 1103 has reached, for example, 8:00 am or Monday, the process proceeds to step S22. In this case, in step S22, the table switching flag of the normal transmission system table specified by the table ID “T01” based on the management table 1301 is turned on.
[0054]
  (B) It is also possible to realize a broadcast control system in which the operation device 4, the sensor 5, the management table 1301, and the table switching module 1103 are omitted in the first embodiment. That is, if the broadcast control apparatus 1 has one transmission system table 1004, the above-described broadcast processing can be performed. In this case, the current table in step S42 of the above-described broadcast processing is the above-described one transmission system table.
[0055]
  (C) In step S58 in the broadcast processing of the first embodiment, by transmitting a transmission stop notification, redundant voice packet transmission to the same receiving apparatus is avoided. However, even if the receiving device address that does not overlap is re-notified to the transmitting device 2i in the step S58, it is possible to avoid overlapping voice packet transmission.
[0056]
  (D) In the broadcast processing of the first embodiment, prefetch / postfetch transmission is performed based on the broadcast priority. However, the broadcast processing of the first embodiment may be performed by making it possible to select prefetch / postfetch transmission in advance. Specifically, a reference selection screen as shown in FIG. 15 is provided so that either “pre-transmission” or “post-transmission” can be selected with a radio button. In step S57 of the broadcast process, it is determined whether or not “successful transmission” is selected on the reference selection screen. If “post-transmission” is selected, the process proceeds to step S58. When “preemptive transmission” is selected, the process proceeds to step S59. In this way, it is possible to avoid voice packet transmission to overlapping receiving devices without using broadcast priority. Also, if either “pre-empty transmission” or “post-transmission” is selected, it is not necessary to input the broadcast priority. For example, neither “pre-transmission” or “post-transmission” is selected. As in the first embodiment, prefetch / sequential transmission based on broadcast priority is performed. Conversely, when either “prefetch transmission” or “sequential transmission” is selected, the transmission shown in FIG. The processing as described above may be performed after the input of the broadcast priority on the system selection screen is not accepted.
[0057]
  (E) In the broadcast process of the first embodiment, each piece of transmission system information for which the system selection flag is on includes a different broadcast priority. However, it is also possible to set an overlapping broadcast priority for each piece of transmission system information. For example, a reference selection screen is provided in the same manner as in (D) above so that pre-fetch / post-take transmission can be selected. By default, it is assumed that either prefetch / postfetch transmission is selected. Then, it is determined in advance whether or not the broadcast priority of the first transmission system information and the broadcast priority of the second transmission system information are the same. It is further determined whether or not transmission is selected. Then, when “send pre-transmission” is selected, a transmission stop notification is made for duplicate output IDs as in step S58, and when “pre-transmission” is selected, non-overlapping reception addresses are notified as in step S59. To do. In this case, it is not necessary to separately provide error processing for the case where the broadcast priority is set redundantly on the transmission system selection screen of FIG.
[0058]
  (F) When the input device 7 according to the first embodiment starts operation, the input device 7 transmits a control signal to the transmission device 2. When the transmission device 2 receives the control signal, the broadcast control device 1 sends a broadcast event occurrence notification. Had been sent to. However, the control signal may be transmitted to the transmission device 2 from the input device 7 or other devices at a timing other than the start of the operation of the input device 7. For example, a switch is provided in the input device 7 such as a remote microphone so that when the switch is pressed when announcement broadcasting or the like is performed, a control signal is transmitted to the transmission device 2 connected to the input device 7. In this way, even if the timing of the operation start of the input device 7 does not coincide with the timing of the voice input as in the announcement broadcast using the remote microphone, the voice input to the transmission device is performed at an appropriate timing by pressing the switch. it can. Alternatively, the operation device 4 is provided with a switch corresponding to the input device 7, for example, a switch for selecting the input device 7 such as “microphone”, “CD player”, “radio” (hereinafter referred to as a sound source selection switch). When the selection switch is pressed, a control signal is transmitted to the transmission device 2 connected to the input device 7. In this way, even if it is inappropriate to transmit a control signal at the start of operation, such as a radio or a cable broadcasting receiver, it can be used as a sound source by pressing the sound source selection switch.
[0059]
  (G) In the first embodiment, the operation device 4 can select a transmission system using a single input device 7 as a sound source, and a combination of one sound source and one or a plurality of broadcast destinations (hereinafter referred to as broadcast). The user could not freely select “system”. However, it is also possible to freely select one or a plurality of broadcast systems by a user operation. For example, the operation device 4 according to the first embodiment is provided with a plurality of sound source selection switches having the same function as the above (F). Each of the sound source selection switches corresponds to one of the input devices 7. For example, the first sound source selection switch is “microphone”, the second sound source selection switch is “CD player”, the third sound source selection switch is “radio”, the fourth sound source selection switch is “cable broadcasting receiver”, etc. It corresponds to. Further, the operation device 4 is provided with a plurality of operation units 42. Each of the operation units 42 is associated with a plurality of transmission systems by the transmission system selection table 1005 of the first embodiment. Here, the plurality of transmission systems corresponding to one operation unit 42 are set so that the output ID is common and the input ID is different. Therefore, when one certain operation unit 42 is operated, the system selection flags of a plurality of transmission systems having the same broadcast destination but different sound sources are turned on simultaneously. That is, when one certain operation unit 42 is operated, one broadcast destination, for example, “classroom”, “gymnasium”, “schoolyard” is first selected. It is also possible to simultaneously select a plurality of broadcast destinations by operating a plurality of operation units 42 at the same time. When any of the sound source selection switches is pressed after the broadcast destination is selected, a control signal is transmitted to the transmission device 2 connected to the input device 7 corresponding to the sound source selection switch, and from the transmission device 2 to the broadcast control device 1. A broadcast event occurrence notification is transmitted. If the broadcast processing of the first embodiment is performed based on the broadcast event occurrence notification, the system selection flag is turned on, and the broadcast event occurrence notification is transmitted among a plurality of transmission systems with common output IDs. The voice packet is transmitted by the transmission system including the input ID of the transmission device 2. Therefore, if the operation device configured as described above is used, one broadcast system can be freely selected by a user operation.
[0060]
  On the other hand, a plurality of operation devices 4 including a plurality of sound source selection switches and a plurality of operation units 42 as described above can be provided on the network 10, and the plurality of operation devices 4 can be configured integrally. For example, a plurality of broadcasting systems can be freely selected by a user operation.
  (H) A computer-readable recording medium in which a program for performing the above-described processing is recorded is also included in the present invention. Here, examples of the recording medium include a computer-readable flexible disk, semiconductor memory, CD-ROM, DVD, MO, and the like.
[0061]
【The invention's effect】
  By using the present invention, it is possible to control multi-system premises broadcasting using a network.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a network premises broadcast system according to a first embodiment.
FIG. 2A is a conceptual explanatory diagram of information stored in an input system table.
  (B) The conceptual explanatory view of the information stored in the output system table.
  (C) Conceptual explanatory diagram of information stored in an output group table.
FIG. 3 is a conceptual explanatory diagram of information accumulated in a transmission system table.
FIG. 4 is a conceptual explanatory diagram of information accumulated in a transmission system selection table.
FIG. 5 is a conceptual explanatory diagram of information stored in a management table.
FIG. 6 shows an example of a menu screen.
FIG. 7A shows an example of an input system registration screen.
  (B) An example of an output system registration screen.
FIG. 8 shows an example of an output group registration screen.
FIG. 9 shows an example of a transmission system registration screen.
FIG. 10 shows an example of a transmission system selection registration screen.
FIG. 11 is an explanatory diagram showing a flow of processing in the entire system.
FIG. 12 is a flowchart showing the flow of table switching processing.
FIG. 13 is a flowchart showing a flow of transmission system selection processing.
FIG. 14 is a flowchart showing a flow of broadcast processing.
FIG. 15 shows an example of a reference selection screen.
FIG. 16A is a configuration example of a local broadcasting system using a conventional matrix circuit.
  (B) Configuration example of a network premises broadcasting system.
[Explanation of symbols]
  1: Broadcast control device
  2: Transmitter
  3: Receiver
  4: Operating device
  5: Sensor
  100: Management DB
  110: Module group

Claims (6)

An operating device for at least one operating portion is provided, 1 and more transmission device connected to the input device, is connected via a network to one or more receiving devices and which is connected to a speaker, one or more A broadcast control device for realizing multi-component broadcasting in which one or a plurality of receiving devices receive broadcast data transmitted from the transmitting device of
A combination of a transmission device identifier that uniquely identifies one transmission device as a transmission source on the network and a reception device identifier that uniquely identifies each of one or more reception devices as transmission destinations on the network Transmission system storage means for defining a certain transmission system and storing transmission system information including a transmission system identifier for identifying the transmission system;
Transmission system selection table storage for storing the operation apparatus identifier for uniquely identifying the operation apparatus on the network, the operation section identifier for identifying the operation section on each operation apparatus, and the transmission system identifier in association with each other. Means,
A first receiving means for receiving an operation notification including an operation device identifier and an operation unit identifier from an operation device connected via the network;
System selection means for managing the on / off state of each transmission system and turning on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification;
Second receiving means for receiving a broadcast event occurrence notification indicating the start of transmission together with the transmitting device identifier from a transmitting device connected via the network after receiving the operation notification ;
A determining unit that includes the transmission device identifier in the transmission system information and determines a reception device identifier included in the transmission system information of an on-state transmission system ;
Notifying means for notifying the transmitting device of the determined receiving device identifier via the network ;
A broadcast control apparatus comprising:   A plurality of transmission devices are connected to the network,
  The transmission system information includes the priority of each transmission system,
  When the same receiving device identifier is included in each transmission system information associated with each transmitting device identifier received by the second receiving unit from a plurality of transmitting devices, the determining unit transmits a transmission system having a higher priority. The broadcast control apparatus according to claim 1, wherein a determination is made to notify the apparatus of the reception apparatus identifier of the reception apparatus.   A plurality of transmission devices are connected to the network,
  The transmission system information includes the priority of each transmission system,
  When the same receiving device identifier is included in each transmission system information associated with each transmitting device identifier received by the second receiving means from a plurality of transmitting devices, and the transmitting device with the lower priority transmission system first. When transmitting to the receiving device, the notifying means notifies the transmitting device that transmission to the receiving device is stopped, and transmits the reception to a transmitting device of a transmission system having a high priority. The broadcast control apparatus according to claim 1, wherein the apparatus identifier is notified. The transmission system storage means, further, a transmitting system information group including at least one transmission system information, the combination of the use conditions is a condition that is used by the transmission system information belonging to the transmission system information group said determining means Remember multiple,
The broadcast control device further includes:
Detecting means for detecting a change in the use conditions ;
Switching means for switching the transmission system information group used by the determination means based on the detected change in the use condition ;
The broadcast control apparatus according to claim 1, further comprising: An operation device provided with at least one operation unit, one or more transmission devices connected to an input device, one or more reception devices connected to a speaker, and a broadcast control device are connected via a network. A network premises broadcasting system comprising:
The broadcast control device
Realizing multi-source broadcasting in which broadcast data transmitted from one or more transmission devices is received by one or more reception devices;
A combination of a transmission device identifier that uniquely identifies one transmission device as a transmission source on the network and a reception device identifier that uniquely identifies each of one or more reception devices as transmission destinations on the network Transmission system storage means for defining a certain transmission system and storing transmission system information including a transmission system identifier for identifying the transmission system;
Transmission system selection table storage for storing the operation apparatus identifier for uniquely identifying the operation apparatus on the network, the operation section identifier for identifying the operation section on each operation apparatus, and the transmission system identifier in association with each other. Means,
A first receiving means for receiving an operation notification including an operation device identifier and an operation unit identifier from an operation device connected via the network;
System selection means for managing the on / off state of each transmission system and turning on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification;
Second receiving means for receiving a broadcast event occurrence notification indicating the start of transmission together with the transmitting device identifier from a transmitting device connected via the network after receiving the operation notification ;
A determining unit that includes the transmission device identifier in the transmission system information and determines a reception device identifier included in the transmission system information of an on-state transmission system ;
Notifying means for notifying the transmitting device of the determined receiving device identifier via the network ;
A network premises broadcasting system comprising: An operating device for at least one operating portion is provided, 1 and more transmission device connected to the input device, is connected via a network to one or more receiving devices and which is connected to a speaker, one or more A broadcast control program for causing a computer including a CPU and a storage means to function as the following means in order to realize multi-way broadcasting in which one or a plurality of receiving devices receive broadcast data transmitted from the transmitting device ,
A combination of a transmission device identifier that uniquely identifies one transmission device as a transmission source on the network and a reception device identifier that uniquely identifies each of one or more reception devices as transmission destinations on the network A transmission system storage means for defining a certain transmission system and storing transmission system information including a transmission system identifier for identifying the transmission system;
Transmission system selection table storage for storing the operation apparatus identifier for uniquely identifying the operation apparatus on the network, the operation section identifier for identifying the operation section on each operation apparatus, and the transmission system identifier in association with each other. means,
First receiving means for receiving an operation notification including an operating device identifier and an operating unit identifier from an operating device connected via the network;
System selection means for managing the on / off state of each transmission system and turning on the state of the transmission system identified by the transmission system identifier corresponding to the operation device identifier and the operation unit identifier included in the operation notification,
Second receiving means for receiving a broadcast event occurrence notification indicating the start of transmission together with the transmitting device identifier from a transmitting device connected via the network after receiving the operation notification ;
Determining means for determining a receiving device identifier that includes the transmitting device identifier in the transmission system information and that is included in the transmission system information of an on-state transmission system ; and
Notifying means for notifying the transmitting device of the determined receiving device identifier via the network ;
A broadcast control program for causing the computer to function as:

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