JP2004140592A - Voice transmission system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a voice transmission system wherein a master station apparatus monitors the channel and a transmission state and automatically makes recovery when a channel fault is restored. <P>SOLUTION: The master station apparatus and slave station apparatuses are configured such that each of them respectively includes: a phone interface section 111 for interfacing phones, a general-purpose voice interface section 112 for interfacing a voice input output unit; a CODEC section 113 for converting an analog voice signal into coded voice data; and a transmission/reception section 115 for transmitting / receiving the voice data to / from an IP network, and the master station apparatus and the slave station apparatuses transmit voice data via the IP network 170 in compliance with a call control protocol among them, and the master station apparatus transmits a channel monitor frame to the slave station apparatuses for a prescribed period and monitors channels of the slave station apparatuses on the basis of a channel monitor acknowledgement frame from the slave station apparatuses receiving the channel monitor frame. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a voice transmission device for transmitting voice data over an IP (Internet Protocol) network for the purpose of outputting a voice alarm, collecting voice, and the like in a monitoring control system.
[0002]
[Prior art]
2. Description of the Related Art As a conventional audio broadcasting system using an IP network, there is, for example, one disclosed in Patent Document 1. In this example, a line failure in an IP network environment such as a LAN (Local Area Network) or a WAN (Wide Area Network) is detected by transmitting a quality measurement packet from a user terminal.
[0003]
FIG. 9 is a configuration diagram showing a conventional audio broadcasting system, which is disclosed in Patent Document 1.
In FIG. 9, reference numeral 200 denotes a quality monitoring device, 201 denotes an audio / video distribution server, 202 denotes a user terminal, and 203 denotes a network quality management device.
In this conventional system, an arbitrary quality measurement frame is transmitted from the user terminal 202, and the response delay time and the presence or absence of the quality measurement frame are converted as a frame loss rate.
[0004]
Next, the operation will be described.
When the user presses the quality measurement button displayed on the user terminal 202, the user terminal 202 transmits a quality measurement frame to the registered IP address of the quality monitoring device 200 (a). The quality monitoring device 200 having received the quality measurement frame transmits a quality measurement response frame to the transmission source device (b). The user terminal 202 records the reception delay of the quality measurement response frame and the presence / absence of arrival, and notifies the network quality management device 203 (c). The network quality management device 203 determines a line failure based on the quality record transmitted from the user terminal 202 and notifies the user terminal 202 (d). The user terminal 202 displays the failure information received from the network quality management device 203 on the terminal screen, so that the user can know the cause of the line failure.
[0005]
[Patent Document 1]
JP-A-2002-51041 (pages 3 to 5, FIG. 1)
[0006]
[Problems to be solved by the invention]
The conventional audio broadcasting system includes an audio / video distribution server 201 and a manned terminal station, and enables a user to determine whether a line failure or a slave station device failure has occurred.
On the other hand, in the voice transmission in the monitoring and control system, a slave station device corresponding to a user terminal is generally unmanned, and therefore, there is a problem that line monitoring and transmission state monitoring cannot be performed by a person.
[0007]
The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a voice transmission device having an automatic recovery function by performing line monitoring and transmission state monitoring from a master station device. .
[0008]
[Means for Solving the Problems]
A voice transmission device according to the present invention includes a child station call control unit for performing call control between devices, a child station device configured to transmit voice data via an IP network, and a call between the devices. And a call control management unit for instructing the master station call control unit to perform call control in response to a request from an external device, and for transmitting voice data to and from the slave station device via an IP network. A master station device configured to transmit, the master station device transmits a line monitoring frame to the slave station device through the IP network by a call control with the slave station device at regular intervals, and This is to monitor the line of the slave station device based on the line monitoring response frame from the slave station device that has received the command.
[0009]
A plurality of slave station devices each having a slave station call control unit for performing call control between the devices, and configured to transmit voice data via the IP network, and a plurality of slave station devices each performing a call control between the devices. And a call control management unit that instructs a plurality of master station call controllers to perform call control in response to a request from an external device, and performs voice communication with a plurality of slave station devices via an IP network. A master station device configured to transmit data, wherein the master station device sends a line monitoring frame to the plurality of slave stations via the IP network at a constant period by a call control between the plurality of slave stations. Is transmitted, and the line monitoring of a plurality of slave stations is performed based on the reception state of the line monitoring response frame from the slave station that has received the line monitoring frame.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a system configuration of an audio transmission device according to Embodiment 1 of the present invention.
In FIG. 1, reference numeral 110 denotes a voice transmission device. A telephone 120, a speaker 130, a microphone 140, and a sound collecting microphone 150 are connected to the audio transmission device 110. 160 is an external device. 170 is an IP network such as a WAN or a LAN. The voice transmission device 110 and the external device 160 are connected to the IP network 170, respectively. In the following description, among the audio transmission devices, a device that mainly broadcasts an audio alarm or the like, and a device on the transmission side is referred to as a master station device 110a and a device on the reception side is referred to as a slave station device 110b.
[0011]
FIG. 2 is a diagram showing an internal configuration of the slave station device of the voice transmission device according to the first embodiment of the present invention.
In FIG. 2, 110b is a slave station device. The slave station device 110b includes a telephone interface unit 111 that controls the telephone 120 to input and output audio signals, a general-purpose audio interface unit 112 that performs general-purpose audio input and output with the speaker 130, the sound collection microphone 150, and the like. A CODEC unit 113 having a function of encoding the audio data or converting the encoded audio data into an analog audio signal; a buffer management unit 114 having a buffer for waiting for transmission / reception of the encoded audio data; A transmission / reception unit 115 having a function of transmitting / receiving call control message data or the like via the IP network 170, a LAN interface unit 116 for transmitting / receiving data between the IP network 170 and the slave station device 110b, and a one-to-one call connection. And a call control unit 117 (slave station call control unit) for controlling call disconnection. That. The telephone interface unit 111 and the general-purpose voice interface unit 112 constitute a voice input / output device interface unit.
[0012]
FIG. 3 is a diagram showing an internal configuration of the master station device of the audio transmission device according to the first embodiment of the present invention.
In FIG. 3, reference numeral 110a is a master station device. Reference numerals 111 to 116 are the same as those of the slave station device 110b in FIG. Reference numeral 117 denotes a call control unit (master station call control unit). Unlike the slave station device 110b, the call control unit 117 includes a plurality of call control units according to the number of broadcasting stations. Reference numeral 118 denotes a call control management unit that receives a call control command from the external device 160 and instructs the call control unit 117 to execute processing.
When the external device 160 issues a request command for audio broadcasting and collection to the call control management unit 118 of the master station device 110a, a call control sequence between the devices operates.
A call control protocol used for VoIP (Voice over IP) is defined on SIP (Session Information Control Protocol) and RTP (RealTime Transport Protocol).
FIG. 4 is a diagram showing a line monitoring sequence of the voice transmission device according to the first embodiment of the present invention, and shows a sequence for performing call connection and voice transmission to a single slave station device.
[0013]
Next, the operation will be described with reference to FIG.
In response to a request from the external device 160 (a), the master station device 110a of FIG. 4 establishes a call connection to the slave station device 110b by using the SIP protocol (b), and the master station device 110a establishes a call connection. Is notified to the external device 160 (c).
After the call connection is established, the master station device 110a transmits a line monitoring frame to the connected slave station device 110b at an arbitrary fixed cycle (d). The slave station device 110b transmits a line monitoring response frame to the received line monitoring frame (e).
The master station device 110a monitors the reception state of the line monitoring frame (f), and if the line monitoring frame is not received within an arbitrary time (g), disconnects the call connection as a line failure or a slave station device abnormality. (H), and notifies the external device 160 (i).
[0014]
According to the first embodiment, by transmitting the line monitoring frame from the master station device to the slave station device call-connected, the master station device can monitor the line status.
[0015]
Embodiment 2 FIG.
FIG. 5 is a diagram showing a line monitoring sequence of the voice transmission device according to the second embodiment of the present invention, and shows a sequence of monitoring the line usage rate using a response monitoring frame.
The master station apparatus of FIG. 5 monitors the congestion state of the line based on the reception delay time of the line monitoring response frame from the slave station apparatus connected to the call. If the response reception is continuously delayed for a certain time or longer, it is determined that the line is congested, and the CODEC type is changed to the one having a high compression rate to transmit the voice frame.
[0016]
Next, the operation will be described.
The master station device transmits the line monitoring frame to the slave station device (a), and monitors the response reception time of the response frame from the slave station device (b). When the response reception time is continuously delayed for the set time or more (c), the master station device notifies the slave station device and the external device of the change of the CODEC type (d). Upon receiving the response to the change in the CODEC type from the slave station device (e), the master station device changes the CODEC type of the audio compression and transmits an audio frame to the slave station device (f).
[0017]
According to the second embodiment, as described above, the line load state is monitored based on the response reception time of the line monitoring frame, and when the line load is high, the voice frame is transmitted in the CODEC type having a high compression ratio by transmitting the voice frame. When the line load is high, the line load can be automatically reduced.
[0018]
Embodiment 3 FIG.
FIG. 6 is a diagram showing a line monitoring sequence of the voice transmission device according to the third embodiment of the present invention, which shows a sequence for performing call connection and voice transmission to a plurality of slave stations.
In the first and second embodiments, monitoring of the line status has been described. However, in the third embodiment, when voice transmission to a plurality of slave stations is performed, all the slave stations connected to the call are connected. Monitor the line status by transmitting a line monitoring frame.
[0019]
Next, the operation will be described.
In response to a request from an external device (a), the master station device in FIG. 6 establishes a call connection to all slave station devices for which connection has been requested using the SIP protocol (b). The master station device transmits a line monitoring frame to all the slave station devices connected to the call (c). The slave station device transmits a line monitoring response frame to the received line monitoring frame (d). The master station device monitors the reception of the line monitor response frame for each slave station device (e), disconnects the call connection to the slave station device for which the line monitor response frame was not received (f), (G). Thereafter, a call connection is made to the slave station device (h).
[0020]
According to the third embodiment, as described above, the function of performing voice transmission to a plurality of slave station devices is provided, and line monitoring can be performed by transmitting a line monitoring frame to the plurality of slave station devices.
[0021]
Embodiment 4 FIG.
FIG. 7 is a diagram showing a line monitoring sequence of the voice transmission device according to the fourth embodiment of the present invention, showing a sequence for restoring the call connection to a plurality of slave stations.
In the third embodiment, line monitoring in the case of performing voice transmission to a plurality of stations has been described. However, when a call connection is disconnected due to a line failure, it is necessary to restore the call connection to the disconnected slave station device. It becomes. In the fourth embodiment, the master station device restores the call connection to the slave station device whose call has been disconnected, automatically or by a request from an external device.
[0022]
Next, the operation will be described.
The master station device in FIG. 7 transmits a line monitoring frame to all the slave station devices connected to the call (a). The slave station device transmits a line monitoring response frame to the received line monitoring frame (b). The master station device monitors the reception of the line monitoring response frame for each slave station device (c), disconnects the call connection to the slave station device that did not receive the line monitoring response frame (d), and (E). The master station device establishes a call connection to the slave station device whose call has been disconnected, automatically or by a request from an external device (f) (f).
[0023]
According to the fourth embodiment, as described above, the call connection is restored only to the slave station device in which the line fault has occurred, thereby performing the fault restoration while continuing the call connection to the normally operating slave station device. be able to.
[0024]
Embodiment 5 FIG.
FIG. 8 is a diagram showing a buffer configuration of an audio transmission device according to Embodiment 5 of the present invention.
8, 113 to 115 are the same as those in FIG. The buffer management unit 114 has a storage buffer.
In the fifth embodiment, the master station, which is the transmission source of the first to fourth embodiments, has an accumulation buffer (first buffer) for accumulating audio data, and encodes the encoded audio data. The data is stored in the storage buffer. The master station device according to the fifth embodiment has a function of transmitting the stored voice data at the time of disconnecting and restoring the call disconnection.
[0025]
Next, the operation will be described.
The master station device performs real-time transmission through the real-time buffer during voice transmission, and stores voice data in the voice storage buffer. The audio accumulation buffer is a FIFO (First-In-First-Out: first-in first-out) ring buffer, and can extract audio data from an arbitrary location.
When the call disconnection due to the line failure is restored, the master station device extracts the stored voice data automatically or in response to a request from an external device, and transmits it to the slave station device.
When the transmission of the stored audio data is completed, or in response to a request from an external device, the extraction of the audio data from the audio storage buffer is stopped, and the real-time transmission of the audio data is performed.
[0026]
According to the fifth embodiment, by storing the real-time voice in the storage buffer as coded voice data, any voice that is interrupted even when the call connection is disconnected due to a line failure can be arbitrarily determined. Can be resent from the location.
[0027]
Embodiment 6 FIG.
In the first to fifth embodiments, the voice transmission from the master station device has been described. However, in the sixth embodiment, when the master station device collects the voice from the slave station device, the line failure is generated by the response monitoring frame. Is detected, the master station device notifies the external device of the line failure, reconnects to the slave station, and resumes voice collection.
[0028]
Next, the operation will be described.
When the call connection is disconnected from the master station device due to a line failure, the slave station device stores the audio data in the storage buffer (second buffer).
The slave station device extracts the collected voice accumulated after the reconnection from the storage buffer and transmits the data to the master station device.
When discarding the voice data stored in the slave station device, the master station device transmits a command for discarding the stored data to the slave station device in accordance with an instruction from the external device. Upon receiving the stored data discard command, the slave station device discards the audio data stored in the storage buffer and transmits the collected audio data to the master station in real time.
[0029]
According to the sixth embodiment, when the audio collection from the slave station device is interrupted due to a line failure, the audio data collected by the slave station device can be collected by the master station device without loss. Becomes possible.
[0030]
【The invention's effect】
As described above, the present invention has a slave station call control unit for performing call control between devices, and a slave station device configured to transmit voice data via an IP network, and a call between devices. And a call control management unit for instructing the master station call control unit to perform call control in response to a request from an external device, and for transmitting voice data to and from the slave station device via an IP network. A master station device configured to transmit, the master station device transmits a line monitoring frame to the slave station device through the IP network by a call control with the slave station device at regular intervals, and Since the line monitoring of the slave station device is performed based on the line monitoring response frame from the slave station device that has received the command, the master station device can monitor the line status of the slave station device.
[0031]
A plurality of slave station devices each having a slave station call control unit for performing call control between the devices, and configured to transmit voice data via the IP network, and a plurality of slave station devices each performing a call control between the devices. And a call control management unit that instructs a plurality of master station call controllers to perform call control in response to a request from an external device, and performs voice communication with a plurality of slave station devices via an IP network. A master station device configured to transmit data, wherein the master station device sends a line monitoring frame to the plurality of slave stations via the IP network at a constant period by a call control between the plurality of slave stations. Is transmitted, and the line monitoring of the plurality of slave stations is performed based on the reception state of the line monitoring response frame from the slave station that has received the line monitoring frame. Can be monitored
[Brief description of the drawings]
FIG. 1 is a diagram showing a system configuration of an audio transmission device according to Embodiments 1 to 5 of the present invention.
FIG. 2 is a diagram showing an internal configuration of a slave station device of the voice transmission device according to the first to fifth embodiments of the present invention.
FIG. 3 is a diagram showing an internal configuration of a master station device of the voice transmission device according to the first to fifth embodiments of the present invention.
FIG. 4 is a diagram showing a line monitoring sequence of the voice transmission device according to the first embodiment of the present invention.
FIG. 5 is a diagram showing a line monitoring sequence of the voice transmission device according to the second embodiment of the present invention.
FIG. 6 is a diagram showing a line monitoring sequence of a voice transmission device according to a third embodiment of the present invention.
FIG. 7 is a diagram showing a line monitoring sequence of a voice transmission device according to a fourth embodiment of the present invention.
FIG. 8 is a diagram showing a buffer configuration of an audio transmission device according to a fifth embodiment of the present invention.
FIG. 9 is a configuration diagram showing a conventional audio broadcasting system.
[Explanation of symbols]
110 voice transmission device, 110a master station device, 110b slave station device,
111 telephone interface unit, 112 general-purpose voice interface unit,
113 CODEC unit, 114 buffer management unit, 115 transmission / reception unit,
116 LAN interface unit, 117 call control unit,
118 call control manager, 120 telephone, 130 speaker,
140 microphones, 150 sound collecting microphones, 160 external devices,
170 IP network.

Claims (8)

A slave station device having a slave station call control unit for performing call control between devices and configured to transmit voice data via an IP network, a master station call control unit for performing call control between devices, and an external device A call control management unit for instructing the master station call control unit to perform call control in response to a request from the device, and configured to transmit voice data to and from the slave station device via the IP network. A master station device, wherein the master station device transmits a line monitoring frame to the slave station device via the IP network at a fixed cycle through call control with the slave station device, and receives the line monitoring frame. An audio transmission apparatus for monitoring a line of the slave station device based on a line monitoring response frame from the slave station device. A plurality of slave station devices each having a slave station call control unit for performing call control between the devices, and configured to transmit voice data via the IP network, and a plurality of parent devices each performing call control between the devices. A call control management unit that instructs the plurality of master station call control units to perform call control in response to a request from an office call control unit and an external device, and communicates with the plurality of slave station devices via the IP network. A master station device configured to transmit voice data, wherein the master station device is fixed to each of the plurality of slave station devices via the IP network by call control with the plurality of slave station devices. An audio transmission apparatus, comprising: transmitting a line monitoring frame at a period; and performing line monitoring of the plurality of slave stations based on a reception state of a line monitoring response frame from a slave station that has received the line monitoring frame. When the line failure occurs in any of the plurality of child station devices, the master station device only returns to the child station device in which the line failure has occurred in response to the occurrence of the line failure in the child station device. 3. The voice transmission device according to claim 2, wherein a call connection is performed. The slave station device includes a voice input / output device interface unit that interfaces with a voice input / output device, and a CODEC that converts an analog voice signal input / output by the voice input / output device into coded voice data corresponding thereto. The audio transmission device according to claim 1, further comprising: a transmission / reception unit configured to transmit / receive the audio data converted by the CODEC unit to / from the IP network. The master station device includes a voice input / output device interface unit that interfaces with a voice input / output device, and a CODEC that converts an analog voice signal input / output by the voice input / output device and coded voice data corresponding thereto. The audio transmission device according to claim 1, further comprising a transmission / reception unit configured to transmit / receive the audio data converted by the CODEC unit to / from the IP network. The master station device monitors the load status of the line based on the reception state of the line monitoring response frame. If the load of the line is high, the CODEC unit forms CODEC type audio data having a high compression rate by the CODEC unit. 6. The audio transmission apparatus according to claim 5, wherein the audio data of the CODEC type having a high compression ratio is transmitted. The master station device has a first buffer for storing audio data transmitted to the slave station device, and when a line fault occurs in the slave station device, in response to the recovery of the line fault, 7. The audio transmission device according to claim 1, wherein the audio data is transmitted from one buffer to the slave station device. The master station device collects voice data from the slave station device, and the slave station device from which voice data is collected by the master station device establishes a call connection with the master station device due to a line failure. Is disconnected, the voice data to be transmitted to the master station device is stored in a second buffer, and when the line failure is restored, the voice data stored in the second buffer is stored in the master station device. The voice transmission device according to claim 1, wherein the voice transmission is performed.

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