JP2004200791A - Packet communication system - Google Patents

Abstract

An object of the present invention is to reduce the overhead of IP packets without causing an increase in voice transmission delay even when a large number of VoIP terminals are connected to a network.
When a connection request including a destination telephone number is received from a VoIP terminal, a communication control device for searching for an IP address corresponding to the destination telephone number, and a communication control device related to the IP address searched by the communication control device. The multiplex transmission apparatus 11 or 10 that controls the VoIP terminal and the multiplex transmission apparatus 10 or 11 that controls the VoIP terminal that is the transmission source of the connection request are specified, and the multiplex transmission apparatus 11 of the other party is assigned to both the multiplex transmission apparatuses 10 and 11. , 10 and a multiplex controller 9 for notifying the IP address of the VoIP terminal.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a packet communication system for packetizing and transmitting an audio signal and the like.
[0002]
[Prior art]
2. Description of the Related Art With the recent development of IP (Internet Protocol) communication, VoIP (Voice over IP) technology for converting a telephone voice signal or a facsimile signal into an IP packet and transmitting the packet has attracted attention.
However, it is known that when a VoIP terminal directly transmits an IP packet to another VoIP terminal, the overhead of the IP packet increases.
Therefore, in a conventional packet communication system, a gateway and a multiplex transmission device are installed in order to reduce the overhead of an IP packet without causing an increase in voice transmission delay.
Specifically, it is as follows. However, in the following example, a combination of a telephone and a gateway corresponds to a VoIP terminal.
[0003]
First, when the telephone digitizes an analog voice signal and transmits the digital voice data, the gateway receives the voice data transmitted from the telephone via the public telephone network.
Upon receiving the voice data, the gateway converts the voice data into an IP packet and outputs the packet to the multiplex transmission device.
Here, a plurality of short packets (sequence number, Public Switched Telephone Network (PSTN), destination gateway address, destination multiplex transmission device address, voice data) are multiplexed in the payload of the IP packet.
[0004]
When receiving the IP packet from the plurality of gateways, the multiplex transmission device extracts the short packets from the plurality of IP packets, collects the short packets having the same destination multiplex transmission device, and multiplexes the short packets again to obtain the IP packet. And transmits it to the destination multiplex transmission device.
Upon receiving the IP packet, the destination multiplex transmission device extracts voice data from the IP packet and transmits the voice data to the transmission target telephone (see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-2000-4259 (paragraph numbers [0011] to [0042], FIG. 1)
[0006]
[Problems to be solved by the invention]
Since the conventional packet communication system is configured as described above, each telephone connected to the network has a telephone number and an IP address of all the telephones existing in the network and an IP address of the corresponding multiplex transmission device. It is necessary to memorize the address. However, since telephones are devices owned by end users, a huge number of telephones are connected to the network. In addition, since telephones are devices owned by end users, they are frequently added or removed. Therefore, there is a problem that it is currently difficult for each telephone to store in advance the IP addresses and the like of all telephones existing in the network.
[0007]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and it is an object of the present invention to reduce the overhead of an IP packet without causing an increase in voice transmission delay even when a large number of VoIP terminals are connected to a network. It is an object of the present invention to obtain a packet communication system capable of performing the above.
[0008]
[Means for Solving the Problems]
A packet communication system according to the present invention, when receiving a connection request including a destination telephone number from a certain terminal device, a communication control device that searches for an address corresponding to the destination telephone number, and an address searched by the communication control device. A multiplexing device that specifies the multiplex transmission device that controls the terminal device and the multiplex transmission device that controls the terminal device that is the source of the connection request, and notifies both of the multiplex transmission devices of the addresses of the other multiplex transmission device and the terminal device. A control device is provided.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described.
Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a packet communication system according to Embodiment 1 of the present invention. In the figure, VoIP terminals 1 to 4 are terminal devices such as telephones and facsimile devices, and VoIP terminals 1 and 2 are local IP networks 5. And the VoIP terminals 3 and 4 are connected to the local IP network 6. The local IP network 5 and the local IP network 6 are connected to an IP backbone network 7.
[0010]
Upon receiving a connection request including a destination telephone number (for example, the telephone number of the VoIP terminal 4) from the VoIP terminal 1, the communication control device 8 searches for an IP address corresponding to the destination telephone number, and multiplex-controls the search result. Output to the device 9. The multiplex control device 9 specifies the multiplex transmission device 11 that controls the VoIP terminal 4 related to the IP address searched by the communication control device 8 and the multiplex transmission device 10 that controls the VoIP terminal 1 that is the transmission source of the connection request. The IP address of the multiplex transmission device 10 and the IP address of the VoIP terminal 1 are notified to the transmission device 11, and the IP address of the multiplex transmission device 11 and the IP address of the VoIP terminal 4 are notified to the multiplex transmission device 10.
[0011]
When receiving the IP packet from the VoIP terminals 1 and 2, the multiplex transmission device 10 multiplexes a plurality of IP packets and transmits the multiplexed IP packet to the multiplex transmission device 11. The IP packet is decomposed and transmitted to the VoIP terminals 1 and 2. When receiving the IP packet from the VoIP terminals 3 and 4, the multiplex transmission device 11 multiplexes the plurality of IP packets and transmits the multiplexed IP packet to the multiplex transmission device 10. The IP packet is decomposed and transmitted to the VoIP terminals 3 and 4.
[0012]
Next, the operation will be described.
For example, when the user of the VoIP terminal 1 dials the telephone number of the VoIP terminal 4, the VoIP terminal 1 sends a connection request packet (control packet) including the destination telephone number (the telephone number of the VoIP terminal 4) to the multiplex control device 9. Send.
When receiving the connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) from the VoIP terminal 1, the multiplex control device 9 transfers the connection request packet to the communication control device 8 and temporarily stores the connection request packet. To save.
[0013]
Upon receiving the connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) from the multiplex control device 9, the communication control device 8 searches for an IP address corresponding to the telephone number of the VoIP terminal 4, and searches the search result. It returns to the multiplex control device 9.
The communication control device 8 manages the telephone numbers and IP addresses of the VoIP terminals 1 to 4 connected to the local IP networks 5 and 6.
[0014]
Upon receiving the IP address searched by the communication control device 8, the multiplex control device 9 refers to the IP address, specifies the multiplex transmission device 11 that is responsible for the VoIP terminal 4 that is the destination, and specifies a connection request packet. The multiplex transmission device 10 that controls the VoIP terminal 1 that is the source of the transmission is specified.
Then, the multiplex control device 9 includes the IP address of the multiplex transmission device 11 that controls the VoIP terminal 4 in the connection request packet received from the VoIP terminal 1 (the IP address of the VoIP terminal 1 originally included in the connection request packet). Is rewritten to the IP address of the multiplex transmission device 11), and the connection request packet is transmitted to the VoIP terminal 4.
[0015]
When the VoIP terminal 4 receives the connection request packet from the multiplex control device 9, if it is in a state where it can be connected at present (for example, a state where it is not communicating with another VoIP terminal), the VoIP terminal 4 multiplexes the connection permission packet (control packet). Transmit to the device 9.
When receiving the connection permission packet from the VoIP terminal 4, the multiplex control device 9 transfers the connection permission packet to the communication control device 8.
Then, the multiplex control device 9 includes the IP address of the multiplex transmission device 10 that controls the VoIP terminal 1 as the connection request source in the connection permission packet received from the VoIP terminal 4 (the VoIP terminal originally included in the connection permission packet). 4) is rewritten to the IP address of the multiplex transmission device 10), and the connection permission packet is transmitted to the VoIP terminal 1.
[0016]
When transmitting the connection permission packet to the VoIP terminal 1 as described above, the multiplex control device 9 transmits the multiplex information to the multiplex transmission devices 10 and 11.
That is, the multiplex transmission apparatus 10 receives the IP address of the VoIP terminal 1 that is the source of the IP packet, the IP address of the multiplex transmission apparatus 11 that is the destination of the multiplexed packet, and the final The IP address of the VoIP terminal 4 that is the transfer destination is notified.
Also, the multiplex transmission device 11 receives the IP address of the VoIP terminal 4 that is the source of the IP packet, the IP address of the multiplex transmission device 10 that is the destination of the multiplexed packet, and the final The IP address of the transfer destination VoIP terminal 1 is notified.
[0017]
Upon receiving the connection permission packet including the IP address of the multiplex transmission device 10 from the multiplex control device 9, the VoIP terminal 1 recognizes the establishment of communication and recognizes that the transmission destination of the voice packet is the multiplex transmission device 10. Thereafter, the voice packet is transmitted to the multiplex transmission device 10.
When receiving a voice packet from the VoIP terminal 1, the multiplex transmission device 10 multiplexes the voice packet. However, when a voice packet is also received from a VoIP terminal other than the VoIP terminal 1 (for example, the VoIP terminal 2), the short packets are extracted from the plurality of voice packets, the short packets having the same destination multiplex transmission device are collected, and those short packets are collected. The short packet is multiplexed again to form an IP packet.
However, in the example of FIG. 1, since only the multiplex transmission device 11 exists other than the multiplex transmission device 10, all the destination multiplex transmission devices of the short packets extracted from the plurality of voice packets are transmitted to the multiplex transmission device 11. Become. If there are a plurality of multiplex transmission apparatuses other than the multiplex transmission apparatus 10, short packets having the same destination multiplex transmission apparatus are collected and multiplexed again for each of the multiplex transmission apparatuses.
[0018]
FIG. 2 shows a format of a packet multiplexed by the multiplex transmission device 10, and a header of a short packet constituting the packet is provided with a destination VoIP terminal address, a serial number, and an encoding type. The destination VoIP terminal address is the IP address of the VoIP terminal 4 that is the final transfer destination, and a serial number is assigned a numerical value that increases by one with respect to the short packet of the same transfer destination, and the loss of the short packet is detected. Used for The encoding type is obtained by encoding the type of the encoding method of audio data.
[0019]
Then, the multiplex transmission device 10 refers to the multiplexing information transmitted from the multiplexing control device 9, recognizes the IP address of the multiplex transmission device 11 to which the multiplexed packet is transmitted, and multiplexes the multiplexed packet. The data is transmitted to the transmission device 11.
Upon receiving the multiplexed packet from the multiplex transmission device 10, the multiplex transmission device 11 extracts the voice packet by decomposing the multiplexed packet and refers to the multiplex information transmitted from the multiplex control device 9. Then, the IP address of the VoIP terminal 4 that is the final destination of the voice packet is recognized.
Then, the multiplex transmission device 11 transmits the voice packet to the VoIP terminal 4 that is the final transfer destination.
[0020]
On the other hand, when transmitting the connection permission packet to the multiplex control device 9, the VoIP terminal 4 recognizes that the transmission destination of the voice packet is the multiplex transmission device 11, and thereafter transmits the voice packet to the multiplex transmission device 11.
When receiving a voice packet from the VoIP terminal 4, the multiplex transmission device 11 multiplexes the voice packet. However, when a voice packet is also received from a VoIP terminal other than the VoIP terminal 4 (for example, the VoIP terminal 3), the short packets are extracted from the plurality of voice packets, the short packets having the same destination multiplex transmission device are collected, and the short packets are collected. The short packet is multiplexed again to form an IP packet.
However, in the example of FIG. 1, since only the multiplex transmission device 10 exists other than the multiplex transmission device 11, all the destination multiplex transmission devices of the short packets extracted from the plurality of voice packets are transmitted to the multiplex transmission device 10. Become. If there are a plurality of multiplex transmission devices other than the multiplex transmission device 11, short packets having the same destination multiplex transmission device are collected and multiplexed again for each of the multiplex transmission devices.
[0021]
Then, the multiplex transmission device 11 refers to the multiplexing information transmitted from the multiplex control device 9, recognizes the IP address of the multiplex transmission device 10 to which the multiplexed packet is transmitted, and multiplexes the multiplexed packet. The data is transmitted to the transmission device 10.
Upon receiving the multiplexed packet from the multiplex transmission device 11, the multiplex transmission device 10 decomposes the multiplexed packet to extract a voice packet, and refers to the multiplex information transmitted from the multiplex control device 9. Then, the IP address of the VoIP terminal 1 which is the final transfer destination of the voice packet is recognized.
Then, the multiplex transmission device 10 transmits the voice packet to the VoIP terminal 1 which is the final transfer destination.
[0022]
As a result, packet communication between the VoIP terminal 1 and the VoIP terminal 4 is established. To establish such packet communication, the multiplexing control device 9 sets the correspondence between the VoIP terminals 1 to 4 and the multiplex transmission devices 10 and 11. Must be recognized in advance. Therefore, when the multiplex transmission apparatuses 10 and 11 are installed on the network, the IP addresses of the VoIP terminals 1 to 4 and the IP addresses of the multiplex transmission apparatuses 10 and 11 are set in the multiplex control apparatus 9.
Here, it is not impossible to set the correspondence between the IP addresses of all the VoIP terminals 1 to 4 and the IP addresses of the connection destination multiplex transmission apparatuses 10 and 11, but in the first embodiment, The correspondence is set by such a method.
[0023]
For example, the IP addresses of the VoIP terminals 1 and 2 connected to the local IP network 5 are set in the range of “abc0” to “abc255”, and the connection to the local IP network 6 is established. The IP addresses of the VoIP terminals 3 and 4 are set in a range from “def0” to “def255”. Here, a, b, c, d, e, and f specify the upper three bytes of the IP address, and the lower one byte is an integer in the range from “0” to “255”.
Thus, if the IP addresses of the VoIP terminals 1 to 4 are set, the VoIP terminals 1 and 2 whose IP addresses are in the range of “abc0” to “abc255” are multiplexed. The VoIP terminals 3 and 4 corresponding to the transmission device 10 and having the IP addresses in the range of “def0” to “def255” immediately determine that they correspond to the multiplex transmission device 11. can do.
In this case, the multiplex control device 9 can easily search for the corresponding multiplex transmission devices 10 and 11 from the IP addresses of the VoIP terminals 1 to 4.
[0024]
In the first embodiment, the case where the VoIP terminal 1 and the VoIP terminal 4 transmit and receive a packet has been described. However, for example, the same multiplex transmission is performed as in the case where the VoIP terminal 1 and the VoIP terminal 2 transmit and receive a packet. When transmitting and receiving packets between VoIP terminals controlled by the device 10, the multiplex control device 9 does not transmit multiplex information to the multiplex transmission devices 10 and 11. In such a case, the VoIP terminal 1 and the VoIP terminal 2 communicate voice packets directly without passing through the multiplex transmission devices 10 and 11.
[0025]
As is clear from the above, according to the first embodiment, when a connection request including a destination telephone number is received from a certain VoIP terminal, the communication control device 8 that searches for an IP address corresponding to the destination telephone number, The multiplex transmission device 11 or 10 that controls the VoIP terminal associated with the IP address searched by the communication control device 8 and the multiplex transmission device 10 or 11 that controls the VoIP terminal that is the source of the connection request are specified, and both multiplex transmission devices are specified. Since the multiplex transmission devices 11 and 10 and the multiplex control device 9 for notifying the IP addresses of the VoIP terminals are provided to the multiplex transmission devices 10 and 11, even when a large number of VoIP terminals are connected to the network, the voice is not transmitted. Thus, there is an effect that the overhead of the IP packet can be reduced without increasing the transmission delay.
That is, since the VoIP terminals 1 to 4 do not need to store the IP addresses of the other VoIP terminals connected to the network, even when a large number of VoIP terminals are connected to the network, the multiplex transmission device 11, 4 Packet multiplexing via 10 can be implemented. Therefore, it is possible to reduce the overhead of the IP packet without causing an increase in voice transmission delay.
[0026]
According to the first embodiment, when a plurality of packets are multiplexed, the payload in the packet is composed of a plurality of short packets, and the address, serial number, and voice code of the destination terminal device are added to the header of the short packet. Since it is configured to include the identification information of the encryption scheme, it is possible to apply the existing VoIP signaling protocol.
The connection method of the voice communication path and the message format exchanged between the VoIP terminal and the communication control device 8 use a communication control method called VoIP signaling. However, the IETF (Internet Engineering Task), a standardization organization related to the Internet, is used. Force) standardizes the communication control method. For example, there are standards such as SIP (Session Initiate Protocol) which describes overall communication control related to VoIP, and MEGACO (MEdia GATEWAY Control Protocol) which is a protocol in which the communication control device 8 controls VoIP terminals and gateways. I do. Therefore, protocols such as SIP and MEGACO can be applied.
[0027]
According to the first embodiment, the multiplex transmission device that controls the VoIP terminal related to the IP address searched by the communication control device 8 and the multiplex transmission device that controls the VoIP terminal that is the transmission source of the connection request are the same multiplex transmission device. In the case of a transmission apparatus, the VoIP terminal connected to the same local IP network is configured so that packet communication is performed directly between VoIP terminals to be communicated without notifying the IP address to the multiplex transmission apparatus. This has the effect of increasing the efficiency of packet communication between terminals.
[0028]
According to the first embodiment, when the multiplex transmission device is connected to the network, the IP address of the multiplex transmission device and the IP address of the VoIP terminal under the control of the multiplex transmission device are set in the multiplex control device 9. With such a configuration, there is an effect that packet communication can be established between all VoIP terminals connected to the network.
According to the first embodiment, since the upper address of the IP address of the multiplex transmission device and the upper address of the IP address of the VoIP terminal are configured to be common, the corresponding multiplex transmission device is determined from the IP address of the VoIP terminal. There is an effect that can be easily searched for.
[0029]
Embodiment 2 FIG.
FIG. 3 is a configuration diagram showing a packet communication system according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG. 1 denote the same or corresponding parts, and a description thereof will be omitted.
When receiving the connection request including the telephone number of the VoIP terminal 2 from the VoIP terminal 1, for example, the communication control device 12 searches for the IP address of the VoIP terminal 2 and receives the connection request including the telephone numbers of the VoIP terminals 3 and 4. The IP address of the communication control device 13 that controls the VoIP terminals 3 and 4 is searched. When receiving the connection request including the telephone number of the VoIP terminal 4 from the VoIP terminal 3, for example, the communication control device 13 searches for the IP address of the VoIP terminal 4 and receives the connection request including the telephone numbers of the VoIP terminals 1 and 2. The IP address of the communication control device 12 that controls the VoIP terminals 1 and 2 is searched.
[0030]
When the communication control device 12 searches for the IP address of the communication control device 13, the multiplex control device 14 and the multiplex transmission device 11 that manages the VoIP terminal 1 that is the source of the connection request when the communication control device 12 searches for the IP address of the communication control device 13. 10 and notifies the multiplex transmission apparatus 10 of the IP address of the multiplex transmission apparatus 11 and the IP address of the VoIP terminal 4. When the communication control device 13 searches for the IP address of the communication control device 12, the multiplex control device 15 and the multiplex transmission device 10 that manages the VoIP terminal 3 that is the source of the connection request. 11 is notified, and the multiplex transmission apparatus 11 is notified of the IP address of the multiplex transmission apparatus 10 and the IP address of the VoIP terminal 1.
[0031]
Next, the operation will be described.
For example, when the user of the VoIP terminal 1 dials the telephone number of the VoIP terminal 4, the VoIP terminal 1 transmits a connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) to the multiplex control device 14.
When receiving the connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) from the VoIP terminal 1, the multiplex control device 14 transfers the connection request packet to the communication control device 12, and temporarily stores the connection request packet. To save.
[0032]
Upon receiving the connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) from the multiplex control device 14, the communication control device 12 searches for an IP address corresponding to the telephone number of the VoIP terminal 4. That is, since the VoIP terminal 4 is not the VoIP terminal under its control, the VoIP terminal 4 searches for the IP address of the communication control device 13 that has the control of the VoIP terminal 4, and returns the search result to the multiplex control device 14.
However, if the destination telephone number is the telephone number of a VoIP terminal (for example, the VoIP terminal 2) under its control, the IP address of the VoIP terminal 2 is searched, and the search result is transmitted to the VoIP terminal 2 as the transmission destination. Send to
Note that the communication control device 12 manages the telephone numbers and IP addresses of the VoIP terminals 1 to 4 connected to the local IP networks 5 and 6 and the IP address of the communication control device 13.
[0033]
Upon receiving the IP address of the communication control device 13 from the communication control device 12, the multiplex control device 14 specifies the multiplex transmission device 11 corresponding to the communication control device 13, and also specifies the VoIP terminal 1 as the transmission source of the connection request packet. Is specified.
Then, the multiplex control device 14 transmits the connection request packet to the multiplex control device 15 including the IP address of the multiplex transmission device 10 that controls the source VoIP terminal 1 in the connection request packet received from the VoIP terminal 1. .
The multiplex control device 14 recognizes in advance the IP address of the multiplex control device 15 that controls the communication control device 13.
[0034]
Upon receiving the connection request packet including the IP address of the multiplex transmission device 10 from the multiplex control device 14, the multiplex control device 15 temporarily stores the IP address of the multiplex transmission device 10, and performs multiplex transmission from the connection request packet. The IP address of the device 10 is deleted, and the connection request packet after the deletion is transmitted to the communication control device 13.
Upon receiving the connection request packet including the destination telephone number (telephone number of the VoIP terminal 4) from the multiplex control device 15, the communication control device 13 searches for an IP address corresponding to the telephone number of the VoIP terminal 4.
[0035]
Upon receiving the IP address searched by the communication control device 13, the multiplex control device 15 refers to the IP address, specifies the multiplex transmission device 11 that is in charge of the VoIP terminal 4 as the destination, and sets a connection request packet. The multiplex transmission device 10 that controls the VoIP terminal 1 that is the source of the transmission is specified.
Then, the multiplex control device 15 includes the IP address of the multiplex transmission device 11 that controls the VoIP terminal 4 in the connection request packet received from the multiplex control device 14 (the IP address of the VoIP terminal 1 originally included in the connection request packet). The address is rewritten to the IP address of the multiplex transmission device 11), and the connection request packet is transmitted to the VoIP terminal 4.
[0036]
When the VoIP terminal 4 receives the connection request packet from the multiplex control device 15, the VoIP terminal 4 transmits a connection permission packet to the multiplex control device 15 if it is currently in a connectable state (for example, not in communication with another VoIP terminal). I do.
When receiving the connection permission packet from the VoIP terminal 4, the multiplex control device 15 transfers the connection permission packet to the communication control device 13, and also converts the IP address of the multiplex transmission device 11 that controls the VoIP terminal 4 into the connection permission packet. And transfers it to the multiplex control device 14.
[0037]
Upon receiving the connection permission packet including the IP address of the multiplex transmission device 11 from the multiplex control device 15, the multiplex control device 14 temporarily stores the IP address of the multiplex transmission device 11, and performs multiplex transmission from the connection permission packet. The IP address of the device 11 is deleted, and the connection request packet after the deletion is transmitted to the communication control device 12.
Then, the multiplex control device 14 includes the IP address of the multiplex transmission device 10 that controls the VoIP terminal 1 that is the connection request source in the connection permission packet received from the multiplex control device 15 (the VoIP originally included in the connection permission packet). The IP address of the terminal 4 is rewritten to the IP address of the multiplex transmission device 10), and the connection permission packet is transmitted to the VoIP terminal 1.
[0038]
When transmitting the connection permission packet to the VoIP terminal 1 as described above, the multiplex control device 14 transmits the multiplex information to the multiplex transmission device 10.
That is, the multiplex transmission device 10 receives the IP address of the VoIP terminal 1 that is the transmission source of the IP packet and the IP address of the multiplex transmission device 11 that is the transmission destination of the multiplexed packet (from the connection permission packet) as multiplexing information. The IP address of the VoIP terminal 4 that is the final transfer destination is notified.
[0039]
The multiplex control device 14 transmits the multiplex information to the multiplex transmission device 11.
That is, the multiplex transmission device 11 provides the multiplexing information with the IP address of the VoIP terminal 4 that is the source of the IP packet and the IP address of the multiplex transmission device 10 that is the transmission destination of the multiplexed packet (from the connection request packet). The IP address of the VoIP terminal 1 that is the final transfer destination is notified.
[0040]
Hereinafter, the VoIP terminal 1 transmits and receives a packet to and from the VoIP terminal 4 via the multiplex transmission devices 10 and 11, but the operation of transmitting and receiving the packet is the same as that of the first embodiment, and thus the description is omitted.
As a result, packet communication between the VoIP terminal 1 and the VoIP terminal 4 is established. To establish such packet communication, the multiplex control device 14 needs to correspond to the VoIP terminals 1 and 2 and the multiplex transmission device 10. Must be recognized in advance, and the multiplex control device 15 needs to recognize the correspondence between the VoIP terminals 3 and 4 and the multiplex transmission device 11 in advance.
[0041]
Therefore, when the multiplex transmission device 10 is installed on the network, the multiplex control device 14 sets the IP addresses of the VoIP terminals 1 and 2 and the IP address of the multiplex transmission device 10. When the multiplex transmission device 11 is installed on the network, the multiplex control device 15 sets the IP addresses of the VoIP terminals 3 and 4 and the IP address of the multiplex transmission device 11. However, the setting method of the IP address is the same as that of the first embodiment, and the description is omitted.
The multiplex control device 14 needs to recognize the IP address of the multiplex control device 15 in advance, and the multiplex control device 15 needs to recognize the IP address of the multiplex control device 14 in advance. This is set when the multiplex control devices 14 and 15 are installed on the network.
[0042]
In the second embodiment, the case where the VoIP terminal 1 and the VoIP terminal 4 transmit and receive a packet has been described. When transmitting and receiving packets between VoIP terminals controlled by the device 10, the multiplex control device 14 does not transmit multiplex information to the multiplex transmission device 10. In such a case, the VoIP terminal 1 and the VoIP terminal 2 communicate voice packets directly without passing through the multiplex transmission devices 10 and 11.
[0043]
As is clear from the above, according to the second embodiment, when a plurality of communication control devices and multiplex control devices are installed on a network, each communication control device determines the address of another communication control device from the destination telephone number. Since each multiplex control device is configured to search and specify the multiplex transmission device corresponding to the other communication control device and the multiplex transmission device having jurisdiction over the terminal device that has transmitted the connection request, the communication control device and the multiplex control device In the case where a plurality of are installed on the network, the same effect as in the first embodiment can be obtained.
[0044]
Embodiment 3 FIG.
In the second embodiment, the local IP networks 5 and 6 have multiplex controllers 14 and 15, respectively. However, as shown in FIG. May not be installed. In FIG. 4, VoIP terminals 21 and 22 are VoIP terminals similar to VoIP terminal 1, communication control device 24 is a communication control device similar to communication control device 12, and multiplex transmission device 25 is a multiplex transmission device similar to multiplex transmission device 10. It is a transmission device.
[0045]
In the third embodiment, for example, when the VoIP terminal 1 performs packet communication with the VoIP terminals 21 and 22, the multiplex control device 14 transmits a control packet (connection request packet, connection permission packet) received from the VoIP terminal 1. The control packet is transferred to the VoIP terminals 21 and 22 without changing the included IP address of the source VoIP terminal 1 to the IP address of the multiplex transmission device 10 under its control.
Specifically, it is as follows.
[0046]
For example, when the VoIP terminal 1 performs packet communication with the VoIP terminal 4 as described in the second embodiment, the VoIP terminal 1 transmits the packet to the VoIP terminal 4 via the multiplex transmission apparatuses 10 and 11. Perform communication.
However, when the VoIP terminal 1 performs packet communication with the VoIP terminal 21, control packets received from the local IP network 23 by the multiplex control device 14 are multiplexed because no multiplex control device is installed in the local IP network 23. The IP address of the transmission device 25 is not added. Therefore, the multiplex control device 14 cannot obtain the multiplex information to be notified to the multiplex transmission device 10 under its control, and cannot perform packet communication via the multiplex transmission device as in the second embodiment. .
[0047]
Therefore, in the third embodiment, for example, when the VoIP terminal 1 performs packet communication with the VoIP terminals 21 and 22, the multiplex control device 14 controls the control packet (the connection request packet and the connection permission packet) received from the VoIP terminal 1. ), The control packet is transferred to the VoIP terminals 21 and 22 without changing the IP address of the transmission source VoIP terminal 1 included in the source VoIP terminal 1 to the IP address of the multiplex transmission device 10 under its control.
As a result, the VoIP terminal 1 directly performs packet communication with the VoIP terminals 21 and 22 without passing through the multiplex transmission devices 10 and 25.
According to the third embodiment, even if the VoIP terminals 21 and 22 connected to the local IP network 23 in which the multiplex control device is not installed are communication targets, an effect that packet communication can be performed is achieved. .
[0048]
Embodiment 4 FIG.
In the third embodiment, the case where the multiplex control device is not installed in the local IP network 23 is shown. However, as shown in FIG. 5, a new multiplex control device 26 is added to the local IP network 23. Is also good.
As described above, when a new multiplex control device 26 is added to the local IP network 23, the multiplex control device 26 is notified to the existing multiplex control devices 14 and 15 that it has been added.
Specifically, it is as follows.
[0049]
When the multiplex control device 26 is added, the correspondence between the VoIP terminals 21 and 22 connected to the local IP network 23 and the multiplex transmission device 25 needs to be recognized in advance, as described above. The IP addresses 21 and 22 and the IP address of the multiplex transmission device 25 are set in the multiplex control device 26.
In the multiplex control device 26, the IP addresses of the multiplex control devices 14 and 15 are also set.
[0050]
On the other hand, when the multiplex control device 26 starts operating, it notifies the multiplex control devices 14 and 15 that the own device has been added.
Accordingly, the multiplex control devices 14 and 15 recognize that the multiplex control device 26 has been added to the network, and acquire the IP address of the multiplex control device 26.
According to the fourth embodiment, when the multiplex control device 26 is added to the network, the IP address of the multiplex control device 26 for the multiplex control devices 14 and 15 can be automatically set.
[0051]
Embodiment 5 FIG.
In the first to fourth embodiments, the terminal device is a VoIP terminal. However, the present invention is not limited to this. For example, the terminal device may be a gateway that accommodates a telephone line.
In this case, since the channel number of the destination telephone line is required for the header of the multiplexed short packet, the payload of the packet output by the multiplex transmission apparatuses 10, 11 and the like is as shown in FIG.
[0052]
【The invention's effect】
As described above, according to the present invention, when a connection request including a destination telephone number is received from a certain terminal device, the communication control device that searches for an address corresponding to the destination telephone number, and the communication control device that searches for the address corresponding to the destination telephone number. Specify the multiplex transmission device that controls the terminal device related to the address and the multiplex transmission device that controls the terminal device that is the source of the connection request, and notify both multiplex transmission devices of the addresses of the multiplex transmission device and the terminal device of the other party. And a multiplexing control device that provides a multiplex control device, so that even if a large number of terminal devices are connected to the network, the overhead of IP packets can be reduced without causing an increase in voice transmission delay. .
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a packet communication system according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a format of a packet multiplexed by a multiplex transmission device.
FIG. 3 is a configuration diagram showing a packet communication system according to a second embodiment of the present invention.
FIG. 4 is a configuration diagram showing a packet communication system according to a third embodiment of the present invention.
FIG. 5 is a configuration diagram showing a packet communication system according to a fourth embodiment of the present invention.
FIG. 6 is an explanatory diagram showing a format of a packet multiplexed by the multiplex transmission device.
[Explanation of symbols]
1-4 VoIP terminal (terminal device), 5, 6 local IP network, 7 IP backbone network, 8 communication control device, 9 multiplex control device, 10, 11 multiplex transmission device, 12 communication control device, 13 communication control device, 14 Multiplex control device, 15 Multiplex control device, 21, 22 VoIP terminal, 23 Local IP network, 24 Communication control device, 25 Multiplex transmission device, 26 Multiplex control device.

Claims (12)

When a packet is received from a plurality of terminal devices, a plurality of packets are multiplexed and transmitted to another multiplex transmission device. On the other hand, when a multiplexed packet is received from another multiplex transmission device, the multiplexed packet is decomposed. In a packet communication system including a multiplex transmission device for transmitting to a terminal device, a communication control device that searches for an address corresponding to the destination telephone number when receiving a connection request including a destination telephone number from a certain terminal device; A multiplex transmission device that controls the terminal device related to the address searched by the communication control device and a multiplex transmission device that controls the terminal device that is the transmission source of the connection request are specified, and the multiplex transmission device of the other party is assigned to both multiplex transmission devices. A packet communication system comprising: a transmission device; and a multiplex control device for notifying an address of a terminal device. 2. The multiplex transmission apparatus according to claim 1, wherein when multiplexing a plurality of packets, a payload in the packets is composed of a plurality of short packets, and the header of the short packets includes an address of a destination terminal device. The packet communication system according to claim 1. 2. The packet communication device according to claim 1, wherein the multiplex transmission device, when multiplexing the plurality of packets, comprises a payload in the packets from a plurality of short packets, and includes a serial number in a header of the short packets. system. The multiplex transmission device, when multiplexing a plurality of packets, configures a payload in the packets from a plurality of short packets, and includes identification information of a voice coding method in a header of the short packets. 2. The packet communication system according to 1. The multiplex control device, when the multiplex transmission device that controls the terminal device related to the address searched by the communication control device and the multiplex transmission device that controls the terminal device that is the source of the connection request are the same multiplex transmission device, 2. The packet communication system according to claim 1, wherein a packet communication is performed directly between the communication target terminal devices without notifying the address to the multiplex transmission device. 2. The packet communication according to claim 1, wherein when the multiplex transmission device is connected to the network, an address of the multiplex transmission device and an address of a terminal device controlled by the multiplex transmission device are set in the multiplex control device. system. 7. The packet communication system according to claim 6, wherein the multiplex control device shares an upper address of the address of the multiplex transmission device and an upper address of the address of the terminal device. When a plurality of communication control devices and multiplex control devices are installed on the network, each communication control device searches for the address of another communication control device from the destination telephone number, and each multiplex control device corresponds to another communication control device. 2. The packet communication system according to claim 1, wherein a multiplex transmission device that controls the multiplex transmission device and a terminal device that transmits a connection request is specified. 9. The packet communication system according to claim 8, wherein the multiplex control device sets an address of another multiplex control device in advance. 9. The packet communication system according to claim 8, wherein when transmitting a packet to another multiplex control device, the multiplex control device adds an address of the multiplex transmission device under its control to the packet. If the multiplexing control device that controls the destination terminal device is not installed, the multiplexing control device determines the address of the transmission source terminal device included in the packet received from the transmission source terminal device. 9. The packet communication system according to claim 8, wherein the packet is transferred to the destination terminal device without changing the address of the transmission device. 9. The packet communication system according to claim 8, wherein when a new multiplex control device is added to the network, the new multiplex control device is notified to the existing multiplex control device that it has been added.

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