JP4167414B2 - Access network system and control method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an access network system for connecting a subscriber exchange to a terminal device such as a subscriber telephone and a control method therefor.
[0002]
[Prior art]
A public network for providing a uniform communication service to an unspecified number of subscribers is divided into an access system and a relay system with the subscriber exchange as a boundary. The access system connects the terminal equipment used by subscribers such as subscriber telephones and information processing equipment to the subscriber exchange, and the relay system is a local network that provides communication services in the city area, and a long-distance communication service. It is a hierarchically constructed network that includes a long-distance network that provides services and an international network that provides communication services with foreign countries. Hereinafter, the access system is referred to as an access network system, and the relay system is referred to as a circuit switching network.
[0003]
FIG. 6 is a block diagram showing an example of the configuration of the access network system.
[0004]
As shown in FIG. 6, the access network system includes an access network device 4 that collects lines with a plurality of terminal devices 1 ₁ to 1 _n (n is a positive number) used by a subscriber, and the access network device 4. And a subscriber exchange 5 for transferring data received from the circuit switching network 6 to the access network device 4 as well as transferring data received from the terminal device to a predetermined transmission destination in the circuit switching network 6. . Note that the terminal devices 1 ₁ to 1 _n and the access network device 4 are connected to each other by an electric wire such as an analog metallic cable or a CATV cable, a wireless communication means, or the like.
[0005]
Data communication is performed between the access network apparatus 4 and the subscriber exchange 5 in accordance with the layer 2 protocol. For example, when the access network apparatus 4 and the subscriber exchange 5 are connected by the V5 interface defined by ITU-T (International Telecommunication Union-Telecommunication Sector), LAPV5 (Link Access protocol V5) is used as the layer 2. Applicable.
[0006]
Normally, in the V5 interface, devices are connected by a PCM Link of 2 Mbps / 1 line, and a bandwidth of 64 kbps is assigned to one communication channel by dividing the 2 Mbps bandwidth into 32. A specific channel among the 32 divisions is used for transmission / reception of control data such as outgoing call, incoming call, and failure notification, and other channels are used for transmission / reception of user data such as voice and data.
[0007]
In the conventional access network system, when a call is made from a terminal device or when a call is made to the terminal device, one communication channel is assigned to each terminal device, and the access network device 4 and the subscriber Between the exchanges 5, the data for the plurality of channels are multiplexed and transmitted / received by a TDM (Time Division Multiplexing) method.
[0008]
[Problems to be solved by the invention]
As described above, in the conventional access network system, the bandwidth can be allocated only in units of 64 kbps for each terminal device. Therefore, when data is transferred at a speed other than 64 kbps, the bandwidth cannot be efficiently allocated. There was a problem that wasted.
[0009]
In the conventional access network system, if there is a call from a terminal device or an incoming call to the terminal device, a communication channel of a predetermined time slot is assigned to each terminal device, and the terminal device transmits and receives calls and data. There is also a problem that the bandwidth is wasted because the bandwidth is ensured even when not being performed.
[0010]
The present invention has been made to solve the above-described problems of the prior art, and an access network capable of efficiently using a communication band by preventing wasteful allocation and wasteful use. It is an object to provide a system and a control method thereof.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, an access network system of the present invention is an access network system for connecting a terminal device used by a subscriber and a circuit switching network which is a relay system in a public network,
An access network device that packetizes and transmits data received from the terminal device, depackets the received packetized data, and forwards the data to the terminal device;
Packetized data sent from the access network device is depacketized and transferred to a predetermined destination in the circuit switched network, and data received from the circuit switched network is packetized and transferred to the access network device A subscriber exchange to
It is the structure which has.
[0012]
At this time, the access network device
A voice encoding processing unit that encodes voice received from the terminal device and decodes encoded voice data received from the subscriber exchange;
The subscriber exchange is
A voice encoding processing unit may be provided that encodes voice received from the circuit switched network and decodes encoded voice data received from the access network apparatus.
[0013]
On the other hand, the control method of the access network system of the present invention includes an access network device that collects lines with a terminal device used by a subscriber,
The data received from the terminal device received via the access network device is transferred to a predetermined transmission destination in a circuit switching network which is a relay system in a public network, and the data received from the circuit switching network is transferred to the access network A subscriber exchange to transfer to the device;
An access network system control method for connecting the terminal device and the circuit switching network,
The access network device is
Data received from the terminal device is packetized and transferred to the subscriber switch, packetized data received from the subscriber switch is depacketized and transferred to the terminal device,
The subscriber exchange is
The packetized data received from the access network device is depacketized and transferred to the circuit switched network, and the data received from the circuit switched network is packetized and transferred to the access network device.
[0014]
At this time, the access network device
Encode the voice received from the terminal device, decode the encoded voice data received from the subscriber exchange,
The subscriber exchange is
The voice received from the circuit switched network may be encoded, and the encoded voice data received from the access network device may be decoded.
[0015]
(Function)
In the access network system and the control method as described above, the data transfer rate is flexibly changed not only in units of 64 kbps by mutually transmitting and receiving packetized data between the access network apparatus and the subscriber exchange. It becomes possible. Further, since packets are not transmitted / received when there is no data to be transmitted / received, the bandwidth is not wasted.
[0016]
Furthermore, the encoded voice data can be compressed by encoding / decoding the voice data in the access network device and the subscriber exchange, respectively.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Next, the present invention will be described with reference to the drawings.
[0018]
(First embodiment)
FIG. 1 is a block diagram showing the configuration of the first embodiment of the access network apparatus of the present invention, and FIG. 2 is a block diagram showing the configuration of the first embodiment of the subscriber exchange of the present invention. The configuration of the access network system is the same as the conventional configuration shown in FIG.
[0019]
In the access network system of the present invention, a method is proposed in which user data and control data are packetized and transmitted and received between the access network apparatus and the subscriber exchange.
[0020]
As shown in FIG. 1, the access network device of the present invention is a concentrator for concentrating a plurality of subscriber circuits 10 ₁ to 10 _n (n is a positive number) that is an interface with a terminal device, and the subscriber circuit. Layer for exchanging control data between the circuit 12, the switch unit 13 for switching the data from the terminal device or the subscriber switch in units of 64 kbps according to the transmission destination, and the subscriber switch according to the layer 2 protocol (2) Extraction / insertion unit 14, packet termination processing unit 15 for packetizing data to be transmitted to the subscriber switch and depacketizing data received from the subscriber switch, and bandwidth required before packet transfer to the subscriber A controller 17 that reserves the exchange and controls operations of the switch unit 13, the layer 2 extraction / insertion unit 14, and the bandwidth control unit 16. A configuration and a band control section 16 for monitoring whether a valid bandwidth available after bandwidth reservation has been made.
[0021]
As shown in FIG. 2, the subscriber exchange of the present invention includes a packet termination processing unit 20 for depacketizing a packet received from an access network apparatus or packetizing data to be transmitted to the access network apparatus, and a layer 2 protocol. A layer 2 extraction / insertion unit 22 for exchanging control data with the access network device according to the above, a switch unit 23 for switching data from the terminal device or the circuit switching network in units of 64 kbps according to the transmission destination, The trunk interface unit 24, which is an interface with the circuit switching network, reserves a necessary band before packet transfer, and controls operations of the band control unit 21, the layer 2 extraction / insertion unit 22, and the switch unit 23, respectively. Whether or not the control unit 25 and effective bandwidth use are made after the bandwidth reservation It is configured to have a bandwidth control unit 21 to monitor.
[0022]
The subscriber circuit, the concentrator circuit 12, the switch unit 13, and the layer 2 extraction / insertion unit 14 included in the access network device are configured by, for example, an existing integrated circuit device. The packet termination processing unit 15, the bandwidth control unit 16, and the control unit 17 are configured by an information processing apparatus including a CPU and a recording medium on which a program for causing the CPU to execute predetermined processing is recorded. The CPU executes the processes of the packet termination processing unit 15, the bandwidth control unit 16, and the control unit 17 described below according to the program recorded on the recording medium.
[0023]
Similarly, the trunk interface unit 24, the switch unit 23, and the layer 2 extraction / insertion unit 22 included in the subscriber exchange are configured by existing integrated circuit devices. The packet termination processing unit 20, the bandwidth control unit 21, and the control unit 25 are configured by an information processing apparatus including a CPU and a recording medium on which a program for causing the CPU to execute predetermined processing is recorded. The CPU executes the processes of the packet termination processing unit 20, the bandwidth control unit 21, and the control unit 25 described below according to the program recorded on the recording medium.
[0024]
The packet is a header including a source and destination (destination) address in a payload made up of user data or control data, like an IP (Internet Protocol) packet, an ATM (Asynchronous Transfer Mode) cell, or a frame relay. It is generated by giving. In the case of the access network system of this embodiment, since packets are transmitted and received only between the access network device and the subscriber exchange, the header needs to include at least the source address and the destination address, and the priority of the packet Since information indicating the order is not necessary, the header can be compressed.
[0025]
Next, the operation of the access network system of the present invention in such a configuration will be described.
[0026]
When data is transmitted / received between devices using a packet, it is necessary to determine whether transmission / reception is possible at a transfer rate requested in advance. Hereinafter, a case where such a bandwidth reservation is performed by the subscriber exchange will be described as an example.
[0027]
First, when an arbitrary terminal device makes a call, the access network device receives the call message by the corresponding subscriber circuit and transfers it to the control unit 17 via the line concentrator circuit 12 and the switch unit 13. The control unit 17 generates a bandwidth reservation message for requesting bandwidth reservation and transmits it to the layer 2 extraction / insertion unit 14. The layer 2 extraction / insertion unit 14 transfers the bandwidth reservation message received from the control unit 17 to the packet termination processing unit 15, packetizes it by the packet termination processing unit 15, and transmits the generated control packet to the subscriber exchange. Note that the bandwidth of the control packet is reserved in advance.
[0028]
The subscriber exchange receives the control packet transmitted from the access network apparatus by the packet termination processing unit 20, first extracts a bandwidth reservation message from the control packet by the layer 2 extraction / insertion unit 22, and transfers it to the control unit 25. To do. The control unit 25 determines whether or not the bandwidth requested from the generated call can be reserved. If the bandwidth can be reserved, the control unit 25 informs the bandwidth control unit 21 of the minimum guaranteed rate (CIR) or peak rate of the call. Notify monitoring information such as (PIR). The bandwidth control unit 21 subsequently monitors the corresponding call according to the monitoring information received from the control unit 25.
[0029]
In addition, the control unit 25 generates a response message indicating that bandwidth reservation is possible and transmits the response message to the layer 2 extraction / insertion unit 22. The layer 2 extraction / insertion unit 22 transfers the response message received from the control unit 25 to the packet termination processing unit 20, packetizes the packet termination processing unit 20, and transmits the generated control packet to the access network apparatus.
[0030]
When the access network apparatus receives the control packet including the response message indicating that the bandwidth reservation is completed in the subscriber exchange and the bandwidth reservation is possible, the access network apparatus receives the control packet in the packet termination processing unit 15 and extracts the layer 2 / The insertion unit 14 extracts the response message from the control packet and notifies the control unit 17 of the response message.
[0031]
The control unit 17 notifies the bandwidth control unit 16 of monitoring information such as the minimum guaranteed rate (CIR) and peak rate (PIR) of the call. The bandwidth control unit 16 subsequently monitors the corresponding call according to the monitoring information received from the control unit 17.
[0032]
If it is impossible to reserve the bandwidth of the generated call, the subscriber exchange transmits a control packet including a reservation impossible message to the access network device. In this case, the access network apparatus returns, for example, a busy tone signal indicating that “calling” is being performed from the corresponding subscriber circuit to the calling terminal apparatus.
[0033]
When the link between the access network device and the subscriber exchange is established, the user data transmitted from the terminal device is received by the corresponding subscriber circuit of the access network device, collected by the concentration circuit 12, and transferred to the switch unit 13. Is done. The switch unit 13 switches the transferred user data in units of 64 kbps according to the transmission destination, and transmits the user data to the layer 2 extraction / insertion unit 14. The layer 2 extraction / insertion unit 14 transfers the user data to the packet termination processing unit 15, packetizes it for each destination, generates a user packet, and transmits it to the subscriber exchange. At this time, the bandwidth for each call is monitored by the bandwidth controller 16.
[0034]
The subscriber exchange receives the user packet transmitted from the access network apparatus 4 by the packet termination processing unit 20 and depackets it. At this time, the bandwidth for each call is monitored by the bandwidth controller 21.
[0035]
The depacketized user data is transmitted from the trunk interface unit 24 to the circuit switching network via the layer 2 extraction / insertion unit 22 and the switch unit 23 according to a predetermined protocol.
[0036]
On the other hand, when a call to an arbitrary terminal device occurs, the subscriber exchange receives the control data from the circuit switching network at the trunk interface unit 24 and transfers it to the control unit 25 via the switch unit 23. The control unit 25 determines whether or not the bandwidth of the generated call can be reserved. If the bandwidth can be reserved, the control unit 25 informs the bandwidth control unit 21 of the minimum guaranteed rate (CIR) or peak rate (PIR) of the call. Notify monitoring information such as The bandwidth control unit 21 subsequently monitors the corresponding call according to the monitoring information received from the control unit 25.
[0037]
Further, the control unit 25 transmits the control data received from the circuit switching network to the layer 2 extraction / insertion unit 22. The layer 2 extraction / insertion unit 22 transfers the control data received from the control unit 25 to the packet termination processing unit 20, packetizes the packet termination processing unit 20, and transmits the generated control packet to the access network device.
[0038]
The access network device receives the control packet transmitted from the access network device by the packet termination processing unit 15, extracts control data from the control packet by the layer 2 extraction / insertion unit 14, and notifies the control unit 17 of the control data. .
[0039]
The control unit 17 notifies the bandwidth control unit 16 of monitoring information such as the minimum guaranteed rate (CIR) and peak rate (PIR) of the call. The bandwidth control unit 16 subsequently monitors the corresponding call according to the monitoring information received from the control unit 17.
[0040]
If it is impossible to reserve the bandwidth of the generated call, the subscriber exchange returns a control packet including a reservation impossible message to the circuit switching network. In this case, the circuit-switched network returns a busy tone signal indicating, for example, “busy” to the call originator.
[0041]
When the link between the access network device and the subscriber exchange is established, the user data transmitted from the circuit switching network is received by the trunk interface unit 24 and transferred to the switch unit 23. The switch unit 23 switches the transferred user data in units of 64 kbps according to the transmission destination, and transmits the user data to the layer 2 extraction / insertion unit 22. The layer 2 extraction / insertion unit 22 transfers the user data to the packet termination processing unit 20, packetizes it for each transmission destination, generates a user packet, and transmits the generated user packet to the access network device. At this time, the bandwidth for each call is monitored by the bandwidth controller 21.
[0042]
The access network apparatus receives the user packet transmitted from the subscriber exchange at the packet termination processing unit 15 and depackets it. At this time, the bandwidth for each call is monitored by the bandwidth controller 16.
[0043]
The depacketized user data is transmitted from the corresponding subscriber circuit to the terminal device via the layer 2 extraction / insertion unit 14, the switch unit 13, and the concentrator circuit 12.
[0044]
FIG. 3 shows how the control data and user data packetized between the access network apparatus and the subscriber exchange described above are transferred.
[0045]
In FIG. 3, user data (user data 1 and 2 in FIG. 3) is transmitted and received between an access network device (AN) and a subscriber exchange (LE) using an arbitrary channel, and control data is transmitted using a specific channel. It shows how they are sent and received.
[0046]
In the above description, the case where a bandwidth required for packet transfer is reserved in advance by the subscriber switch has been described as an example. However, bandwidth reservation may be performed by the access network device.
[0047]
Therefore, in the access network system of the present invention, since the data transfer is performed after the bandwidth reservation is made by packetizing the TDM data between the access network apparatus and the subscriber exchange, the transfer rate of the user data and the control data is set to a unit of 64 kbps. In addition, it can be flexibly changed and the bandwidth of the line can be used effectively. In particular, when the bandwidth of the control data is temporarily required, it is not necessary to increase it in units of 64 kbps, and it is sufficient to increase only the necessary bandwidth.
[0048]
Further, since packets are not transmitted / received when there is no data to be transmitted / received, the bandwidth is not wasted.
[0049]
(Second Embodiment)
Next, a second embodiment of the access network system of the present invention will be described with reference to the drawings.
[0050]
FIG. 4 is a block diagram showing the configuration of the second embodiment of the access network apparatus of the present invention, and FIG. 5 is a block diagram showing the configuration of the second embodiment of the subscriber exchange of the present invention.
[0051]
As shown in FIG. 4, the access network apparatus according to the present embodiment encodes the voice from the terminal device to the access network apparatus according to the first embodiment shown in FIG. The voice encoding processing unit 18 for decoding the voice data is added. Further, the subscriber exchange of the present embodiment encodes the voice from the circuit switched network to the subscriber exchange of the first embodiment shown in FIG. 2, and the encoded voice data from the access network device. In this configuration, a speech encoding processing unit 26 for decoding is added. Since other configurations are the same as those of the first embodiment, description thereof is omitted.
[0052]
As in this embodiment, by performing voice encoding / decoding in the access network device and the subscriber exchange, respectively, it becomes possible to compress the encoded voice data, and the access in the first embodiment Bandwidth can be saved over network systems. Therefore, it is possible to increase the number of subscribers that can be connected without changing the concentration rate.
[0053]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0054]
By transmitting and receiving packetized data between the access network device and the subscriber exchange, the data transfer rate can be flexibly changed not only in units of 64 kbps, but the bandwidth of the line can be used effectively. Can do. In particular, when the bandwidth of the control data is temporarily required, it is not necessary to increase it in units of 64 kbps, and it is sufficient to increase only the necessary bandwidth. Further, since packets are not transmitted / received when there is no data to be transmitted / received, the bandwidth is not wasted.
[0055]
Furthermore, by encoding / decoding the voice data in the access network apparatus and the subscriber exchange, respectively, it becomes possible to compress the encoded voice data and further save the bandwidth. Therefore, the number of subscribers that can be connected can be increased without changing the concentration rate.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a first embodiment of an access network apparatus of the present invention.
FIG. 2 is a block diagram showing a configuration of a first embodiment of a subscriber exchange according to the present invention.
FIG. 3 is a schematic diagram showing how control data and user data packetized are transferred between an access network apparatus and a subscriber exchange.
FIG. 4 is a block diagram showing a configuration of a second exemplary embodiment of an access network apparatus according to the present invention.
FIG. 5 is a block diagram showing a configuration of a second embodiment of a subscriber exchange according to the present invention.
FIG. 6 is a block diagram illustrating a configuration example of an access network system.
[Explanation of symbols]
1 ₁ to 1 _n terminal device 4 access network device 5 subscriber switch 6 circuit switched network 10 ₁ to 10 _n subscriber circuit 12 concentrator circuit 13, 23 switch unit 14, 22 layer 2 extraction / insertion unit 15, 20 packet termination processing Units 16 and 21 Band control units 17 and 25 Control units 18 and 26 Voice coding processing unit 24 Trunk interface unit

Claims (8)

An access network system for connecting a terminal device used by a subscriber to a circuit switching network that is a relay system in a public network,
An access network device that packetizes and transmits data received from the terminal device, depackets the received packetized data, and forwards the data to the terminal device;
Packetized data sent from the access network device is depacketized and transferred to a predetermined destination in the circuit switched network, and data received from the circuit switched network is packetized and transferred to the access network device has a subscriber exchange for, the,
An access network system, wherein data is transmitted and received between the access network device and the subscriber exchange in a time division manner . The access network device is
A voice encoding processing unit that encodes voice received from the terminal device and decodes encoded voice data received from the subscriber exchange;
The subscriber exchange is
The access network system according to claim 1, further comprising: a voice encoding processing unit that encodes voice received from the circuit switching network and decodes encoded voice data received from the access network apparatus. An access network device for concentrating lines with terminal devices used by subscribers;
The data received from the terminal device received via the access network device is transferred to a predetermined transmission destination in a circuit switching network which is a relay system in a public network, and the data received from the circuit switching network is transferred to the access network An access network system for connecting the terminal device and the circuit switching network, comprising:
Data is transmitted and received in a time division manner between the access network device and the subscriber exchange,
The access network device is
Data received from the terminal device is packetized and transferred to the subscriber switch, packetized data received from the subscriber switch is depacketized and transferred to the terminal device,
The subscriber exchange is
A control method for an access network system, wherein packetized data received from the access network device is depacketized and transferred to the circuit switched network, and data received from the circuit switched network is packetized and transferred to the access network device. The access network device is
Encode the voice received from the terminal device, decode the encoded voice data received from the subscriber exchange,
The subscriber exchange is
4. The control method for an access network system according to claim 3, wherein the voice received from the circuit switched network is encoded and the encoded voice data received from the access network apparatus is decoded. An access network device for concentrating a line with the terminal device for connecting a terminal device used by a subscriber and a circuit switching network which is a relay system in a public network via a subscriber switch,
The access network device and the subscriber exchange are transmitted and received in a time division manner,
A plurality of subscriber circuits that are interfaces with the terminal device;
A concentrator circuit for concentrating a line with the subscriber circuit;
A switch unit that switches received data according to the destination, and
A layer 2 extraction / insertion unit for exchanging control data with the subscriber switch according to the layer 2 protocol;
A packet termination processing unit for packetizing data to be transmitted to the subscriber switch and depacketizing data received from the subscriber switch;
A control unit that requests the subscriber switch to reserve a necessary bandwidth before transferring packetized data;
A bandwidth control unit that monitors whether the bandwidth with the subscriber exchange is effectively used after the reservation of the bandwidth;
An access network device.   6. The access network apparatus according to claim 5, further comprising a voice encoding processing unit that encodes voice received from the terminal apparatus and decodes encoded voice data received from the subscriber exchange. A terminal device used by a subscriber is connected to a circuit switching network, which is a relay system in the public network, via an access network device. The data received from the access network device is transferred to the circuit switching network, and the circuit switching is performed. A subscriber exchange for transferring data received from a network to the access network device,
The access network device and the subscriber exchange are transmitted and received in a time division manner,
A packet termination processor for depacketizing a packet received from the access network device and packetizing data to be transmitted to the access network device;
A layer 2 extraction / insertion unit for exchanging control data with the access network device according to a layer 2 protocol;
A switch unit for switching data received from the terminal device or the circuit switching network according to the transmission destination;
A trunk interface unit that is an interface with the circuit switching network;
A controller that reserves the required bandwidth before transferring the packet;
And a bandwidth controller that monitors whether or not effective bandwidth usage is performed after the bandwidth reservation.   8. The subscriber exchange according to claim 7, further comprising a voice encoding processing unit that encodes voice received from the circuit switched network and decodes encoded voice data received from the access network apparatus.

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