JP5425123B2 - User terminal allocation method, communication system, and management server - Google Patents

Description

  The present invention relates to a user terminal allocation method, a communication system, and a management server.

  When a user joins a network including a plurality of edge routers, the user registers as a user by setting user information in any one of the edge routers. FIG. 1 is a conceptual diagram showing user registration in an edge router. The user contract information of the user # 1 is held in the edge router # 1, which is a registration destination at the time of subscription. Further, the user contract information of the user # 2 is held in the edge router # 2 which is a registration destination at the time of subscription. All service protocol setting requests from the user terminal are processed only by the edge router registered by the user (see Non-Patent Document 1). That is, a protocol setting request (a PPP setting request, a DHCP setting request, a multicast setting request, etc.) from the user terminal of the user # 1 is processed by the edge router # 1.

  Since the user contract information is set only for the edge router registered as a user, when switching the edge router for communication, it is necessary to perform user registration again at the switching destination edge router.

LAN construction technique-Redundant configuration of L3 switch http://itpro.nikkeibp.co.jp/members/NBY/techsquare/20040721/1/

  As described above, a user registers as a user at a specific edge router at the time of subscription. That is, an edge router that performs protocol setting for each user is fixedly assigned. Therefore, the user accommodation rate of the edge router depends on the registration destination at the time of user subscription, so that the capital investment efficiency may be reduced.

  In addition, an edge router that performs protocol setting for each user is fixedly assigned, and there is no method for moving user information between edge routers. For this reason, the communication with the user terminal cannot be switched. For example, when it becomes necessary to switch the user registration destination due to a failure of the edge router, it is necessary to re-register the user information with the edge router of the switching destination. is there. As a result, the multicast viewing state of the user terminal, the sequence number of the tunnel protocol, etc. cannot be taken over, a traffic cross occurs, and the service is stopped.

  An object of the present invention is to dynamically allocate user terminals to edge routers.

The user terminal allocation method of the present invention includes:
A user terminal allocation method to an edge router in a communication system having a plurality of edge routers and a management server connected to the plurality of edge routers,
The management server storing user information to be set in the edge router in a user information storage unit;
The management server storing the accommodation status of the user terminal in the edge router in the accommodation status storage unit;
A first edge router among the plurality of edge routers receiving a setting request from a user terminal and transmitting the setting request to the management server;
The management server selects a second edge router that accommodates the user terminal based on the accommodation status stored in the accommodation status storage unit;
The management server sets the user information stored in the user information storage unit for the user terminal in the second edge router;
The second edge router sets user information and transmits a setting response to the user terminal;
It is characterized by having.

The communication system of the present invention
A communication system having a plurality of edge routers and a management server connected to the plurality of edge routers,
Of the plurality of edge routers, a first edge router is:
A setting request transmission / reception unit for receiving a setting request from a user terminal and transmitting the setting request to the management server;
The management server
A user information storage unit for storing user information to be set in the edge router;
An accommodation status storage unit for storing the accommodation status of the user terminal in the edge router;
A setting request receiving unit for receiving a setting request of a user terminal from the first edge router;
An edge router selection unit that selects a second edge router that accommodates the user terminal, based on the accommodation status stored in the accommodation status storage unit;
A user information setting unit for setting the user information stored in the user information storage unit for the user terminal in the second edge router;
Have
The second edge router is:
It has a setting response transmission part which transmits a setting response to the said user terminal.

The management server of the present invention
A management server connected to multiple edge routers,
A user information storage unit for storing user information to be set in the edge router;
An accommodation status storage unit for storing the accommodation status of the user terminal in the edge router;
A setting request receiving unit that receives a setting request of the user terminal from the first edge router among the plurality of edge routers;
An edge router selection unit that selects a second edge router that accommodates the user terminal, based on the accommodation status stored in the accommodation status storage unit;
A user information setting unit for setting the user information stored in the user information storage unit for the user terminal in the second edge router;
It is characterized by having.

  According to the present invention, user terminals can be dynamically allocated to edge routers.

Conceptual diagram showing user registration in edge router 1 is a conceptual diagram of a communication system according to an embodiment of the present invention. Functional block diagram of a user / network resource management server according to an embodiment of the present invention Example of information stored in network resource storage unit and user contract information storage unit The sequence diagram which shows the user terminal allocation method based on the Example of this invention

  Examples of the present invention will be described in detail below.

FIG. 2 is a conceptual diagram of a communication system according to an embodiment of the present invention. The communication system includes a plurality of edge routers # 1 to #M (10 ₁ to 10 _M ) and a user / network resource management server 20. The communication system includes an authentication server for performing user authentication, a session control server for controlling a session such as a tunneling protocol and a user's moving image viewing state, a distribution server for distributing content such as video, and transferring user terminal data to another network. A relay router or the like may be included.

Edge routers # 1 to #M (10 ₁ to 10 _M ) use Internet access using PPP (Point-to-Point Protocol), IP (Internet Protocol) address delivery by DHCP (Dynamic Host Configuration Protocol), and multicast Terminate various protocols such as video distribution. The user terminals of users # 1 and # 2 are connected to edge router edge routers # 1 to #M (10 ₁ to 10 _M ) via an Ethernet (registered trademark) network or the like.

The user / network resource management server 20 manages network resources such as the accommodation status (accommodation number, accommodation rate, etc.) of user terminals for each protocol of the edge router. Further, the user / network resource management server 20 manages user contract information (user terminal address, packet filter setting, etc.). The user contract information is information used when setting user information in the edge routers # 1 to #M (10 ₁ to 10 _M ), and is information input when a user contracts. Further, the user / network resource management server 20 may hold a plurality of protocol states such as a PPP session state and a multicast viewing state.

In the embodiment of the present invention, the edge router # 1 (10 ₁ ) is regarded as a representative edge router and receives a protocol setting request (a PPP setting request, a DHCP setting request, a multicast setting request, etc.) from each user terminal as a representative. (S101). When the user terminal broadcasts the protocol setting request to all edge routers, only the representative edge router # 1 (10 ₁ ) receives the protocol setting request, and the other edge routers discard the protocol setting request. When the representative edge router # 1 (10 ₁ ) is known in advance, the user terminal may transmit a protocol setting request only to the representative edge router # 1 (10 ₁ ). Receiving the protocol setting request from the user terminal, the representative edge router # 1 (10 ₁ ) transmits the protocol setting request to the user / network resource management server 20 (S103).

The user / network resource management server 20 selects the edge router that processes the protocol setting request based on the protocol type, the user accommodation status (accommodation number, accommodation rate) for each protocol of the edge router, and user contract information. Here, it is assumed that the edge router #M (10 _M ) is selected. Then, the user / network resource management server 20 performs user information (configuration) setting for the selected edge router #M (10 _M ) (S105). The user information setting is performed by transmitting a setting command from the user / network resource management server 20 to the edge router #M (10 _M ) using the user contract information managed by the user / network resource management server 20. May be. As described above, the user information means information set for the edge router.

The selected edge router #M (10 _M ) transmits a protocol setting response to the user terminal (S107). In this way, communication of the protocol is performed between the user terminal and the selected edge router #M (10 _M ).

At the time of failure of the selected edge router #M (10 _M ), the user / network resource management server 20 selects another edge router based on the belonging relationship of the edge router accommodating the user terminal for the failed protocol type. Select, reset user information, and switch accommodation edge router. In this case, only the user terminal in which the PPP session state or the multicast viewing state is being executed may be switched to another edge router. Then, the reconfigured edge router notifies the user terminal of the resetting and communicates with the user terminal.

  The user / network resource management server 20 will be described in more detail.

  FIG. 3 is a functional block diagram of the user / network resource management server 20 according to the embodiment of the present invention. The user / network resource management server 20 includes a network resource storage unit 201, a user contract information storage unit 203, a protocol setting request reception unit 211, an edge router selection unit 213, a user information setting unit 215, and an edge router failure detection. Part 217.

  As shown in FIG. 4A, the network resource storage unit 201 stores the accommodation status of user terminals in the edge router. For example, the number of accommodations and the accommodation rate for each edge router are stored. FIG. 4 shows the accommodation rate. Moreover, you may store the belonging relationship (accommodated user terminal for every edge router) which shows which user terminal the edge router accommodates. When the edge router terminates a plurality of protocols, the network resource storage unit 201 stores the accommodation status for each protocol. Although not shown in FIG. 4A, a plurality of protocol states such as a PPP session state and a multicast viewing state between the edge router and the accommodating user terminal may be stored. FIG. 4A is merely an example, and such accommodation status may be stored in two or more tables.

  The user contract information storage unit 203 stores user contract information as shown in FIG. The user contract information includes the address of the user terminal, packet filter settings, etc., and is used when setting user information in the edge router. Note that the user contract information may be set as user information as it is, or an authentication server address or the like that cannot be seen from the user terminal may be set as user information.

The protocol setting request receiving unit 211 receives a protocol setting request from the representative edge router # 1 (10 ₁ ) that has received the protocol setting request of the user terminal.

  The edge router selection unit 213 selects an edge router that accommodates the user terminal that has transmitted the protocol setting request, based on the accommodation status stored in the network resource storage unit 201. For example, the edge router selection unit 213 selects edge routers in ascending order of user terminal capacity. In addition, when the edge router terminates multiple protocols, if the accommodation rate of the protocol corresponding to the protocol setting request is low but the accommodation rate of other protocols is high, the accommodation status of the multiple protocols is comprehensive. Judgment is made and an edge router is selected. After selecting the edge router, the edge router selection unit 213 updates the accommodation status stored in the network resource storage unit 201 and holds the accommodation status in the latest state.

The user information setting unit 215 sets the user contract information stored in the user contract information storage unit 203 for the user terminal that has transmitted the protocol setting request, in the selected edge router. The setting response is transmitted from the selected edge router to the user terminal, not from the representative edge router # 1 (10 ₁ ).

  The edge router failure detection unit 217 detects a failure of the edge router. For example, the edge router failure detection unit 217 detects failure of the edge router by receiving failure information transmitted from the edge router when the edge router fails. In this case, the edge router selection unit 213 selects, based on the accommodation status stored in the network resource storage unit 201, the edge router that is the switching destination of the user terminal accommodated in the edge router that detected the failure. In this case as well, edge routers to be switched to may be selected in ascending order of user terminal capacity. Then, the user information setting unit 215 uses the user contract information stored in the user contract information storage unit 203 for the user terminal accommodated in the edge router that has detected the failure, to change the user information to the edge router that is the switching destination. Set. In this case, only the user terminal that is executing the PPP session state and the multicast viewing state stored in the network resource storage unit 201 may be switched to another edge router. The reset notification is transmitted from the switching edge router to the user terminal.

FIG. 5 is a sequence diagram illustrating a user terminal allocation method according to an embodiment of the present invention. Steps S101 to S107 are the same as steps S101 to 107 in FIG. That is, the user terminal # 1 broadcasts a protocol setting request to all edge routers, or transmits a protocol setting request to the representative edge router # 1 (10 ₁ ) (S101). Receiving the protocol setting request from the user terminal, the representative edge router # 1 (10 ₁ ) transmits the protocol setting request to the user / network resource management server 20 (S103). The user / network resource management server 20 selects an edge router that processes the protocol setting request. Here, it is assumed that the edge router #M (10 _M ) is selected. Then, the user / network resource management server 20 performs user information (configuration) setting for the selected edge router #M (10 _M ) (S105). The selected edge router #M (10 _M ) transmits a protocol setting response to the user terminal (S107). In this way, communication of the protocol is performed between the user terminal and the selected edge router #M (10 _M ).

When the selected edge router #M (10 _M ) fails, the edge router #M (10 _M ) transmits failure information to the user / network resource management server 20 (S201). The user / network resource management server 20 selects an edge router as a switching destination of the user terminal accommodated in the edge router that detects the failure. Here, it is assumed that the edge router #L (10 _L ) is selected. Then, the user / network resource management server 20 performs user information (configuration) setting for the switching destination edge router #L (10 _L ) (S203). The switching destination edge router #L (10 _L ) transmits a protocol reset notification to the user terminal (S205).

  An example in which the above user terminal allocation method is applied to a PPPoE (PPP over Ethernet) tunnel establishment request will be described.

First, the user terminal broadcasts a PPP tunnel establishment request packet (PADI: PPPoE Active Discovery Initiation) to all edge routers. When the representative edge router # 1 (10 ₁ ) receives the PADI, it transmits to the user / network resource management server 20 that the PADI is received together with the MAC address of the user terminal.

  The user / network resource management server 20 selects an edge router that terminates PPPoE based on the MAC address of the user terminal and the number of PPPoE tunnel establishments of each edge router. The user / network resource management server 20 transmits the MAC address of the user terminal to the selected edge router, and issues a PPPoE tunnel establishment instruction.

  The edge router that has received the instruction transmits a response packet (PADO: PPPoE Active Discovery Offer) to PADI to the user terminal in order to establish a PPPoE tunnel between the edge router and the user terminal. Thereafter, the edge router that has received the instruction performs the PPPoE tunnel establishment phase with the user terminal.

  An example in which the above user terminal allocation method is applied to a DHCP request will be described.

First, the user terminal broadcasts a DHCP request packet to all edge routers. When the representative edge router # 1 (10 ₁ ) receives the DHCP request, it transmits to the user / network resource management server 20 that the DHCP request has been received together with the MAC address of the user terminal.

  The user / network resource management server 20 selects an edge router for registering address information based on the MAC address of the user terminal and the number of addresses set by DHCP of each edge router. The user / network resource management server 20 transmits the MAC address of the user terminal to the selected edge router, and issues an address issue instruction by DHCP.

  Upon receiving the instruction, the edge router transmits a response packet (DHCP Reply) to DHCP to the user terminal. Subsequently, the edge router that has received the instruction issues an address to the user terminal.

  An example in which the above user terminal allocation method is applied to a multicast video viewing request will be described.

First, a user terminal broadcasts a multicast channel moving image viewing request (viewing request channel distribution server address and distribution channel number) to all edge routers. When the representative edge router # 1 (10 ₁ ) receives the multicast channel moving image viewing request, it sends the MAC address of the user terminal, the distribution server address and distribution channel number information of the viewing request channel to the user / network resource management server 20. Send.

  The user / network resource management server 20 selects an edge router that performs multicast distribution to the user based on viewing request channel information, the user's MAC address, and the number of multicast distributions of each edge router. The user / network resource management server 20 transmits the MAC address of the user terminal and the viewing request channel to the selected edge router, and gives an instruction to distribute the requested channel to the user terminal.

  The edge router that has received the instruction sets user information for multicast transfer and starts distribution to the user terminal.

<Effect of Example>
As described above, in the embodiment of the present invention, the management server retains the user terminal accommodation status and user information, and selects an edge router that processes the protocol setting request based on the information. In this way, user terminals can be dynamically allocated to edge routers, and the resources of edge routers determined for each protocol can be used effectively.

  In addition, when an edge router fails, the user terminal accommodated in the failed edge router is switched to another edge router based on the accommodation status held by the management server, so that the Recovery of user communication can be accelerated.

  For convenience of explanation, the user / network resource management server according to the embodiment of the present invention is described using a functional block diagram. However, the user / network resource management server of the present invention may be hardware, software, or their It may be realized in combination. For example, each function unit of the user / network resource management server may be realized by software, and may be realized as a program in the user / network resource management server. In addition, two or more embodiments and each component of the embodiments may be used in combination as necessary.

  As mentioned above, although the Example of this invention was described, this invention is not limited to said Example, A various change and application are possible within a claim.

  The present invention can be used in a network in which a plurality of user terminals are connected to a plurality of edge routers.

10 ₁ to 10 _M edge router 20 user / network resource management server 201 network resource storage unit 203 user information storage unit 211 protocol setting request reception unit 213 edge router selection unit 215 user information setting unit 217 edge router failure detection unit

Claims (7)

A user terminal allocation method to an edge router in a communication system having a plurality of edge routers and a management server connected to the plurality of edge routers,
The management server storing user information to be set in the edge router in a user information storage unit;
The management server storing the accommodation status of the user terminal in the edge router in the accommodation status storage unit;
A first edge router among the plurality of edge routers receiving a setting request from a user terminal and transmitting the setting request to the management server;
The management server selects a second edge router that accommodates the user terminal based on the accommodation status stored in the accommodation status storage unit;
The management server sets the user information stored in the user information storage unit for the user terminal in the second edge router;
The second edge router transmits a setting response to the user terminal;
A user terminal allocation method comprising: The management server detecting an edge router failure;
The management server selecting a third edge router as a switching destination of the user terminal accommodated in the edge router that has detected the failure based on the accommodation status stored in the accommodation status storage unit;
The management server resetting the user information stored in the user information storage unit to the third edge router for the user terminal accommodated in the edge router that has detected a failure;
The third edge router sending a reconfiguration notification to the user terminal;
The user terminal allocation method according to claim 1, further comprising:   The user terminal allocation method according to claim 1 or 2, wherein the selecting step selects edge routers in ascending order of user terminal capacity.   The user terminal allocating method according to any one of claims 1 to 3, wherein the selecting step updates the accommodation status stored in the accommodation status storage unit when a second edge router is selected. When the plurality of edge routers terminate a plurality of protocols, the accommodation status storage unit stores the accommodation status for each protocol,
5. The user terminal allocating method according to claim 1, wherein the selecting step selects the second edge router based on an accommodation status of a plurality of protocols. 6. A communication system having a plurality of edge routers and a management server connected to the plurality of edge routers,
Of the plurality of edge routers, a first edge router is:
A setting request transmission / reception unit for receiving a setting request from a user terminal and transmitting the setting request to the management server;
The management server
A user information storage unit for storing user information to be set in the edge router;
An accommodation status storage unit for storing the accommodation status of the user terminal in the edge router;
A setting request receiving unit for receiving a setting request of a user terminal from the first edge router;
An edge router selection unit that selects a second edge router that accommodates the user terminal, based on the accommodation status stored in the accommodation status storage unit;
A user information setting unit for setting the user information stored in the user information storage unit for the user terminal in the second edge router;
Have
The second edge router is:
A communication system having a setting response transmitter for transmitting a setting response to the user terminal. A management server connected to multiple edge routers,
A user information storage unit for storing user information to be set in the edge router;
An accommodation status storage unit for storing the accommodation status of the user terminal in the edge router;
A setting request receiving unit that receives a setting request of the user terminal from the first edge router among the plurality of edge routers;
An edge router selection unit that selects a second edge router that accommodates the user terminal, based on the accommodation status stored in the accommodation status storage unit;
A user information setting unit for setting the user information stored in the user information storage unit for the user terminal in the second edge router;
Management server having

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