KR20090029348A - Apparatus and method for call distribution in diameter system - Google Patents

Abstract

An apparatus and a method for improving efficiency of a call distribution in a diameter system are provided to perform a call distribution within a fast time by distributing a new call or an existing call in a diameter server. A front node receives a diameter command(610). The front node confirms whether or not a call processing node is in an overload state in case a request about a new call is included in the diameter command. An overload control process is performed(660) in case the call processing node is in the overload state(640). The diameter command is distributed to the call processing node with a round-robin mode without a separate coincidence session search operation(650). The diameter command is transmitted to the call processing node for processing a normal call in case a request about a new call is not included in the diameter command(630).

Description

Apparatus and method for call distribution in diameter system {APPARATUS AND METHOD FOR CALL DISTRIBUTION IN DIAMETER SYSTEM}

 The present invention provides a new value for the AAR message used in the Rx Diameter Interface of the Policy and Charging Rule Function (PCRF) system defined by the 3rd Generation Partnership Project (3GPP). The present invention relates to an apparatus and a method for classifying and processing a new call and an existing call.

3GPP defines the use of the Diameter Protocol in PCRF for billing, authentication, and other functions.

1 is a diagram illustrating a connection configuration between a general PCRF and a neighboring node.

Referring to FIG. 1, a subscription profile store 110 storing a subscription profile and a PCRF 130 are connected to an Sp interface. In addition, an application unit (AF) 120 and the PCRF 130 are connected to an Rx interface.

A gateway device (GW) 140 including the PCRF 130 and a policy and charging enforcement function (PCEF) is connected to a Gx interface. The application unit 120 may be a P-Call State Control Function (P-CSCF).

Hereinafter, the application unit 120 is a diameter client, and the PCRF 130 is called a diameter server.

The diameter server and the diameter client exchange necessary information by using an AAR command.

2 is a view showing the configuration of a general diameter system.

Referring to FIG. 2, the diameter server includes a front node (Front_Node) 210 and a plurality of call processing nodes 220, 222, and 224.

The front node 210 analyzes the received input AVR command and distributes it to one of the call processing nodes 220, 222, and 224.

When a conventional diameter server analyzes an AAR command requested by a diameter client and performs call processing, there are the following problems.

The diameter server may not distinguish whether the AAR command transmitted from the diameter client is a request for a new call or an update request for an existing call.

In this case, the diameter server checks for all sessions in the diameter server to know whether a session matching the <Session-Id> information of the AAR command exists, that is, to determine whether an update request is made for an existing call. There is a problem with doing a search. This has a problem that adversely affects the distribution and processing performance of the AAR command.

And, if the diameter server is overloaded, there is a need to limit new calls and maintain existing calls.

In this case, since the AAR command transmitted by the diameter client is a new request for a call or an update request for an existing call, it cannot be distinguished by the AAR command alone. In order to determine whether an update request is made for a call, there is a problem that a search operation must be performed for all sessions in the diameter server. That is, there is a problem of inhibiting load reduction in an overloaded state.

It is an object of the present invention to provide an apparatus and method for call distribution in a diameter system.

Another object of the present invention is to provide an apparatus and method for increasing the efficiency of call distribution, including a separator capable of distinguishing between new and existing calls in a diameter system.

It is still another object of the present invention to provide an apparatus and method capable of performing call distribution in a short time by dividing a new call or an existing call in a diameter server.

It is still another object of the present invention to provide an apparatus and method for reducing a load state by rejecting a request for a new call when a diameter server is overloaded by dividing a new call or an existing call in a diameter server. .

According to a first aspect for achieving the object of the present invention, in a method for distinguishing a new call in a diameter server apparatus, information indicating that the front node receives a diameter command and that the request is for a new call in the diameter command are described. When included, the method includes checking whether the call processing node is overloaded and performing an overload control process when the call processing node is overloaded.

According to a second aspect for achieving the object of the present invention, when the diameter client device transmits a diameter command for a new call in a call processing method, information indicating that a request for a new call is added to the diameter command is added. And transmitting the diameter command to the diameter server.

The present invention has the advantage of increasing the efficiency of call distribution, including a separator that can distinguish between new or existing calls in the diameter system.

In addition, the present invention has the advantage that the call distribution can be performed in a short time by separating the new call or the existing call in the diameter server.

In addition, the present invention has the advantage of reducing the load state by denying a request for a new call when the diameter server is overloaded by dividing a new call or an existing call in the diameter server.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention will now be described with respect to apparatus and methods for call distribution in a diameter system.

The present invention distinguishes existing calls from new calls by presenting new attribute value pairs (AVPs) for the diameter AAR (Authentication and Authorization Request) command.

Attribute Name  AVP Code  Value type AVP Flag Rules MUST MAY Should not Must not May Encr AA-Request-Type regarding in RFC Enumerated M, V  P

First, the new AVP proposes a new AA-Request-Type in Table 1 above. The new AA-Request-Type is shown in Table 2 below.

AA-Request-Type  Contents INITIAL_TYPE (0) The diameter client forwards the initial information to the diameter server when a user requests a new call. SUBSEQUENT_TYPE (1) When the diameter client forwards your "Service Flow_Status" change information to the diameter server. MODIFICATION_TYPE (2) When a diameter client forwards service information change information to a diameter server in a user's session.

The new AA-Request-Type shown in Table 2 is included in the AAR command as shown in FIG. 3 and used.

4 is a diagram illustrating an operation process at the time of a new call processing according to an embodiment of the present invention.

Referring to FIG. 4, a call processing node 430 and a front node 420 correspond to a diameter server, and an application unit AF 410 corresponds to a diameter client. .

When the front node 420 receives the AAR command from the application unit 410 (step a), the front node 420 checks the AA-Request-Type AVP value of the received AAR command.

When the AA-Request-Type AVP value of the AAR command is INITIAL_TYPE (0), the call processing node 430 is round-robin to the call processing node 430 without a process of "1" (without matching session search operation). Distribute the AAR command (step b).

After receiving the AAR command, the call processing node 430 completes the interpretation of the AAR command and, if the AA-Request-Type AVP value is INITIAL_TYPE (0), does not have a process of "2" (without matching session search). New call processing (step c). After completing the AAR command processing, the call processing node 430 transmits a response message to the front node 420 (step d).

Thereafter, the front node 420 transmits the response message to the application unit 410 (step e).

As described above, in the diameter server system of the present invention, the message distribution and processing may be performed after checking the value of the AA-Request-Type AVP presented in the present invention without a separate session searching operation.

5 is a diagram illustrating an operation process during an overload state according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the front node 520 receives an AAR command when a specific call processing node 530 is overloaded (step a). Thereafter, the AA-Request-Type AVP value of the AAR command is checked.

If the AVP value is SUBSEQUENT_TYPE (1) or MODIFICATION_TYPE (2), it is not an overload control target command and is transmitted to the call processing node 530 so that call processing is normally performed.

That is, the command is transmitted to the call processing node 530 by performing the process of "1" (by performing a matching session search operation) (step b).

After receiving the AAR command, the call processing node 530 performs the call processing after completing the AAR command. After completing the AAR command processing, the call processing node 530 transmits a response message to the front node 520 (step c).

Thereafter, the front node 520 transmits the response message to the application unit 510 (step d).

If the value of the AVP is INITIAL_TYPE (0), the front node 520 may immediately recognize the new call without performing the process of "1" (no matching session search) and thus performs an overload control process. . The overload control process may be a discard of the received command.

When the overload state of the call processing node 530 is released, the front node 520 recognizes the overload release situation and performs a process of FIG. 4 when a new call is introduced.

6 is a flowchart illustrating an operation process of a diameter server according to an exemplary embodiment of the present invention.

Referring to FIG. 6, the front node receives an AAR command (step 610). Thereafter, the AA-Request-Type AVP value of the AAR command is checked to determine whether the AVP value is INITIAL_TYPE (0) (step 620).

If the AVP value is INITIAL_TYPE (0) and the call processing node is overloaded (step 640). The overload control process is performed (step 660). The overload control process may be to discard or wait for a received command.

If the call processing node is not overloaded (step 640), the AAR command is distributed to the call processing node in a round-robin manner without a match session search operation (step 650).

If the AVP value is SUBSEQUENT_TYPE (1) or MODIFICATION_TYPE (2), since the command is not an overload control target command, the AVP is transmitted to the call processing node so that call processing is normally performed (step 630).

Then, the algorithm according to the present invention is terminated.

7 is a flowchart illustrating an operation process of a diameter client according to an exemplary embodiment of the present invention.

Referring to FIG. 7, when the diameter client transmits an AAR command, when it is an AAR command for a new call (step 710), the diameter client adds an INITIAL_TYPE (0) value to the AA-Request-Type AVP (step 720). The added AAR command is transmitted (step 760).

If it is not an AAR command for a new call but an AAR command for changing a service flow status in a user session (step 730), add SUBSEQUENT_TYPE (1) to the AA-Request-Type AVP (step 740). Send a command (step 760).

If it is not an AAR command for a new call or an AAR command for changing a service flow status of a user (step 750), if the diameter information is transmitted to the diameter server by the diameter client in the session of the user, AA- MODIFICATION_TYPE (2) is added to the Request-Type AVP (step 750), and the added AAR command is transmitted (step 760).

Then, the algorithm according to the present invention is terminated.

8 is a block diagram of a diameter server according to an exemplary embodiment of the present invention.

Referring to FIG. 8, the diameter server corresponds to the front node of the present invention. The diameter server includes a communication interface 810, a controller 820, a storage 830, and a diameter server manager 840.

The communication interface 810 is a module for communicating with other nodes, and includes a wired processor and a baseband processor. The wired processor converts a signal received through a wired path into a baseband signal and provides the baseband signal to the baseband processor, and converts the baseband signal from the baseband processor into a wired signal so as to be transmitted on an actual wired path. Send via the path. The communication interface 810 may be a wireless communication interface.

The controller 820 controls the diameter server manager 840 in addition to a control function for the overall function of the diameter server.

The storage unit 830 functions to store a program for controlling the overall operation of the apparatus and temporary data generated during program execution.

The diameter server manager 840 receives the AAR command, checks the AA-Request-Type AVP value of the AAR command, checks whether the AVP value is INITIAL_TYPE (0), and the AVP value is INITIAL_TYPE (0). If the call processing node is overloaded, the overload control process is performed. The overload control process may be the discarding or waiting of a received command.

When the call processing node is not overloaded, the diameter server manager 840 distributes the AAR command to the call processing node in a round-robin manner without a separate matching session search operation.

When the value of AVP is SUBSEQUENT_TYPE (1) or MODIFICATION_TYPE (2), the diameter server manager 840 transmits the call processing node to the call processing node because the command is not an overload control target command.

In the above-described block configuration, the controller 820 may perform a function of the diameter server manager 840.

In the present invention, it is shown to configure them separately to explain each function separately. Therefore, in the case of actually implementing a product, all of the functions of the diameter server manager 840 may be configured to be processed by the controller 820, and only some of the functions may be configured to be processed by the controller 820. .

9 is a block diagram of a diameter client according to an embodiment of the present invention.

Referring to FIG. 9, the diameter client corresponds to the application unit of the present invention. The diameter client includes a communication interface 910, a controller 920, a storage 930, and a diameter server manager 940.

The communication interface 910 is a module for communicating with other nodes, and includes a wired processor and a baseband processor. The wired processor converts a signal received through a wired path into a baseband signal and provides the baseband signal to the baseband processor, and converts the baseband signal from the baseband processor into a wired signal so as to be transmitted on an actual wired path. Send via the path. The communication interface 810 may use a wireless communication interface.

The controller 920 controls the diameter client manager 940 in addition to a control function for the overall function of the diameter client.

The storage unit 930 stores a program for controlling the overall operation of the apparatus and temporary data generated during program execution.

When transmitting the AAR command, the diameter client manager 940 adds the INITIAL_TYPE (0) value to the AA-Request-Type AVP (step 720) and transmits the added AAR command. .

The diameter client manager 940 adds SUBSEQUENT_TYPE (1) to the AA-Request-Type AVP when the AAR command for service flow status change is transmitted in a user session instead of an AAR command for a new call. Send the command.

The diameter client manager 940 is not an AAR command for a new call, an AAR command for changing a service flow status of a user, and the diameter client manager transmits service information change information to a diameter server in a user session. Add MODIFICATION_TYPE (2) to AA-Request-Type AVP and send the added AAR command.

In the above-described block configuration, the controller 920 may perform a function of the diameter client manager 940.

In the present invention, it is shown to configure them separately to explain each function separately. Therefore, when the product is actually implemented, all of the functions of the diameter client manager 940 may be configured to be processed by the controller 920, and only some of the functions may be configured to be processed by the controller 920. .

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a diagram illustrating a connection configuration between a general PCRF and a peripheral node;

2 is a view showing the configuration of a general diameter system,

3 illustrates an AAR command according to an embodiment of the present invention;

4 is a view showing an operation process when processing a new call according to an embodiment of the present invention;

5 is a view illustrating an operation process in an overload state according to an embodiment of the present invention;

6 is a flowchart illustrating an operation process of a diameter server according to an embodiment of the present invention;

7 is a flowchart illustrating an operation process of a diameter client according to an embodiment of the present invention;

8 is a block diagram of a diameter server according to an embodiment of the present invention; and

9 is a block diagram of a diameter client according to an embodiment of the present invention.

Claims (20)

In the new call discrimination method in the diameter server device, The front node receives the diameter command, If the diameter command includes information indicating that the request is for a new call, checking whether a call processing node is overloaded; And performing an overload control process when the call processing node is overloaded. The method of claim 1, If the call processing node is not overloaded, sending the diameter command to the call processing node. The method of claim 1, Analyzing the diameter command when the diameter command does not include information indicating that the request is for a new call and includes service change status of the user (Service_FLow_Status); And forwarding the diameter command to a call processing node that processes the service flow status information of the user. The method of claim 1, Analyzing the diameter command when the diameter command does not include information indicating that the request is for a new call and includes change information on service information of the user; And transmitting the diameter command to a call processing node that processes the service information of the user. In the call processing method in the diameter client device, When transmitting a diameter command for a new call, adding information indicating that the request is for a new call to the diameter command; Transmitting the diameter command to a diameter server. The method of claim 5, The method further comprises adding information indicating that the service flow status (Service_FLow_Status) change information of the user to the diameter command when transmitting a diameter command for the service flow status (Service_FLow_Status) change information of the user. The method of claim 5, The method further comprises adding information indicating that the change information of the service information of the user to the diameter command when transmitting a diameter command for the change information of the service information of the user. In the apparatus of the diameter front node which can distinguish a new call, A communication interface for communicating with other nodes, Receiving a diameter command through the communication interface, and if the diameter command includes information indicating that the request for a new call, whether the call processing node is overloaded, and if the call processing node is overloaded Apparatus comprising a diameter server manager for performing an overload control process. The method of claim 8, And the diameter server manager transmits the diameter command to the call processing node when the call processing node is not overloaded. The method of claim 8, When the diameter server manager does not include information indicating that a request for a new call is included in the diameter command and includes service change status (Service_FLow_Status) of the user, the diameter command is analyzed to analyze the diameter command of the user. And send the diameter command to a call processing node that processes service flow status information. The method of claim 8, The diameter server manager may analyze the diameter command when the diameter command does not include information indicating that a request for a new call is included, and includes change information on service information of a user. And deliver the diameter command to a call processing node that processes the service information of the. In the diameter client device, A communication interface for communicating with other nodes, When the diameter command for the new call is transmitted through the communication interface, a diameter client manager is added to the diameter command to indicate that the request is for a new call and transmits the diameter command to the diameter server. Device characterized in that. The method of claim 12, The diameter client manager, when transmitting the diameter command for the service flow status (Service_FLow_Status) change information of the user, characterized in that for adding the information indicating that the service flow status change information of the user to the diameter command. The method of claim 12, The diameter client manager, when transmitting a diameter command for change information of the service information of the user, adds information indicating that the change information of the service information of the user to the diameter command. In a diameter system capable of distinguishing new calls, An application unit for adding information indicating that a request for a new call is added to the diameter command and transmitting the diameter command to the front node when transmitting a diameter command for a new call; Receiving the diameter command, if the diameter command includes information indicating that the request for a new call, check whether the call processing node is overloaded, and if the call processing node is overloaded, the overload control process And a front node to perform. The method of claim 15, The prot node forwards the diameter command to the call processing node when the call processing node is not overloaded. The method of claim 15, When the front node does not include information indicating that a request for a new call is included in the diameter command and includes service change status of a service flow (Service_FLow_Status) of the user, the front node analyzes the diameter command to analyze the service flow of the user. And transmit the diameter command to a call processing node that processes state information. The method of claim 15, When the front node does not include information indicating that a request for a new call is included in the diameter command, and includes change information on service information of the user, the front node analyzes the diameter command to service the user. And transmit the diameter command to a call processing node that processes information. The method of claim 15, The application unit, when transmitting a diameter command for the service flow status (Service_FLow_Status) change information of the user, the system characterized in that to add the information indicating that the service flow status change information of the user to the diameter command. The method of claim 15, The application unit, when transmitting a diameter command for the change information of the service information (Service Information) of the user, characterized in that for adding the information indicating that the change information of the service information of the user to the diameter command.

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