KR102176967B1 - Method and device for optimizing resource allocation of access network for multiple media sessions - Google Patents

Abstract

According to various embodiments of the present specification, when two or more media sessions with the same characteristics are simultaneously created in a terminal, media traffic is generated in only one session and the remaining media sessions are paused. The resources of bearers for transmitting traffic (for example, the requested bandwidth value or GBR (Guaranteed Bit Rate) value) are not allotted for the requested value in each media session, but in some media sessions. By allocating only the resources for the requested value, it is possible to save the resources of the access network.

Description

Method and apparatus for optimizing resource allocation of access network for multiple media sessions {METHOD AND DEVICE FOR OPTIMIZING RESOURCE ALLOCATION OF ACCESS NETWORK FOR MULTIPLE MEDIA SESSIONS}

The present specification relates to a method and apparatus for effectively allocating resources of an access network to media sessions serviced through an IMS network. Specifically, when two or more media sessions of the same type are created in the terminal, but media traffic occurs only in some of the session(s) and the remaining media session(s) are paused, The resources of bearers (for example, the requested bandwidth value or the GBR (Guaranteed Bit Rate) value) are not allotted for the sum of the values requested for each allocation in all media sessions, but not all of the resources requested by some of the media sessions. The present invention relates to a method and apparatus for saving resources of an access network by allocating only resources for values.

In general, mobile communication systems have been developed to provide voice services while ensuring user activity. However, mobile communication systems are gradually expanding their range to not only voice but also data services, and have developed to the extent that they can provide high-speed data services.

In today's mobile communication systems, there is a need to solve the lack of resources due to the provision of various services, and there is a need to develop a mobile communication system developed in response to a user's request to receive a higher speed service.

In response to this demand, as a system being developed as a next-generation mobile communication system, standard work is underway for the 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE). In addition, standard work for IMS (IP Multimedia Subsystem), a technology for providing multimedia services such as voice and video through a packet switch network provided through a wired/wireless communication system including the mobile communication system, is in progress, and accordingly, IMS Preparations for commercialization services or commercialization for real-time calls such as voice or video telephone services through the network are in progress. However, as the access network allocates fixed resources for real-time services through the packet switch network, there is a need for research on methods for effectively allocating resources.

In this specification, when two or more media sessions with the same characteristics are simultaneously created for a terminal during a communication service through an IMS network, when media traffic occurs in only one session and the remaining media sessions are paused, The resources of bearers for transmitting media traffic in the access network (for example, the requested bandwidth value or the GBR (Guaranteed Bit Rate) value) are not allotted for all the requested values in each media session, but some Provides a method and apparatus for allocating only resources for values requested in media sessions of

A method for transmitting and receiving messages by a Serving-Call Session Control Function (S-CSCF) of an IP Multimedia Subsystem (IMS) network according to an embodiment of the present invention includes two or more sessions created for one UE. Recognizing that one of the sessions is held; Recognizing that media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same; And generating a message including information notifying the existence of the paused session and transmitting it to a Proxy-Call Session Control Function (P-CSCF).

A method of transmitting and receiving a message by a P-CSCF (Proxy-Call Session Control Function) of an IP Multimedia Subsystem (IMS) network according to an embodiment of the present invention includes two or more sessions created for one terminal (UE). Receiving a message including information notifying that there is a session held in the middle; Recognizing that media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same; And transmitting a message requesting an update of a Policy and Charging Control (PCC) rule to a Policy Control and Charging Rule Function (PCC).

A method of transmitting and receiving a message by a Policy Control and Charging Rule Function (PCC) according to an embodiment of the present invention includes: receiving a message requesting an update of a Policy and Charging Control (PCC) rule; Recognizing that media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same; And updating the PCC rule without considering the requested resource for the paused session.

According to various embodiments of the present specification, it is possible to save resources of an access network by allocating resources for values requested in some media sessions rather than all media sessions.

1 is a diagram showing a structure of an LTE mobile communication system and an IMS system;
2 is a diagram showing a situation in which two sessions are simultaneously created or being created in a terminal;
3 is a flow chart illustrating a process of optimizing a resource in an access network when another IMS session is created in a situation where an IMS session is ongoing according to an embodiment of the present invention;
4 is a flow chart showing a process of optimizing resources in an access network when creating another IMS session after holding an ongoing IMS session according to an embodiment of the present invention;
5 is a flow chart showing a process of optimizing a resource in an access network when an ongoing IMS session is held and another IMS session is created according to an embodiment of the present invention;
FIG. 6 is a flow chart illustrating a bearer modification process in an access network when one IMS session is terminated when resource saving is applied in a situation in which two IMS sessions are in progress according to an embodiment of the present invention.
7 is a flowchart for the operation of an IMS entity (S-CSCF or AS, etc.) or UE according to an embodiment of the present invention;
8 is a flowchart for the operation of the P-CSCF according to an embodiment of the present invention;
9 is a flow chart for the operation of the PCRF according to an embodiment of the present invention.
10 is a block diagram showing the configuration of an IMS entity according to an embodiment of the present invention.
11 is a block diagram showing the configuration of a PCRF according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In describing embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention by omitting unnecessary description.

In each drawing of the present invention, some elements are exaggerated, omitted, or schematically illustrated. In addition, the size of each component does not necessarily reflect the actual size as it is. The same reference numerals are assigned to the same or corresponding components in each drawing.

Advantages and features of the present invention, and a method of implementing them will become apparent with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only the present embodiments are intended to complete the disclosure of the present invention, and the general knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

At this time, it will be appreciated that each block of the flowchart diagrams and combinations of the flowchart diagrams may be executed by computer program instructions. Since these computer program instructions can be mounted on the processor of a general purpose computer, special purpose computer or other programmable data processing equipment, the instructions executed by the processor of the computer or other programmable data processing equipment are described in the flowchart block(s). It creates a means to perform functions. These computer program instructions can also be stored in computer-usable or computer-readable memory that can be directed to a computer or other programmable data processing equipment to implement a function in a particular way, so that the computer-usable or computer-readable memory It is also possible to produce an article of manufacture containing instruction means for performing the functions described in the flowchart block(s). Computer program instructions can also be mounted on a computer or other programmable data processing equipment, so that a series of operating steps are performed on a computer or other programmable data processing equipment to create a computer-executable process to create a computer or other programmable data processing equipment. It is also possible for instructions to perform processing equipment to provide steps for executing the functions described in the flowchart block(s).

In addition, each block of the figures may represent a module, segment, or part of code that includes one or more executable instructions for executing the specified logical function(s). In addition, it should be noted that in some alternative execution examples, functions mentioned in blocks may occur out of order. For example, two blocks shown in succession may actually be executed at the same time, and sometimes they may be executed in the reverse order depending on the function performed by the blocks.

In this case, the term'~ unit' used in the present embodiment means software or hardware components such as FPGA or ASIC, and'~ unit' performs certain roles. However,'~ part' is not limited to software or hardware. The'~ unit' may be configured to be in an addressable storage medium, or may be configured to reproduce one or more processors. Thus, as an example,'~ unit' refers to components such as software components, object-oriented software components, class components and task components, processes, functions, properties, and procedures. , Subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, database, data structures, tables, arrays, and variables. The components and functions provided in the'~ units' may be combined into a smaller number of elements and'~ units', or may be further divided into additional elements and'~ units'. In addition, components and'~ units' may be implemented to play one or more CPUs in a device or a security multimedia card.

In describing the embodiments of the present specification in detail, the OFDM-based wireless communication system, in particular, the 3GPP EUTRA standard will be the main target, but the main subject of this specification is other communication systems and services having a similar technical background and channel type. Also, it may be applied within a range not significantly departing from the scope of the present specification, and this will be possible at the judgment of a person skilled in the technical field of the present specification.

1 is a diagram showing the structure of an LTE mobile communication system and an IMS system.

1, the radio access network of the LTE mobile communication system is a next-generation base station (Evolved Node B, EUTRAN, hereinafter referred to as ENB or Node B) 110 and MME (Mobility Management Entity) 120, S-GW ( Serving Gateway) 130, and P-GW (PDN Gateway; Packet Data Network Gateway) 140, may include a PCRF (Policy Control and Charging Rule Function) 150.

The user terminal (User Equipment, hereinafter referred to as UE) 100 is an external network or IMS network 190 (e.g., P-CSCF) through the ENB 110, S-GW 130, and P-GW 140. Connect to (Proxy-Call Session Control Function)(160)).

ENB 110 is a RAN (Radio Access Network) node, and corresponds to the RNC (Radio Network Controller) of the UTRAN (Universal Terrestrial Radio Access Network) system and the BSC (Base Station Controller) of the GERAN (GSM EDGE Radio Access Network) system. . The ENB 110 is connected to the UE 100 through a radio channel and performs a similar role to the existing RNC/BSC. ENB 110 can use several cells at the same time.

In LTE, since all user traffic is serviced through a shared channel, a device that collects and schedules status information of the UEs 100 is required, and the ENB 110 is responsible for this.

The MME 120 is a device in charge of various control functions, and one MME 120 may be connected to a plurality of base stations 110.

The S-GW 130 is a device that provides a data bearer, and creates or removes a bearer under the control of the MME 120.

The PCRF (Policy Charging and Rules Function) 150 is a device that controls a policy related to a user's quality of service (QoS), and a policy and charging control (PCC) rule corresponding to the policy Is transferred to and applied to the PCEF, that is, the P-GW 140. The PCRF (Policy Charging and Rules Function) 150 is an entity that controls QoS and billing for traffic. Therefore, when the IMS network 190 negotiates a media characteristic to be used in the process of creating a session for a multimedia service, the P-CSCF 160 transmits the characteristic of the media to be serviced to the PCRF 150. The PCRF 150 generates a PCC rule for the media and transmits it to the P-GW 140, and transmits the EPS bearer corresponding to the PCC rule to the UE 100 through the S-GW 130 and the MME 120. ) And created.

In general, UP (User Plane) refers to between the UE 100 through which user data is transmitted/received and the RAN node ENB 110, between the RAN node ENB 110 and the S-GW 130, and S-GW It means a path connecting between (130) and P-GW (140). Among these paths, a path between the UE 100 and the RAN node ENB 110 uses a radio channel with severe resource limitations.

In a wireless communication system such as LTE, a unit to which QoS can be applied is an EPS (Evolved Packet System) bearer. One EPS bearer is used to transmit IP flows with the same QoS requirements. QoS-related parameters may be specified for the EPS bearer, and the parameters include QoS Class Identifier (QCI), Allocation and Retention Priority (ARP), and Guaranteed Bit Rate (GBR). I can. The QCI is a parameter that defines the QoS priority as an integer value, and ARP is a parameter used to determine whether to allow or reject the creation of a new EPS bearer. GBR represents the bandwidth that is fixedly guaranteed to the bearer, and in the case of real-time communication (for example, voice communication or video communication), a GBR type bearer is created and the guaranteed bandwidth value is allocated.

The EPS bearer corresponds to a Packet Data Protocol (PDP) context of a General Packet Radio Service (GPRS) system. One EPS bearer belongs to a PDN connection, and the PDN connection may have an APN (Access Point Name) as a property. If a PDN connection for IMS (IP Multimedia Subsystem) service is created, the PDN connection must be created using a well-known IMS APN.

For IMS service, the P-CSCF 160, which is the first entity of the IMS network, is accessed through the P-GW serving the IMS APN, and the S-CSCF (Serving-Call Session Control Function) 170 is the delivered IMS SIP. The IMS service can be provided by processing the (Session Initiation Protocol) message and delivering it to the AS (Application Server) 180 that provides a specific service or other IMS entities.

In the present invention, an IMS entity may include an S-CSCF, a P-CSCF, or an AS, and may be used as a term including a UE according to an embodiment.

In the present invention, "recognize" may be used interchangeably with "recognize", "perceive", or "detect".

2 is a diagram showing a situation in which two sessions are simultaneously created or being created in a terminal

Referring to Figure 2, UE A (200) and UE B (210) and UE C (220) through a mobile communication network such as LTE, respectively, in the process of creating or creating an IMS session 211 and 221 signaling of each IMS session It represents the path. In the process of creating or creating IMS sessions 211 and 221, when each session transmits GBR media traffic with the same characteristics, the P-GW 230 is the sum of the GBR values required to service sessions 211 and 221, respectively. The GBR value is allocated to the bearers for the two sessions. However, when the UE A 200 holds the session 221, traffic flowing through the session 221 no longer occurs. However, when transmitting the media traffic generated in session 221, if the GBR value allocated to the bearer is maintained on the assumption of two sessions, unnecessary resources such as bandwidth are allocated to the access network, thereby reducing the network resource. It can be wasted. In order to prevent this, this specification introduces a method for saving unnecessary resources such as bandwidth.

In FIG. 2, a case in which UE A 200 communicates with UE B 210 and UE C 220 is an example, but at least one of UE B 210 or UE C 220 is an AS (Application) for a conference call. Server) can also be applied to the resource optimization procedure of the present invention (resource optimization procedure). In addition, although it is assumed that there are two sessions in which bearers are created, the resource optimization procedure of the present invention may be applied even when there are three or more sessions.

3 is a flowchart illustrating a process of optimizing a resource in an access network when another IMS session is created while an IMS session is in progress according to an embodiment of the present invention.

Referring to FIG. 3, in a situation in which UE A 340 creates an IMS session 351 with UE B 350 and communicates (for example, a voice call or a video call), any other terminal UE C ( When 300) tries to communicate with UE A 340, UE C 300 sends a SIP INVITE message (301), and the INVITE message is the S-CSCF of the IMS network to which UE A is connected through the IMS network, It is delivered to the UE A 340 through the Application Server (AS) and the P-CSCF.

In the process of forwarding the INVITE message to UE A, the AS 310 compares the session information between the UE A 340 and the UE B 350 with the INVITE message to find out that UE A is already on the phone. In this case, the AS 310 inserts information indicating that the call is in progress in the forwarding INVITE message and transmits it to the S-CSCF 310, and the INVITE message in which the information indicating that the call is busy is transmitted to the UE A 340. Becomes (310). Accordingly, UE A 340 can make it aware that it is already in a call. Alternatively, when the UE A 340 receives the INVITE message, it may recognize that it is already in a call by comparing the session information between itself and the UE B with the received INVITE message (341).

Recognizing that the call is in progress, UE A 340 may send a 180 Ringing message to UE C 300 to inform UE A that the call is busy (343). In addition, before step 343, UE A (340) sends a 183 Session Progress message (342), and in the process, P-CSCF (310) interlocks with PCRF (320) to service a session with UE C (300). It is also possible to create a bearer for transmitting/receiving traffic of a session with UE C by determining the PCC rule and notifying the P-GW 330 of the PCC rule.

On the other hand, when UE A (340) suspends communication with UE B (350) and decides to communicate with UE C (300) (344), the session is held in the INVITE or UPDATE message. An indication to inform may be included in the Session Description protocol (SDP). The INVITE or UPDATE message may be delivered to UE B 350 through IMS entities (P-CSCF, S-CSCF, AS) of UE A (345). Upon receiving the INVITE or UPDATE message, UE B 350 informs that the session has been held by sending a 200 OK message to UE A 340 again (352). The indication that the above session is held is, for example, "a=sendonly" when the existing session is capable of both transmission and reception, and "a=inactive" when the existing session is only available for reception. You can indicate that the session is held by marking as.

When the UE A 340 knows that the session with the UE B 350 is held, it transmits a 200 OK message to the UE C 300 to establish a session for communication with the UE C (346). In this case, SDP may be included when additional negotiation for the media for the session is required.

When the SDP is included in 200 OK, the negotiation process may be additionally completed through the exchange of an UPDATE message and a 200 OK message between UE C 300 and UE A 340 (302). Thereafter, UE C 300 transmits an ACK message to UE A 340 (303), so that transmission of media traffic between UE C and UE A is actually started.

On the other hand, in the access network of UE A 300, only media traffic between UE C and UE A is transmitted, and media traffic between UE B and UE A does not occur because the session is held, but UE C and UE A Resource waste may occur because not only the GBR allocated to the bearer for inter-media traffic but also the GBR value allocated to the bearer for the media traffic between UE B and UE A are also reserved.

In step 346 or 302, the characteristics of the media for the held session are the characteristics of the media for the session between UE A and UE C (for example, the QCI value, ARP value, or GBR value to be assigned to bearers). You can find a match. In this case, it is possible to save resources by modifying the GBR value allocated to bearers in the PCC rule to a value for one session (312, Resource optimization). In FIG. 3, process 312 is shown to be performed after finding that the characteristics of the media coincide in process 346 or 302, but may be performed simultaneously with process 346 or 302.

Looking at the resource optimization method in step 312 in detail, in step 346 or step 302, the SIP message (e.g., 200 OK message or UPDATE message) transmitted and received by the AS, S-CSCF, P-CSCF or UE A The characteristics of the media set in the header and SDP information included in the SIP message can be used. In other words, it may be determined whether the media traffic of the new session is the same as the media characteristics of the held session. The criteria for determining whether the characteristics of the media are the same are, for example, whether media traffic is transmitted/received to the same terminal address, whether the media type is the same, whether the bandwidth required to service the media is the same, At least one of whether or not the priority is the same may be considered. The IMS entity that determines whether the held session and the new session have the same media traffic may be at least one of AS, S-CSCF, P-CSCF, and UE A.

If the IMS entity determines that the media characteristics of the held session and the media traffic of the new session are the same, the same media in the header of the SIP message transmitted in step 346 or 302 or the SDP information included in the SIP message. Notification information notifying that there is a held session with traffic characteristics can be included.

The notification information is the Session ID of the held session, the address information of the corresponding terminal, the domain information to which the address of the corresponding terminal is allocated, the parameter indicating the characteristics of the media corresponding to the held session, or modification. It may include at least one of bandwidth information to be allocated to desired media traffic.

The P-CSCF may recognize that there is a held session having the same media traffic characteristics as the new session through the notification information included in the received SIP message or by determining by itself. In this case, the P-CSCF obtains information related to the media traffic to be transmitted in the corresponding session of the SDP, and then informs the access network of the traffic characteristics and sends the Media-Sub-Component to the Diameter AA (Authorization&Authentication) Request message to allocate the necessary resources. Including AVP or Flow-Description AVP information, etc., it is transmitted to the PCRF 320 through the Rx interface (313), and the PCRF 320 receiving the Diameter AA Request determines the PCC rule to be applied for the traffic occurring in the session. Generate. When the P-CSCF recognizes the need to save resources by recognizing that there is a held session having the same media traffic characteristics as a new session, the PCRF 320 considers resource saving through Resource-Optimization required indication AVP. You can tell them to create PCC rules.

The Resource-Optimization required indication AVP is among the Session ID of the held session, the address and port information of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the bandwidth information to be allocated to the media traffic desired to be modified. It may include at least one. Alternatively, the Resource-Optimization required indication AVP may include a Resource-Optimization required indication included in Media-Sub-Component AVP or Flow-Description AVP information to inform the PCRF 320 of bandwidth information to be saved. .

The PCRF 320 sends Diameter AA Answer through the Rx interface in response to the Diameter AA request (322). As described above, the PCRF 320 generates a PCC rule using information received through the Diameter AA request. For example, when a Resource-Optimization required indication is received, the GBR value to be allocated to the corresponding bearers is not the sum of the GBR values respectively allocated for the traffic generated in the held session and the traffic generated in the new session. The PCC rule is determined by considering only the GBR value for the traffic of one session, and the determined PCC rule is included in the Re-auth Request and transmitted to the P-GW 330 (323). In addition, the PCRF 320 is a state information parameter indicating that Resource-Optimization has been applied to the bearers, for example, information on how many times the GBR value allocated to the bearer has not been added, or is not allocated to the bearer. Information on the omitted GBR value can be saved.

The P-GW 330 performs a bearer modification process with the UE-A 340 according to the changed PCC rule (331). Thereafter, the P-GW 330 transmits a Re-auth Answer (RAA) to the PCRF 320 to complete the procedure for resource saving.

According to another embodiment of the present invention, instead of transmitting the Resource-Optimization required indication AVP from the P-CSCF to the PCRF 320 in step 313 of FIG. 3, the GBR value allocated to the corresponding bearer is set to 0 or NULL. As a result, it may indicate that Resource-Optimization is applied by indicating that the GBR is not additionally allocated to the bearer for the session.

According to another embodiment of the present invention, a criterion for determining whether media traffic is identical between a session held in step 346 or step 302 of FIG. 3 and a new session is the same as whether media traffic is transmitted/received to the same terminal address, media type At least one of whether or not is the same or whether or not the media has the same priority may be considered. Accordingly, it can be determined whether the media characteristics of the new session excluding the bandwidth to be allocated are the same as the media characteristics of the held session.

When the AS, S-CSCF, P-CSCF, or UE A determines the identity of the media traffic of the session, the header of the SIP message or the SDP information included in the SIP message indicates that there is a held session having the same media traffic characteristics. Notification information can be included.

The notification information is the Session ID of the held session, the address information of the corresponding terminal, the domain information assigned the address of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the media traffic desired to be modified. It may include at least one of bandwidth information to be allocated to.

The P-CSCF may recognize that there is a held session having the same media traffic characteristics as the new session through the notification information included in the received SIP message or by determining by itself. In this case, the P-CSCF acquires information related to the media traffic to be transmitted in the session of the SDP, and then includes the Media-Sub-Component AVP or Flow-Description AVP information in the Diameter AA Request, and the PCRF (320) through the Rx interface. ), and receiving the Diameter AA Request (313), the PCRF 320 generates a PCC rule to be applied to the traffic generated in the corresponding session. When the P-CSCF recognizes the need to save resources by recognizing that there is a held session having the same media traffic characteristics as a new session, the PCRF 320 considers resource saving through Resource-Optimization required indication AVP. You can tell them to create PCC rules.

The Resource-Optimization required indication AVP is among the Session ID of the held session, the address and port information of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the bandwidth information to be allocated to the media traffic desired to be modified. It may include at least one. In addition, the Resource-Optimization required indication AVP may include a Resource-Optimization required indication included in Media-Sub-Component AVP or Flow-Description AVP information to inform the PCRF 320 of bandwidth information to be saved. .

The PCRF 320 sends Diameter AA Answer through the Rx interface in response to the Diameter AA request (322). As described above, the PCRF 320 generates a PCC rule using the information received through the Diameter AA request (Resource-Optimization). For example, when a Resource-Optimization required indication is received, the GBR value to be allocated to the corresponding bearers is not the sum of the GBR values respectively allocated for the traffic generated in the held session and the traffic generated in the new session. The PCC rule is determined in consideration of only the largest GBR value among the GBR values allocated to each session, and the determined PCC rule is included in the Re-auth Request and transmitted to the P-GW 330 (323). In addition, the PCRF 320 may store a state information parameter indicating that Resource-Optimization has been applied to corresponding bearers, for example, information on a GBR value that is omitted without being allocated to the bearer.

The P-GW 330 performs a bearer modification process with the UE-A 340 according to the changed PCC rule (331). Thereafter, the P-GW 330 transmits a Re-auth Answer (RAA) to the PCRF 320 to complete the procedure for resource saving.

According to another embodiment of the present invention, the procedure for determining whether the media traffic of the held session and the new session are identical in step 346 or step 302 of FIG. 3 may be performed by the PCRF 320, not the IMS entity 310. have. In this case, the P-CSCF includes traffic characteristics such as Media-Sub-Component AVP or Flow-Description AVP information in the Diameter AA Request and delivers it to the PCRF 320 through the Rx interface (313), and sends the Diameter AA Request. The received PCRF 320 sends a Diameter AA Answer through the Rx interface in response to the AA request (322). The PCRF 320 may perform a procedure of determining whether the characteristics of the media traffic of the new session transmitted in step 313 and the media traffic of the held session are identical. The PCRF 320 may consider at least one of, for example, whether media traffic is transmitted/received to the address of the same terminal, whether the media type is the same, or whether the media priority is the same. Accordingly, to be allocated accordingly It can be determined whether the media characteristics of the new session excluding the bandwidth are the same as the media characteristics of the held session. In the determination process, when it is determined that the traffic characteristics are the same, the PCRF 320 generates a PCC rule in consideration of resource saving. In other words, when creating the PCC rule, the GBR value to be allocated to bearers corresponding to traffic with the same characteristics is determined by the sum of the GBR values allocated for the traffic generated in the held session and the traffic generated in the new session. Instead, it can be determined by considering only the largest GBR value among the GBR values allocated to each session. The PCRF 320 includes the generated PCC rule in a Re-auth Request (RAR) and transmits it to the P-GW 330 (323). In addition, the PCRF 320 is a state information parameter indicating that Resource-Optimization has been applied to the bearers, for example, information on how many times the GBR value allocated to the bearer has not been added, or is not allocated to the bearer. Information on the omitted GBR value can be saved.

The P-GW 330 performs a bearer modification process with the UE-A 340 according to the changed PCC rule (331). Thereafter, the P-GW 330 transmits 332 a Re-auth Answer (RAA) to the PCRF 320 to complete the procedure for resource saving.

4 is a flowchart illustrating a process of optimizing resources in an access network when creating another IMS session after holding an ongoing IMS session according to an embodiment of the present invention.

Referring to FIG. 4, UE A 440 creates an IMS session with UE B 450 to make a call, and after UE A 440 holds the ongoing session, it decides to communicate with UE C 400. Upon determination, UE A 440 includes an indication indicating that the session has been held in an INVITE or UPDATE message in Session Description Protocol (SDP) and sends it to UE B 450, and the INVITE or UPDATE message is UE A It is delivered to the UE B 450 through the IMS entity of 440 (eg, P-CSCF, S-CSCF and AS). Upon receiving the INVITE or UPDATE message, UE B 450 may notify that the session has been held by sending a 200 OK message to UE A 440 (451). The indication that the above session is held is, for example, "a=sendonly" when the existing session is capable of both transmission and reception, and "a=inactive" when the existing session is only available for reception. You can indicate that the session is held by marking as.

When the UE A 440 knows that the session with the UE B 450 is held, it performs a procedure of creating a session with the UE C 400 (401). For example, when UE A 440 transmits an INVITE message to UE C 400, UE C 400 transmits a 183 Session Progress message to UE A 440. The SIP messages (INVITE message and 183 Session Progress) are delivered through the IMS entity (eg P-CSCF, S-CSCF and AS) 410 of UE A 440.

In the procedure in which the UE A 440 creates a session with the UE C 400, the P-CSCF 410 obtains media traffic information from the SDP information included in the SIP message and transmits it to the PCRF 420, The PCRF 420 may generate a PCC rule and transmit it to the P-GW 430 to perform a resource reservation procedure such as creating or modifying a bearer (421). Thereafter, a session between UE A 440 and UE C 400 through the process of PRACK (Provisional ACK) 445, 200 OK 403, 180 Ringing 404, 200 OK 405 and ACK 446 It is created and communicated. In the process of creating the Session, additional SIP signaling may occur for SDP negotiation.

Meanwhile, when a session between UE B 450 and UE A 440 is held, only media traffic between UE C 400 and UE A 440 is transmitted in the access network of UE A 440, and UE B ( 450) and the media traffic between UE A 440 does not occur. In the resource reservation procedure, not only the GBR allocated to the bearer for media traffic between UE C 400 and UE A 440, but also the GBR value allocated to the bearer for media traffic between UE B 450 and UE A 440 Also, the resource may be wasted as it is reserved together.

When it is recognized that the characteristics of the media for the session held in step 402, step 445, or step 405 match the characteristics of the media for the session between UE A 440 and UE C 400 (for example, bearer When it is recognized that the QCI value, ARP value, or GBR value to be allocated to each field coincide), the GBR value allocated to the bearers in the PCC rule can be modified to the value for one session, thereby saving resources ( 406, Resource optimization). In FIG. 4, process 406 is shown to be performed after finding that the characteristics of the media match in process 402, process 445, or process 403, but otherwise, process 402, process 445, or process 403 may be simultaneously performed. Since step 421 is substantially the same as step 406, if step 406 is performed simultaneously with step 402, step 421 does not need to be performed separately.

Looking at the resource saving method in step 406 in detail, SIP messages transmitted and received by AS, S-CSCF, P-CSCF, or UE A in steps 402, 445, or 403 (e.g., 183 Session Progress message, 200 OK message) Or UPDATE message) and the media characteristics set in the SDP value included in the SIP message. The AS, S-CSCF, P-CSCF, or UE A may determine whether the media traffic of the new session is the same as the media characteristics of the held session. The criteria for determining whether the characteristics of the media are the same are, for example, whether media traffic is transmitted/received to the address of the same terminal, whether the media type is the same, whether the bandwidth required to service the media is the same, At least one of whether or not the priority is the same may be considered. The IMS entity that determines whether the held session and the new session have the same media traffic may be one of AS, S-CSCF, P-CSCF, or UE A.

If the IMS entity determines that the media characteristics of the held session and the media traffic of the new session are the same, the header of the SIP message transmitted in the process 402, 445, or 403 or the SDP information included in the SIP message , Notification information indicating that there is a held session having the same media traffic characteristics may be included.

The notification information is the Session ID of the held session, the address information of the corresponding terminal, the domain information assigned the address of the corresponding terminal, or the parameter indicating the characteristics of the media corresponding to the held session, or the desired to be modified. It may include some or all of the bandwidth information to be allocated to media traffic.

The P-CSCF may recognize that there is a held session having the same media traffic characteristics as the new session through the notification information included in the received SIP message or by determining by itself. In this case, the P-CSCF acquires information related to the media traffic to be transmitted in the session of the SDP, and then includes the Media-Sub-Component AVP or Flow-Description AVP information in the Diameter AA Request, and the PCRF (420) through the Rx interface. ), and receiving the Diameter AA Request (412), the PCRF 320 generates a PCC rule to be applied to the traffic generated in the corresponding session. When P-CSCF recognizes the need to save resources by recognizing that there is a held session having the same media characteristics as a new session, PCC considering resource saving to PCRF (420) through Resource-Optimization required indication AVP You can tell them to create rules.

The Resource-Optimization required indication AVP is among the Session ID of the held session, the address and port information of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the bandwidth information to be allocated to the media traffic desired to be modified. It may include at least one. In addition, the Resource-Optimization required indication AVP may include a Resource-Optimization required indication included in Media-Sub-Component AVP or Flow-Description AVP information to inform the PCRF 420 of bandwidth information to be saved. .

The PCRF (420) sends a Diameter AA Answer through the Rx interface in response to the Diameter AA request (422). As described above, the PCRF 420 generates a PCC rule using the information received through the Diameter AA request. For example, when a Resource-Optimization required indication is received, the GBR value to be allocated to the corresponding bearers is not the sum of the GBR values respectively allocated for the traffic generated in the held session and the traffic generated in the new session. The PCC rule is determined in consideration of only the GBR value for traffic of one session, and the determined PCC rule is included in the Re-auth Request and transmitted to the P-GW 430 (423). In addition, the PCRF 420 is a state information parameter indicating that Resource-Optimization has been applied to the bearers, for example, information on how many times the GBR value allocated to the bearer has not been added, or is not allocated to the bearer. Information on the omitted GBR value can be saved.

The P-GW 430 performs a bearer modification process with the UE-A 440 according to the changed PCC rule (431). Thereafter, the P-GW 430 transmits a Re-auth Answer (RAA) to the PCRF 420 (432), thereby completing the procedure for resource saving.

According to another embodiment of the present invention, instead of transmitting the Resource-Optimization required indication AVP from the P-CSCF to the PCRF 420 in step 412 of FIG. 4, the GBR value allocated to the corresponding bearer is set to 0 or NULL. As a result, it may indicate that Resource-Optimization is applied by indicating that the GBR is not additionally allocated to the bearer for the session.

According to another embodiment of the present invention, a criterion for determining whether media traffic is identical between a session held in step 402, step 445 or step 405 of FIG. 4 and a new session is whether media traffic is transmitted or received to the same terminal address, At least one of whether the media type is the same or whether the media priority is the same may be considered. Accordingly, it can be determined whether the media characteristics of the new session excluding the bandwidth to be allocated are the same as the media characteristics of the held session.

When the AS, S-CSCF, P-CSCF, or UE A determines the identity of the media traffic of the session, it is notified that there is a held session having the same media traffic characteristics in the header of the SIP message or the SDP information included in the SIP message. Notification information can be included.

The notification information is the Session ID of the held session, the address information of the corresponding terminal, the domain information assigned the address of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the media traffic desired to be modified. It may include at least one of bandwidth information to be allocated to.

The P-CSCF may recognize that there is a held session having the same media traffic characteristics as the new session through the notification information included in the received SIP message or by determining by itself. In this case, the P-CSCF acquires information related to the media traffic to be transmitted in the session of the SDP, and then includes the Media-Sub-Component AVP or Flow-Description AVP information in the Diameter AA Request, and the PCRF (420) through the Rx interface. ), and receiving the Diameter AA Request (412), the PCRF (420) generates a PCC rule to be applied to the traffic generated in the corresponding session. When P-CSCF recognizes the need to save resources by recognizing that there is a held session having the same media traffic characteristics as the new session, the PCRF 420 considers resource saving through Resource-Optimization required indication AVP. You can tell them to create PCC rules.

The Resource-Optimization required indication AVP is among the Session ID of the held session, the address and port information of the corresponding terminal, the parameter indicating the characteristics of the media corresponding to the held session, or the bandwidth information to be allocated to the media traffic desired to be modified. It may include at least one. In addition, the Resource-Optimization required indication AVP may include a Resource-Optimization required indication included in Media-Sub-Component AVP or Flow-Description AVP information to inform the PCRF 420 of bandwidth information to be saved. .

The PCRF (420) sends a Diameter AA Answer through the Rx interface in response to the Diameter AA request (422). As described above, the PCRF 420 generates a PCC rule using the information received through the Diameter AA request (Resource-Optimization). For example, when a Resource-Optimization required indication is received, the GBR value to be allocated to the corresponding bearers is not the sum of the GBR values respectively allocated for the traffic generated in the held session and the traffic generated in the new session. The PCC rule is determined in consideration of only the largest GBR value among the GBR values allocated to each session, and the determined PCC rule is included in the Re-auth Request and transmitted to the P-GW 430 (323). In addition, the PCRF 420 may store a state information parameter indicating that Resource-Optimization is applied to corresponding bearers, for example, information on a GBR value that is omitted without being allocated to the bearer.

The P-GW 430 performs a bearer modification process with the UE-A 440 according to the changed PCC rule (431). Thereafter, the P-GW 430 transmits a Re-auth Answer (RAA) to the PCRF 420 to complete a procedure for resource saving.

According to another embodiment of the present invention, the procedure for determining whether the media traffic of the session held in the process 402, 445, or 405 of FIG. 4 is identical to the new session is not performed by the IMS entity 410, but by the PCRF 420. Can be done. In this case, the P-CSCF includes traffic characteristics such as Media-Sub-Component AVP or Flow-Description AVP information in the Diameter AA Request and delivers it to the PCRF 420 through the Rx interface (412), and sends the Diameter AA Request. The received PCRF (420) sends a Diameter AA Answer through the Rx interface in response to the Diameter AA request (422). Meanwhile, the PCRF 420 may perform a procedure of determining whether the characteristics of the media traffic of the new session transmitted in step 412 and the media traffic of the held session are identical. For example, at least one of whether media traffic is transmitted/received to the same terminal address, whether the media type is the same, or whether the media priority is the same may be considered. Accordingly, it may be determined whether the media characteristics of the new session excluding the bandwidth to be allocated are the same as the media characteristics of the held session. In the determination process, when it is determined that the traffic characteristics are the same, the PCRF 420 generates a PCC rule in consideration of resource saving. In other words, when creating the PCC rule, the GBR value to be allocated to bearers corresponding to traffic with the same characteristics is determined by the sum of the GBR values allocated for the traffic generated in the held session and the traffic generated in the new session. Instead, it can be determined by considering only the largest GBR value among the GBR values allocated to each session. The PCRF 420 includes the generated PCC rule in a Re-auth Request (RAR) and transmits it to the P-GW 430 (423). In addition, the PCRF 420 is a state information parameter indicating that Resource-Optimization has been applied to the bearers, for example, information on how many times the GBR value allocated to the bearer has not been added, or is not allocated to the bearer. Information on the omitted GBR value can be saved.

The P-GW 430 performs a bearer modification process with the UE-A 440 according to the changed PCC rule (431). Thereafter, the P-GW 430 transmits a Re-auth Answer (RAA) to the PCRF 420 (432), thereby completing the procedure for resource saving.

5 is a flowchart illustrating a process of optimizing a resource in an access network when an ongoing IMS session is held and another IMS session is created according to an embodiment of the present invention.

Referring to FIG. 5, an IMS session is created between UE A 530 and UE B 540, and the session is held while talking (531), and a new session is being created between UE A 530 and UE C 500. Or, when the generation is completed (501), the UE A 530 may detect that the characteristics of the media traffic for each session are the same from the SDP for each session (532). However, although GBR of an allocated bearer is allocated for all media traffic, a session between UE A and UE B does not generate traffic, so resources may be wasted. To prevent this, when UE A 530 transmits a UE-requested bearer modification request to MME 520, the MME 520 sends a message requesting modification of the GBR value allocated to the bearer to the PGW 520 Can be sent to (533). In this case, the UE-requested bearer modification request message may include a modified GBR value for the bearer. The modified GBR value may correspond to the GBR value for one of the sessions when the GBR value required for each session is the same, for example, and two GBR values when the GBR value required for each session is different. Can correspond to the larger of the.

In addition, when the UE A 530 sends the UE-requested bearer modification request message, to indicate that the bearer modification is requested for resource saving to the P-GW 520, the UE-requested bearer modification request message includes A Resource Optimization request indication may be delivered through a Protocol Configuration Options (PCO) information element (IE). The PCO including the GBR value to be modified for the bearer and the Resource Optimization request indication is transmitted from the MME to the P-GW via the S-GW by a Bearer Resource comment message. Upon receiving the Bearer Resource comment message, the P-GW delivers the GBR value and Resource Optimization request to be modified by the Diameter CC (Credit Control) Request message to the PCRF (510) (521), and the PCRF (510) With reference to the above information, the PCC rule for the bearer is modified. In this case, the PCRF 510 may store information on a state information parameter indicating that Resource-Optimization has been applied to corresponding bearers (eg, a GBR value that is omitted without being allocated to the bearer). And, when the PCRF (510) delivers the updated PCC rule to the P-GW (520) by a Diameter CC (Credit Control) Answer message (513), the P-GW (520) performs a bearer modification process (procedure). Thus, the bandwidth allocated to the bearer can be saved.

6 is a flowchart illustrating a process of modifying a bearer in an access network when one IMS session is terminated when resource saving is applied in a situation where two IMS sessions are in progress according to an embodiment of the present invention.

Referring to FIG. 6, in a situation where an IMS session between UE A 640 and UE B 650 and an IMS session between UE A 640 and UE C 600 coexist, when one of the two sessions ends (602), IMS entities (P-CSCF, S-CSCF, AS or UE A) recognize that the session is terminated through a SIP BYE message or the like. At this time, when the IMS entities recognize that the media traffic characteristics of the session are the same during the session creation process and transmit the notification information including the SIP header or SDP, an indication indicating that the notification information has been delivered to the SIP BYE message is provided by the SIP. It can be delivered by including it in the header of the message or in the SDP. Therefore, the P-CSCF receives a SIP BYE message including an indication indicating that the Notification information has been delivered, or the P-CSCF recognizes that the media traffic characteristics of the session are the same during the session creation process and receives the SIP BYE message. In this case, a process for deleting a related session is started by sending an ST (Session Termination) Request message to the PCRF 620. In this case, the ST Request message may include a Resource-Optimization indication AVP to inform the PCRF 620 that resource saving has been applied.

The Resource-Optimization indication AVP is a session ID of a related session, address and port information of a corresponding terminal, a parameter indicating a characteristic of a media corresponding to a related session, or a part of bandwidth information to be allocated to the media traffic desired to be modified. Or it could include all-inclusive, or simply an indication that resource savings have been applied.

Upon receiving the ST Request message, the PCRF 620 modifies the PCC rule in consideration of the transmitted Resource-Optimization indication or the status information parameter indicating that the Resource-Optimization stored in the PCRF 620 has been applied (621). . Modification of the PCC rule is, for example, if the status information parameter indicates information on how many times the GBR value allocated to the bearer has not been added, exclude 1 from the number of unadded GBR information and the other terminal in the corresponding session. Modify PCC rules such as deleting the IP address and port information corresponding to in the packet filter. Alternatively, if the status information parameter is not assigned to a bearer and indicates information on the omitted GBR value, excluding the GBR value allocated to the traffic of the session from the omitted GBR value, Modify PCC rules such as deleting IP address and port information from the packet filter.

The PCRF 620 sends the ST answer message 622 to the P-CSCF in response to the ST request message 611, and also includes the modified PCC rule in the RA request message 623 to the PGW 630. send. The PGW 630 performs the bearer modification procedure 631 according to the changed PCC rule and also sends an RA Answer 632 in response to the RA request message 623.

From now on, with respect to the above embodiments, the flow of operations for each of the IMS entity (S-CSCF, P-CSCF or AS), UE and PCRF will be described.

7 is a flow chart for the operation of an IMS entity (S-CSCF or AS, etc.) or UE according to an embodiment of the present invention.

FIG. 7 shows the transmission of information informing the S-CSCF, AS, or UE to the P-CSCF when it is recognized that the same media traffic is generated in a session newly negotiated with a holding session.

The IMS entity (S-CSCF or AS) or the UE recognizes that an ongoing IMS session between UE A and UE B is held (701). In the above situation, in the process of creating another IMS session between UE A and UE C, while negotiation for media traffic through the SDP included in the SIP message is in progress (702), the SDP is negotiated (for example, If the SIP message contains an SDP answer), the SIP message is received. The IMS entity determines whether the media traffic negotiated for the new session and the media traffic of the held session are the same (703). If it is determined that the negotiated media traffic is the same as the media traffic of the held session, notification information notifying that there is a held session having the same media traffic characteristics is transmitted to the P-CSCF so that the identity is transmitted to the SIP header or SIP. Included in the SDP information included in the message (704). Then, the modified SIP message is forwarded to the next IMS entity (705). For example, S-CSCF may forward to P-CSCF, AS may forward to S-CSCF, and UE may forward to P-CSCF.

8 is a flowchart of the operation of the P-CSCF according to an embodiment of the present invention.

The IMS entity (P-CSCF) recognizes that an IMS session between UE A and UE B is held (801). In the above situation, in order to create another IMS session between UE A and UE C, while negotiation for media traffic is in progress through the SDP included in the SIP message (802), the SDP is negotiated (e.g., SIP If the message includes an SDP answer) It is a situation where a SIP message has been received.

In order to determine whether the media traffic negotiated for the new session and the media traffic of the held session are identical to each other, the P-CSCF receives the received SIP notification information indicating that there is a held session having the same media traffic characteristics. Whether it is included in the message is checked (803). If the notification information is not included, the P-CSCF may determine by itself whether the media traffic negotiated for the new session and the media traffic of the held session are the same (805 ).

If it is determined that the media traffic negotiated in step 805 is the same as the media traffic of the held session, the P-CSCF generates an AA request message including a Resource-Optimization required indication (804).

Then, the P-CSCF forwards the SIP message to the next IMS entity, and forwards the AA request to the PCRF to trigger the update of the PCC rule (806).

9 is a flow chart for the operation of the PCRF according to an embodiment of the present invention.

When the PCRF receives the AA request message from the P-CSCF (901), it checks whether a Resource-Optimization required indication is included in the received AA request message (902).

When the AA request message does not include the Resource-Optimization required indication, the PCRF may determine whether the media traffic negotiated for the new session and the media traffic of the held session are the same (903).

If the PCRF determines that resource optimization is necessary through steps 902 and 903, the PCRF may update the PCC rule without considering the requested GBR value (904). For example, the PCC rule can be updated with a saved GBR value corresponding to the larger of the requested GBR value and the GBR value of the bearer allocated for the held session traffic. At this time, the PCRF may store information on the saved GBR value.

If the PCRF determines that Resource optimization is not required, it updates the PCC rule with reference to the requested GBR (905). When the PCRF delivers the updated PCC rule to the P-GW (906), the P-GW performs a procedure of creating or modifying a bearer in an actual access network.

When the PCRF receives a session termination (ST) request (907), it checks whether resource optimization has been performed for the bearer corresponding to the session (908). For example, when GBR has saved information for the bearer of the session or when it is known that Resource optimization has been requested through the resource optimization indication from P-CSCF, PCRF is performed for the bearer corresponding to the ending session. You will realize that resource optimization has been done. When it is determined that resource optimization has been accomplished, the GBR value saved to remove the GBR value corresponding to the bearer of the terminating session without modifying the GBR value when updating the PCC rule Modify (909). On the other hand, if it is determined that resource optimization has not been performed for the bearer corresponding to the ending session, when updating the PCC rule, the GBR value corresponding to the bearer corresponding to the ending session is excluded from the GBR value of the corresponding bearer ( 910). Then, the PCRF transfers the updated PCC rule to the P-GW, so that the P-GW actually performs a procedure of modifying or deleting a bearer in the access network (911).

10 is a block diagram showing the configuration of an IMS entity according to an embodiment of the present invention.

Referring to FIG. 10, the IMS entity 1000 includes a communication unit 1010, a storage unit 1020, and a control unit 1030. The communication unit 1010 may transmit and receive signals to and from other IMS entities or PCRFs of the IMS network under the control of the controller. The storage unit 1020 may store information to be transmitted to other IMS entities or PCRFs or information received from them.

When the IMS entity 1000 is an S-CSCF, the control unit 1030 recognizes that one of the two or more sessions generated for one UE is held, and the UE Recognizing that the media traffic characteristics of the paused session and at least one non-paused session are the same among two or more sessions created for, and includes information notifying the existence of the paused session. It is possible to control to generate a message to be transmitted to P-CSCF (Proxy-Call Session Control Function). The information includes the Session ID of the paused session, the address information of the terminal, the domain information to which the address of the terminal is allocated, the parameter indicating the characteristics of the media corresponding to the held session, or the media traffic to be modified. It may include at least one of information on a bandwidth to be allocated.

When the IMS entity 1000 is a P-CSCF, the controller 1030 informs that there is a held session among two or more sessions created for one terminal (UE). Receiving a message including, and recognizing that the media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same, and PCC (Policy and Charging Control) It is possible to control to transmit a message requesting an update of a rule to a Policy Control and Charging Rule Function (PCRF). The information includes the Session ID of the paused session, the address information of the terminal, the domain information to which the address of the terminal is allocated, the parameter indicating the characteristics of the media corresponding to the held session, or the media traffic to be modified. It may include at least one of information on a bandwidth to be allocated.

In FIG. 10, it is described that the communication unit 1010, the storage unit 1020, and the control unit 1030 are configured as separate blocks, and each block performs a different function, but this is only for technical convenience. There is no distinction between functions.

11 is a block diagram showing the configuration of a PCRF according to an embodiment of the present invention.

Referring to FIG. 11, the PCRF 1100 includes a communication unit 1110, a storage unit 1120, and a control unit 1130. The communication unit 1110 may transmit/receive a signal to an IMS entity or an MME under the control of the controller. The storage unit 1020 may store information to be transmitted to an IMS entity or an MME, or information received from them.

The control unit 1130 receives a message requesting an update of a Policy and Charging Control (PCC) rule, and at least one of the paused session and the paused session among two or more sessions generated for the terminal Recognizing that the media traffic characteristics of the sessions are the same, it is possible to control to update the PCC rule without considering the requested resource for the paused session. The resource may include at least one of Bandwidth and GBR. The media traffic characteristic may include at least one of a transmission/reception address of media traffic, a media type, a bandwidth value required to provide media, and a media priority. The controller 1130 may control to transmit a message including information on the updated PCC rule to a packet data network (PDN)-gateway. When updating the PCC rule, the controller 1130 may allocate a resource based on a GBR value allocated for traffic occurring in the at least one session that is not paused, and the non-paused session is 2 If this is the case, resources may be allocated based on the sum of the GBR values allocated to each of the sessions that are not paused. When the characteristics of traffic generated in the two sessions are the same except for the GBR value, the controller 1130 may allocate a resource based on the largest value among the GBR values.

In FIG. 11, it is described that the communication unit 1110, the storage unit 1120, and the control unit 1130 are configured as separate blocks, and each block performs a different function, but this is only for technical convenience. There is no distinction between functions.

The embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples to easily explain the technical content of the present invention and to aid understanding of the present invention, and are not intended to limit the scope of the present invention. In addition, the embodiments according to the present invention described above are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

Claims (20)

In a method for transmitting and receiving a message by a device performing S-CSCF (Serving-Call Session Control Function) of an IP Multimedia Subsystem (IMS) network,
Recognizing that one of the two or more sessions created for one UE is held;
Recognizing that media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same; And
Generating a message including information notifying the existence of the paused session and transmitting it to a device that performs a P-CSCF (Proxy-Call Session Control Function), and the information is paused (Holding) Session ID of an established session, address information of the terminal, domain information to which the address of the terminal is allocated, a parameter indicating the characteristics of the media corresponding to the paused session, or bandwidth information to be allocated to the media traffic to be modified S-CSCF message transmission and reception method, characterized in that at least one of. delete In a method for transmitting and receiving a message by a device performing a P-CSCF (Proxy-Call Session Control Function) of an IP Multimedia Subsystem (IMS) network,
Receiving a message including information notifying that there is a held session among two or more sessions created for one UE;
Recognizing that media traffic characteristics of the paused session and at least one non-paused session among two or more sessions generated for the terminal are the same; And
And transmitting a message requesting an update of a Policy and Charging Control (PCC) rule to a device performing a Policy Control and Charging Rule Function (PCC), and the information is Session of a paused session. ID, or at least one of the address information of the terminal, domain information to which the address of the terminal is allocated, a parameter indicating the characteristics of the media corresponding to the paused session, or bandwidth information to be allocated to the media traffic to be modified A method of transmitting and receiving a message by a device performing P-CSC, characterized in that. delete In a method for transmitting and receiving a message by a device performing a Policy Control and Charging Rule Function (PCRF),
Receiving a message requesting an update of a Policy and Charging Control (PCC) rule;
Recognizing that media traffic characteristics of a paused session and at least one non-paused session among the two or more sessions generated for the terminal are the same; And
And updating the PCC rule without considering the requested resource for the paused session. The method of claim 5,
The message transmission and reception method of a device performing PCRF, characterized in that the resource includes at least one of a bandwidth or a GBR. The method of claim 5,
The media traffic characteristic includes at least one of a transmission/reception address of media traffic, a media type, a bandwidth value required to provide the media, and a media priority. How to send and receive. The method of claim 5,
And transmitting a message including information on the updated PCC rule to a packet data network (PDN)-gateway. The method of claim 5,
The updating of the PCC rule comprises allocating a resource based on a GBR value allocated for traffic occurring in the at least one session that is not paused. The method of claim 9,
When the number of unpaused sessions is 2 or more, a message transmission/reception method of a device performing PCRF, wherein resources are allocated based on a sum of GBR values allocated to each of the non-paused sessions. In the device that performs S-CSCF (Serving-Call Session Control Function) of an IMS (IP Multimedia Subsystem) network,
Transmitting and receiving unit for transmitting and receiving a signal with a device that performs a P-CSCF (Proxy-Call Session Control Function); And
Recognizing that one of the two or more sessions created for one terminal (UE) is held is recognized, and the paused session among two or more sessions created for the terminal is not suspended. Recognizing that the media traffic characteristics of at least one unused session are the same, generates a message including information notifying the existence of the paused session to perform the P-CSCF (Proxy-Call Session Control Function) And a control unit for controlling transmission to the device to be transmitted, and the information includes Session ID of a paused session, address information of the terminal, domain information assigned to the address of the terminal, and media corresponding to the paused session. An apparatus for performing S-CSCF, characterized in that it is at least one of a parameter representing a characteristic of and information about a bandwidth to be allocated to the media traffic to be modified. delete In the device that performs P-CSCF (Proxy-Call Session Control Function) of an IMS (IP Multimedia Subsystem) network,
Transmitting/receiving unit for transmitting and receiving signals with a device performing a Serving-Call Session Control Function (S-CSCF) or a device performing a Policy Control and Charging Rule Function (PCRF); And
Receives a message including information notifying that there is a held session among two or more sessions created for one UE, and two or more sessions generated for the UE A device that recognizes that the media traffic characteristics of the paused session and at least one session that are not paused are the same, and sends a message requesting an update of a Policy and Charging Control (PCC) rule to perform the PCRF. And a control unit for controlling transmission to the terminal, and the information includes Session ID of a paused session or address information of the terminal, domain information assigned to the address of the terminal, and characteristics of media corresponding to the paused session An apparatus for performing P-CSCF, characterized in that it is at least one of a parameter indicating a parameter or information about a bandwidth to be allocated to a media traffic to be modified. delete In the device for performing a PCRF (Policy Control and Charging Rule Function),
Transmitting and receiving unit for transmitting and receiving a signal with a device that performs a P-CSCF (Proxy-Call Session Control Function); And
Receives a message requesting an update of a Policy and Charging Control (PCC) rule, and the media traffic characteristics of a paused session and at least one non-paused session among two or more sessions created for the terminal And a control unit for controlling to update the PCC rule without considering the resource requested for the paused session, recognizing the same, and controlling the update of the PCC rule. The method of claim 15,
The device for performing PCRF, characterized in that the resource includes at least one of bandwidth and GBR. The method of claim 15,
The media traffic characteristic includes at least one of a transmission/reception address of media traffic, a media type, a bandwidth value required to provide media, and a media priority. The method of claim 15,
The controller is an apparatus for performing PCRF, characterized in that for controlling to transmit a message including information on the updated PCC rule to a packet data network (PDN)-gateway. The method of claim 15,
The controller, when updating the PCC rule, allocates resources based on a GBR value allocated for traffic generated in at least one session that is not paused. The method of claim 19,
The control unit controls to allocate resources based on the sum of GBR values allocated to each of the non-paused sessions when the number of unpaused sessions is 2 or more when updating the PCC rule. A device that performs PCRF.

Images