KR20220055259A - Interworking support device for nf service and control method thereof - Google Patents

Abstract

In the present invention, suggested are an interworking support device for a network function (NF) service, which realizes, in a 5G architecture applied with SCP, a specific technology that prevents, even when a delay occurs in one NF, a delay and quality degradation due to a delayed NF in an NF service related to an NF where a delay has occurred, that is, an NF processing agent processing technology of a producer NF, and an operating method thereof.

Description

NF service interworking support device and operation method of NF service interworking support device

The present invention relates to an SCP (Service Communication Proxy) technology of a function that interworks communication between NF services.

In 5G, a network structure is defined to support a terminal, a base station (access), a core, and a server end-to-end, and a single node (eg S-GW, P-GW, etc.) is complex in existing LTE (4G). By separating the functions of control signaling and data transmission and reception, which were performed as , a network structure is defined in which a control signaling function area (Control Plane) and a data transmission/reception function area (User Plane) are divided.

At this time, in 5G, the control node of the Control Plane (CP) controls AMF (Access and Mobility Management Function) that controls access to the wireless section of the terminal, and PCF that manages/controls policies such as terminal information, subscription service information for each terminal, and billing. (Policy Control Function), SMF (Session Management Function) to control/manage sessions for data service use by terminal, NEF (Network Exposure Function) to share information with external networks, user’s subscriber DB And UDM/AUSF (Unified Data Management / AUthentication Function) to manage/control authentication, NRF (Network Repository Function) to manage/control information on each NF (Network Function) in the network, and to handle subscriber billing It can be defined as CHF (Charging Function).

In 5G, the data node of the User Plane (UP) is a UPF (User Plane Function) that transmits and receives data between the terminal and the server on an external service network (eg the Internet) through a session with the terminal based on the control (interlocking) of the SMF. can be defined

And, in 5G, the control node of the control plane and the data node of the user plane are all referred to as network nodes.

As such, in 5G, NFs that perform specific functions are defined, and interworking/connection between NFs is defined based on communication using SBI (Service Based Interface).

In addition, in recent 5G, an SCP (Service Communication Proxy) is newly defined so that NFs can process communication between various NF services that are communicating through SBI as a mesh structure.

SCP can be seen as acting as an 'SBI bus' in SBA (Service Based Architecture), that is, 5G Architecture, and is composed of a mesh structure that processes all SBI messages between NFs. The SBI message means a data packet including a header of an application layer such as HTTP, HTTP/2, and QUIC.

In 5G Architecture to which SCP is applied, all NFs exchange messages between NF services through a mesh structure system called SCP. In other words, it can be said that all messages sent/received between NFs are done through SCP.

On the other hand, each NF service may be an NF (hereinafter, Consumer NF) position that requests an NF service, or an NF (hereinafter, a Producer NF) that processes/responses the requested NF service.

However, in Producer NF, delay/jitter, etc. inevitably occur in order to handle the increase in subscribers/many subscribers. If this happens, the delay and quality degradation experienced by the consumer NF will be very large.

After all, in 5G Architecture to which SCP is applied, it is necessary to improve the phenomenon in which delay and quality degradation occur in multiple NF services related to this NF when a delay occurs in one NF.

However, in the current standard, no specific technology to improve this phenomenon has been proposed.

Therefore, in the present invention, even if a delay occurs in any one NF, through a specific technical proposal to prevent delay and quality degradation due to the delay NF from occurring in the NF service related to the delayed NF, We want to dramatically improve quality.

The present invention was created in view of the above circumstances, and the purpose of the present invention is to reach a delay in the NF service related to the delayed NF, even if a delay occurs in any one NF in 5G Architecture to which the SCP is applied. It is to provide an NF service interworking support device and NF service interworking support method that can dramatically improve the quality of NF service by proposing a specific technology that prevents delay and quality degradation due to NF.

NF service interworking support apparatus according to a first aspect of the present invention for achieving the above object, a message receiving unit for receiving a message transmitted by a first NF (Network Function) to use a NF (Network Function) service of a second NF ; and a proxy control unit for proxying the NF service function processed by the second NF according to the state of the second NF with respect to the received message of the first NF to return a response message of the NF service.

Specifically, the agency control unit, a preset elapsed time (Expiry timer) for counting after transmitting the message of the first NF to the second NF through the Service Mesh network, load information reported from the second NF, and the second NF The state of the second NF may be determined based on at least one of the message processing delay monitored between the first NF and the second NF or the second NF and the similar NF belonging to the similar group.

Specifically, the proxy control unit stores information related to the NF service function processed on behalf of the second NF, and when the state of the second NF is normalized, the stored NF service function related information is transferred to the second NF By providing in the second NF, based on the NF service function related information, the information about the NF service function of the second NF delegated by another device may be updated.

Specifically, when it is determined that the state of the second NF cannot be processed normally, the proxy control unit may include, based on the range of the NF service function and the proxy processing method checked for the second NF, the message of the first NF It can be checked whether the proxy processing is possible, and if the proxy processing is possible, the NF service function processed by the second NF for the message of the first NF can be processed on the proxy according to the proxy processing method.

Specifically, the range of the NF service function of the second NF includes at least one of profile information, a function type of the NF service, and a usage resource range (Capability) of the NF service performed in the second NF. It is set as the basis, and the proxy processing method of the NF service function of the second NF may be determined according to the configured range of the NF service function of the second NF and the message of the first NF.

According to the operating method of the NF service interworking support apparatus according to the second aspect of the present invention for achieving the above object, the message transmitted by the first NF (Network Function) for the use of the NF (Network Function) service of the second NF a message receiving step of receiving; and a proxy processing step of returning a response message of the NF service by proxy processing the NF service function processed in the second NF according to the state of the second NF with respect to the received message of the first NF.

Specifically, in the proxy processing step, a preset elapsed time (Expiry timer) for counting after transmitting the message of the first NF to the second NF through the Service Mesh network, load information reported from the second NF, the The state of the second NF may be determined based on at least one of a message processing delay monitored between the first NF and the second NF or the second NF and a similar NF belonging to a similar group.

Specifically, storing information related to the NF service function processed on behalf of the second NF; and when the state of the second NF is normalized, the stored NF service function-related information is provided to the second NF, and the second NF acts on behalf of another device based on the NF service function-related information in the second NF. It may further include the step of allowing information about the NF service function of the NF to be updated.

Specifically, the NF service interworking support device, for each NF, manages information about the range of NF service functions available for proxy processing for the NF and information on the proxy processing method, the proxy processing step, the state of the second NF is When it is determined that normal processing is impossible, based on the scope and proxy processing method of the NF service function checked for the second NF, it is checked whether the message of the first NF can be processed by proxy, and if the processing is possible, the first The NF service function processed by the second NF for the message of the NF may be processed by proxy according to the proxy processing method.

According to the NF service interworking support device of the present invention and the operation method of the NF device, in the 5G Architecture to which the SCP is applied, even if a delay occurs in any one NF, the delay due to the delay NF in the NF service related to the delayed NF and materialized technology to prevent quality degradation from occurring.

Accordingly, according to the present invention, from the point of view of the NF (Consumer), there will be no delay or quality degradation of the NF service used by the NF (Consumer) due to the state of the other NF (Producer), so the overall NF service quality is dramatically improved can be derived.

1 is an exemplary diagram showing 5G Architecture and SCP structure.
FIG. 2 is a schematic illustration showing a situation in which NF service delay and quality degradation occur from the point of view of the Consumer NF due to the state of the producer NF.
3 is a schematic illustration showing a situation in which NF service delay and quality degradation do not occur from the standpoint of the Consumer NF due to the state of the Producer NF when the proposed technology of the present invention is applied.
4 is a block diagram showing the configuration of an NF service interworking support apparatus according to an embodiment of the present invention.
5 is an exemplary diagram showing the concept of the NF service function range and proxy processing method for proxy processing of the NF service function in the present invention.
6 is a Static Response Func. NF service function in the present invention. It is an example of an information table for explaining an example of proxy processing according to a method.
7 is an exemplary call-flow diagram illustrating a method of operating an NF service interworking support apparatus according to an embodiment of the present invention.

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

The present invention relates to an SCP (Service Communication Proxy) technology of a function that interworks communication between NF services.

In 5G, a network structure is defined to support a terminal, a base station (access), a core, and a server end-to-end, and a single node (eg S-GW, P-GW, etc.) is complex in existing LTE (4G). By separating the functions of control signaling and data transmission and reception, which were performed as , a network structure is defined in which a control signaling function area (Control Plane) and a data transmission/reception function area (User Plane) are divided.

1 shows the 5G Architecture and the SCP structure.

As shown in FIG. 1, in 5G, the control node of the Control Plane (CP) controls AMF (Access and Mobility Management Function) for controlling access to the wireless section of the terminal, terminal information, subscription service information for each terminal, and policies such as billing. PCF (Policy Control Function) for managing/controlling data service, SMF (Session Management Function) for controlling/managing sessions for data service use by terminal, and NEF (Network Exposure Function) for information sharing with external networks ), UDM/AUSF (Unified Data Management / AUthentication Function) to manage/control user's subscriber DB and authentication, NRF (Network Repository Function) to manage/control information on each NF (Network Function) in the network , it can be defined as CHF (Charging Function) that handles subscriber's billing.

In 5G, the data node of the User Plane (UP) is a UPF (User Plane Function) that transmits and receives data between the terminal and the server on an external service network (eg the Internet) through a session with the terminal based on the control (interlocking) of the SMF. can be defined

In 5G, both the control node of the control plane and the data node of the user plane are called network functions.

As can be seen from FIG. 1 , in 5G, NFs that perform specific functions are defined, and interworking/connection between NFs is defined based on communication using SBI (Service Based Interface).

In addition, in 5G, an SCP (Service Communication Proxy) is newly defined so that NFs can process communication between various NF services communicating with SBI as a mesh structure.

SCP can be seen as acting as an 'SBI bus' in SBA (Service Based Architecture), that is, 5G Architecture, and is composed of a mesh structure that processes all SBI messages between NFs. The SBI message means a data packet including a header of an application layer such as HTTP, HTTP/2, and QUIC.

The SCP domain is the SCP Controller, which centrally controls the interworking between NF services in one SBA Cluster, the Service Mesh network, and the NF service is configured as a Service Mesh network for each of the multiple NF services configured in the SBA Cluster. It can be divided into a number of service agents that enable communication/interworking with incoming and other NF services.

As such, SCP is an NF specialized in Mesh Routing processing that processes communication between NF services by delivering SBI messages through Service Mesh.

In 5G Architecture to which SCP is applied, all NFs exchange messages between NF services through a mesh structure system called SCP. In other words, it can be said that all messages sent/received between NFs are done through SCP.

In particular, the Service Agent of SCP receives and processes the Rule that determines the route between the NF services from the SCP Controller. This Rule is a rule on which target NF service (destination) should be sent the SBI message according to the service name of the NF in the SBI message.

Service Agent processes the delivery of the NF service by delivering the SBI message of the NF service to the specified path according to this rule.

As such, the SCP Service Agent is a very important and core SCP component that connects the inside/outside of the Service Mesh network.

On the other hand, each NF service may be an NF (hereinafter, Consumer NF) position that requests an NF service, or an NF (hereinafter, a Producer NF) that processes/responses the requested NF service.

FIG. 2 shows a situation in which NF service delay and quality degradation occur from the point of view of the Consumer NF due to the state of the Producer NF.

As can be seen from FIG. 2, in the producer NF (eg, PCF), delay/jitter, etc. inevitably occur in order to handle an increase in subscribers/many subscribers, and also delay due to the arrival of specific subscribers. may occur, or delays may occur due to top-level queries such as subscriber DB queries.

As mentioned above, delays may occur for various reasons in the Producer NF (eg PCF). If any delay occurs in the Producer NF (eg PCF) that processes/responses the NF service as described above, this causes the Consumer NF (eg PCF). AMF/SMF), the perceived delay and quality degradation will be very large.

After all, in 5G Architecture to which SCP is applied, when a delay occurs in one NF, it is necessary to improve the phenomenon in which delay and quality degradation occur in multiple NF services related to this NF.

However, in the current standard, no specific technology to improve this phenomenon has been proposed.

Therefore, in the present invention, even if a delay occurs in any one NF, through a specific technical proposal to prevent the delay and quality degradation due to the delay NF from occurring in the NF service related to the delayed NF, the We want to dramatically improve quality.

In this regard, FIG. 3 shows a situation in which NF service delay and quality degradation do not occur from the standpoint of the Consumer NF due to the state of the Producer NF when the proposed technology of the present invention is applied.

Prior to a detailed description, briefly explaining the present invention, in the present invention, the key feature of the present invention is that the NF service function (NF Processing) of the Producer NF is processed on behalf of the SCP.

And, in the present invention, in order to realize the above key features, the SCP grasps the status of NF processing for each NF, and the status of a specific producer NF (eg PCF) is not normally processed (eg, overload, specific cause, delay, etc.) is detected as a consumer NF (eg SMF), and the response performed instead of a specific producer NF (eg PCF) is returned to prevent retransmission or waiting on the consumer NF (eg AMF/SMF) side in advance.

Furthermore, in the present invention, when it is determined that the status of a specific Producer NF (eg PCF) is normalized after the SCP acts on behalf of the NF service function of a specific Producer NF (eg PCF), the processing result performed by the SCP is specified It is provided to the Producer NF (eg PCF).

According to the present invention briefly described above, the NFs communicating between NF services through the SCP are irrespective of the occurrence of delay in the producer NF due to the SCP that has previously detected an abnormal state such as overload or delay of the actual producer NF. You can get a reply back.

Through this, in the present invention, the subscriber's session and call processing can be processed very quickly and without delay, thereby providing high quality of service.

Hereinafter, the NF service interworking support device for realizing the proposed technology of the present invention briefly described above, that is, the technology for processing the NF service function (NF Processing) of the producer NF on behalf of the producer will be described in detail.

With reference to FIG. 4, the configuration of an NF service interworking support apparatus according to an embodiment of the present invention will be described.

At this time, the NF service interworking support apparatus 100 proposed by the present invention may be any one of components constituting the SCP Domain.

For example, the NF service interworking support apparatus 100 of the present invention may correspond to a Service Agent among components constituting the SCP Domain, and more specifically, may correspond to a Service Agent on the Consumer NF side.

Each NF service may be in the position of a consumer NF requesting the NF service, or may be in the position of a producer NF that receives and processes/responses the requested NF service.

In the NF service interworking support apparatus 100 proposed in the present invention, since the Service Agent is configured for each NF service in the SCP Domain, it may correspond to the Service Agent of all NFs that can be the Consumer NFs.

However, in FIG. 4 , the NF service interworking support apparatus 100 of the present invention will be described as "SCP".

As shown in FIG. 4 , the NF service interworking support device 100 , SCP according to an embodiment of the present invention may be configured to include a message receiving unit 110 and an agent control unit 120 , and furthermore, a message It may further include a transmitter 130 .

That is, the NF service interworking support apparatus 100 (SCP) according to an embodiment of the present invention is the proposed technology of the present invention schematically described above through each of the above-described components, that is, the NF service function of the Producer NF (NF Processing). It is possible to realize the technology of proxy processing.

Hereinafter, each component constituting the NF service interworking support device (100, SCP) will be described in detail.

Prior to a detailed description, for convenience of explanation, assuming that the Consumer NF is the first NF and the Producer NF is the second NF, the NF service interworking support apparatus 100 (SCP) of the present invention will be described.

The message receiving unit 110 is responsible for receiving the SBI message transmitted by the first NF to use the NF service of the second NF.

That is, the message receiving unit 110 is a functional unit that receives the SBI message that the Consumer NF transmits to the SCP to be transmitted to the Target NF, that is, the Producer NF, that is, an SBI message that comes into the SPC.

Hereinafter, for convenience of description, the SBI message transmitted by the SMF as the first NF for use of the NF service of the PCF as the second NF will be described as an example.

The proxy control unit 120, for the received SBI message of the first NF (eg, SMF), according to the state of the second NF (eg, PCF), the NF service function processed in the 2 NF (eg, PCF) on behalf of It is in charge of processing and returning a response message of the NF service.

That is, the proxy control unit 120, as a core component for proxy processing the NF service function (NF Processing) of the Producer NF in the NF service interworking support device 100, SCP of the present invention, the Producer NF (second NF, e.g.: Depending on the state of the PCF), some or all of the functions (NF Processing) of the actual producer NF (second NF, eg, PCF) may be performed (replaced) instead.

Hereinafter, in the present invention, a configuration that acts on behalf of the function (NF Processing) of the actual producer NF (second NF, eg, PCF) will be described in more detail.

Specifically, the agency controller 120 transmits the SBI message of the first NF (eg, SMF) to the second NF (eg, PCF) through the Service Mesh network and then counts the preset elapsed time (Expiry timer) , load information reported from the second NF (eg PCF), belonging to the first NF (eg SMF) and the second NF (eg PCF) or the second NF (eg PCF) and a similar group (NF Set) The state of the second NF (eg, PCF) may be determined based on at least one of the message processing delays monitored between the similar NFs.

Basically, in the present invention, it is necessary to be able to grasp the status information for each NF that can be the position of the producer NF.

As such an identification method, according to an embodiment, in the NF service interworking support apparatus 100 (SCP) of the present invention, the state of each NF (eg, Overload, specific Cause, delay, etc.) based on the load information reported by each NF. ) can be found periodically.

In this case, the agency control unit 120 checks the state of the second NF (eg, PCF) at the time when the SBI message of the first NF (eg, SMF) is received, and when out of the preset normal state, the second NF (eg, PCF) can be judged to be incapable of normal processing.

According to another embodiment, in the NF service interworking support device (100, SCP) of the present invention, the SBI message of the first NF (eg, SMF) is transmitted to the second NF (eg, PCF) through the Service Mesh network, Whether or not the SBI message delivered/responded after NF service processing is received in the actual second NF (eg PCF) so that the set elapsed time (Expiry timer) that starts counting at the time of delivery elapses, the second NF (eg PCF) status can be ascertained.

At this time, the operation of delivering the SBI message to the target NF, that is, the second NF (eg, PCF) through the service mesh network, is performed by the message transmitter 130 .

In this case, the agency control unit 120, if the SBI message transmitted/responded after processing the NF service in the actual second NF (eg, PCF) is not received so that the expiry timer elapses, the state of the second NF (eg, PCF) can be judged as impossible to process normally.

However, in the present invention, considering that the proxy processing for the producer NF needs to be performed quickly without delay, the above-described Expiry timer should be set short.

According to another embodiment, in the NF service interworking support device (100, SCP) of the present invention, between the first NF (eg SMF) and the second NF (eg PCF), or the first NF (eg SMF) And between the second NF (eg PCF) and the similar NF belonging to the similar group (NF Set), based on the SBI message processing delay value (eg RTT, latency, response / cause value, etc.) , it is possible to determine the state of the second NF (eg, PCF).

In this case, when the monitored SBI message processing value is out of a preset normal processing value range, the agency control unit 120 may determine that the state of the second NF (eg, PCF) cannot be processed normally.

Furthermore, the agency control unit 120, the result of periodically identifying the status of each NF (eg, overload, specific cause, delay, etc.) or the SBI message processing delay value (eg, RTT, latency, response) monitored before/just before / cause value, etc.) to determine the status of the second NF (eg PCF) as a result of determining the status of the second NF (eg PCF), and if the judgment is uncertain or difficult, the first NF (eg: PCF) The SBI message of SMF) may be transmitted to the second NF (eg, PCF) through the service mesh network, and the state of the second NF (eg, PCF) may be determined based on the expiry timer.

As such, the agency control unit 120 may determine the state of the second NF (eg, PCF) by variously combining the above-described embodiments for identifying/determining the state of the second NF (eg, PCF).

Accordingly, the NF service interworking support device 100 of the present invention (SCP, in particular, the proxy control unit 120) determines the state of the second NF (eg, PCF) and when it is determined that normal processing is impossible, the second NF (eg, : PCF), that is, it can be set/operated in a mode that processes the function (NF Processing) of Producer NF as a proxy.

The proxy control unit 120, when it is determined that the state of the second NF (eg, PCF) is not normally processed as a result of the above-mentioned grasp/determination (set/operation of the proxy processing mode), the SBI of the first NF (eg, SMF) It is checked whether a proxy processing is possible for the message, and if the proxy processing is possible, the NF service function processed by the second NF (eg PCF) can be processed on behalf of the SBI message of the first NF (eg, SMF).

Specifically, in the NF service interworking support device 100 (SCP) of the present invention, for each NF, it is possible to check information on the range of NF service functions capable of proxy processing for the NF and information on the proxy processing method.

Here, the scope of the NF service function of the second NF (eg, PCF) is profile information of the NF service performed in the second NF (eg, PCF), the function type (Feature) of the NF service, and the range of resources used. (Capability) may be set based on at least one.

On the other hand, the proxy processing method of the NF service function of the second NF (eg PCF) is to be determined according to the set range of the NF service function of the second NF (eg PCF) and the SBI message of the first NF (eg SMF). can

More specifically, describing one embodiment, in the NRF or a separate MGMT server among the 5G NFs, for each NF (which can be a producer NF), profile information of the NF service performed in the NF, the function of the NF service Information such as a feature and a used resource range (Capability) is managed.

Accordingly, the NF service interworking support device (100, SCP) of the present invention, based on communication with an NRF or a separate MGMT server, a specific NF, that is, a Producer NF, for a second NF (eg PCF), the profile of the NF service (Profile) information, function types (Feature) of NF service, and range of resources used (Capability), and based on these information, the range of NF service functions that can be processed on behalf of the second NF (eg PCF) can be set. there is.

The "range of NF service functions that can be processed by proxy" set in this way is, the NF service interworking support device (100, SCP) of the present invention, for the second NF (eg, PCF), among all of the NF service functions (NF Processing) It can mean to what extent (eg, 0 to 100%) to represent.

In this way, the NF service interworking support device (100, SCP) of the present invention, for each NF, including the second NF (eg, PCF), the range of NF service functions that can be processed on behalf of, that is, any range / of all functions It is possible to set up to which function (eg 0~100%) will be substituted.

At this time, the NF service interworking support device (100, SCP) of the present invention, when checking / setting the range of NF service functions that can be processed on behalf of the second NF (eg, PCF), NF service profile information, In addition to the function type (Feature) and the usage resource range (Capability) of the NF service, the range may be set according to various information and purposes.

5 shows a concept of an NF service function range and a proxy processing method for proxy processing NF service function (NF Processing) in the present invention.

NF Processing can be broadly classified as follows from the viewpoint of the NF service interworking support device 100 of the present invention (SCP) in terms of the entire NF service function processing to act on its behalf.

0% = No proxy processing by SCP

·100% = SCP takes care of everything

That is, if the NF service interworking support device (100, SCP) of the present invention sets the range of NF service functions that can be processed on behalf of the second NF (eg, PCF) as 100%, the actual second NF (eg, PCF) ) means that all NF service functions (Func.

Therefore, the range of NF service functions that can be processed on behalf of the second NF (eg, PCF) is available resources such as some resources (CPU, memory, I/O), or the corresponding function is performed (proxy) It can be said to mean the size of the required resource.

To elaborate, 100% described above is a kind of metric/unit. The method of measuring each % may be different for each implementation.

As described above, in the NF service interworking support device (100, SCP) of the present invention, if the range (eg XX %) of the NF service function that can be processed on behalf of the second NF (eg PCF) is set, the range (eg : 70%), the proxy processing method of the NF service function can be determined.

As shown in Figure 5, the proxy processing method proposed in the present invention is largely Static Response Func. and Dynamic Response Func. can be divided into two processing methods, and in detail, Static Response Func. Protocol Conversion Func., Content Cache Func. processing methods such as, and Dynamic Response Func. Context Conversion Func., Compression Func. It can be classified by processing methods such as, and in addition to this, there may be various proxy processing methods.

For example, Protocol Conversion Func. The processing method is a processing method that converts Protocol (IPv4 <-> IPv6) according to a previously mapped/managed information table, Content Cache Func. The processing method is a processing method of caching the content (SBI message) delivered between NFs and transmitting the content (SBI message) mapped with the necessary SBI message (eg response) among the cached content (SBI message).

Accordingly, in the NF service interworking support device (100, SCP) of the present invention, based on the range of NF service functions (eg, xx %) that can be processed on behalf of the second NF (eg, PCF), the function to be processed ( For example: Func. Set), the proxy processing methods to be applied/used in the proxy processing among the proxy processing methods may be determined.

For example, if the range of NF service functions that can be processed by proxy is set to 20%, a proxy processing method (eg Static Response Func.) that can be processed by proxy using relatively few resources can be determined, and If the scope of the NF service function is set to 80%, the proxy processing method (eg, Content Cache, Dynamic Response Func., Context Conversion Func., Compression Func.) that can be processed using a relatively large number of resources may be determined. there is.

In this way, the NF service interworking support device (100, SCP) of the present invention, for each NF, including the second NF (eg, PCF), the range of NF service functions that can be processed on behalf of, that is, any range / of all functions You can set up to which function (eg, 0~100%) to be performed on behalf of, and you can determine the proxy processing methods that can be applied/used for proxy processing.

Accordingly, the proxy control unit 120, the second NF (eg, PCF) when it is determined that the state of the second NF (eg, PCF) cannot be processed normally (set/operation of the proxy processing mode), the second NF (eg, PCF) Check the range of NF service functions that can be set/determined for the proxy and the proxy processing method.

Then, the proxy control unit 120, based on the scope of the NF service function and the proxy processing method confirmed as described above, may check whether the SBI message of the first NF (eg, SMF) can be processed by proxy.

For example, the agency control unit 120 analyzes the fields in the SBI message of the first NF (eg, SMF) this time in detail, and acts as a proxy in the range of NF service functions that can be processed for the second NF (eg, PCF). By checking whether processing is possible, it can be checked whether the SBI message of the first NF (eg, SMF) can be processed by proxy.

Accordingly, the proxy control unit 120, if it is possible to process the SBI message of the first NF (eg, SMF) this time, in the second NF (eg, PCF) for the message of the first NF (eg, SMF) this time The NF service function to be processed can be processed by proxy according to the proxy processing method.

6 shows an information table for explaining an example of proxy processing of an NF service function in the present invention.

In Figure 6, the NF service interworking support device (100, SCP) of the present invention as an embodiment for proxy processing NF service function, Static Response Func. It shows a case where the NF service function of PCF is processed by proxy using the processing method.

That is, the NF service interworking support device (100, SCP) of the present invention determines that the state (eg, Overload, specific cause, delay, etc.) of the origin Target NF, that is, the second NF (eg, PCF) is not normally processed, immediately By setting/operating a proxy processing mode for the second NF (eg, PCF), the NF service function (NF Processing) of the second NF (eg, PCF) may be processed on behalf of the second NF (eg, PCF) according to the information table of FIG. 6 .

Specifically, when describing the embodiment, the NF service interworking support device 100 of the present invention (SCP) provides fields (eg, Service Name) in the SBI message (eg, specific request) of the first NF (eg, SMF) received this time. , Service Operation, Attribute Name, etc.) are analyzed in detail and condition 1, … mapped with the analyzed/verified information. According to N, the Result Response may be returned to the first NF (eg, SMF) as a response SBI message, and NF Processing for the second NF (eg, PCF) may be performed on behalf of the N .

The description of the embodiment with reference to FIG. 6 relates to an IMS session, and is a procedure for allocating PDU Session resources of Downlink 2Gb and Uplink 1Gb basically.

After all, in the present invention, even if there is a problem in the state of the PCF, since the NF Processing is processed on behalf of the SCP, the Session creation for the subscriber of the PCF can be processed immediately without delay.

As described above, according to the present invention, the SCP grasps the status of NF Processing for each NF, and when the status of a specific producer NF (eg, PCF) is detected as impossible (eg, Overload, Specific Cause, Delay, etc.) By returning a response performed on behalf of a specific producer NF (eg PCF) to a consumer NF (eg SMF), the NF processing proxy processing technology of the producer NF is realized.

Furthermore, the proxy control unit 120 of the NF service interworking support device 100, SCP of the present invention, in the process of proxy processing the NF service function (NF Processing) for the second NF (eg, PCF), proxy processing It stores and stores information related to one NF service function (NF Processing).

Accordingly, when it is determined that the state of the second NF (eg, PCF) is normalized, the agency control unit 120 stores/stored NF service function related information for the second NF (eg, PCF) to the second NF (eg, PCF). : PCF).

At this time, the proxy control unit 120, while providing the information related to the NF service function stored/stored for the second NF (eg, PCF) to the second NF (eg, PCF), is information about the information processed on behalf of the SCP. Identification information that can be identified (eg, an indication message) may also be included. Through this, Producer NF can do lazy update.

In this case, in the second NF (eg, PCF), based on the information identified as NF service function related information, that is, identification information (eg, Indication message) provided from the NF service interworking support device 100, SCP of the present invention. , it is possible to update (lazy update) information about one's own NF service function (NF Processing) acting on behalf of another device, that is, SCP.

As described above, the NF service interworking support device (100, SCP) of the present invention transmits the contents (NF service function related information) that it previously processed on behalf of the Producer NF, thereby providing SCP and Producer NF (furthermore, Producer). This is to ensure that synchronization between other NFs linked by NFs and linked DBs) is maintained at all times.

At this time, in the present invention, as NF service function related information, the entire body of SBI message / Json can be delivered, which includes the SBI message content of Consume NF / Producer NF, that is, Request / Response (and Subscription / Notification). It can contain the entire content.

Meanwhile, in the present invention, as identification information (eg, Indication message) transmitted together with NF service function related information, various types of name IDs can be defined as follows.

·Transaction ID, Post-Processed ID, Processed ID, Trace ID, etc..

In addition, in the present invention, as identification information (eg, Indication message), the following additional information and a result of proxy processing may be included.

Total number of SBI msgs for ‘proxy NF processing’

TPS, Delay/Jitter, Success/Fail Ratio, etc.

For reference, the NF service interworking support device (100, SCP) of the present invention can manage as a list the information (NF service function related information) performed (represented) on behalf of the Producer NF as a list. The maximum and minimum number can be managed, and the content delivered to Producer NF can be deleted.

As described above, according to the present invention, the SCP grasps the status of NF Processing for each NF, and when the status of a specific producer NF (eg, PCF) is detected as impossible (eg, overload, specific cause, delay, etc.), immediately The NF Processing proxy processing technology of Producer NF is realized by replying a response performed on behalf of a specific producer NF (eg PCF) to the Consumer NF (eg SMF) and forwarding/synchronizing the proxy processing contents afterwards.

As such, according to the present invention, in the 5G Architecture to which the SCP is applied, even if a delay occurs in any one NF, in the NF service related to the delayed NF, the delay and quality degradation due to the delayed NF do not occur. Producer NF's NF Processing proxy processing technology is being realized.

Accordingly, according to the present invention, from the point of view of the NF (Consumer), there will be no delay or quality degradation of the NF service used by the NF (Consumer) due to the state of the other NF (Producer), so the overall NF service quality is dramatically improved can be derived.

Hereinafter, with reference to FIG. 7, NF service interworking according to an embodiment of the present invention Hereinafter, with reference to FIG. 7, an operating method of an apparatus for supporting NF service interworking according to an embodiment of the present invention will be described.

In the case of FIG. 7, assuming that the Consumer NF is the first NF and the Producer NF is the second NF, the Call-Flow is described by referring to the SCP as the NF service interworking support device of the present invention.

In the embodiment of Figure 7, in the SCP according to the present invention, by setting the range and proxy processing method of NF service functions that can be surrogate for each NF, the function (NF Processing) of the Producer NF is pre-set / An operation case is described (S10).

According to the present invention, the SCP receives the SBI message (first NF message) for using the NF service of the second NF by the first NF that has received the service request from the UE/RAN (S20), and the received While analyzing the fields in the first NF message in detail, it is possible to determine the state of the second NF (S30).

According to the present invention, if the state of the second NF is normal, the SCP will transmit (transmit) the first NF message to the second NF through the Service Mesh network (first NF -> SCP -> second NF) ), the second NF receiving this will send a response SBI message (second NF message) through the actual NF service function processing and reply to the first NF through the Service Mesh network (second NF -> SCP -> second NF) 1 NF).

On the other hand, according to the present invention, when it is determined that the state of the second NF is not normally processed (eg, Overload, a specific cause, delay, etc.), the SCP operates as a Producer NF proxy processing and responds to the second NF message this time. The NF service function (NF Processing) processed by the NF is processed instead (S40), and a corresponding response SBI message (the second NF message) is returned to the first NF (S50).

According to the present invention, even if the first NF, which is the Consumer NF, receives the second NF message on behalf of the SCP, it recognizes it as processed and returned in the second NF, so it can use the NF service it wants to use without delay. be able to

On the other hand, according to the present invention, the SCP stores and stores information related to the NF service function (NF Processing) processed by the proxy in the processes S40 and S50 (S60).

Accordingly, according to the present invention, when it is determined that the state of the second NF is normalized (S70), the SCP extracts the NF service function related information stored/stored for the second NF and provides it to the second NF (S72, S74). ).

Accordingly, in the second NF, based on the information related to the NF service function provided from the SCP, it is possible to update (lazy update) information about its own NF service function (NF Processing) acting on behalf of another device, that is, the SCP.

And, according to the present invention, when the completion of the update according to the provision of the NF service function information is returned from the second NF, the SCP may delete the corresponding information, that is, the content transmitted to the Producer NF (S76).

As described above, according to the present invention, in the 5G Architecture to which the SCP is applied, even if a delay occurs in any one NF, in the NF service related to the delayed NF, the delay and quality deterioration due to the delayed NF do not occur. Producer NF's NF Processing proxy processing technology is being realized.

Accordingly, according to the present invention, from the point of view of the NF (Consumer), there will be no delay or quality degradation of the NF service used by the NF (Consumer) due to the state of the other NF (Producer), so the overall NF service quality is dramatically improved can be derived.

The operation method of the NF service interworking support apparatus according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

Although the present invention has been described in detail with reference to preferred embodiments so far, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the claims below It will be said that the technical spirit of the present invention extends to a range where various modifications or modifications can be made by anyone with ordinary knowledge in the present invention.

According to the operation method of the NF service interworking support device and the NF service interlocking support device according to the present invention, in that the concrete technology for facilitating the NF Processing of the Producer NF in the SCP is realized, the limitation of the existing technology is exceeded. It is an invention with industrial applicability because the possibility of marketing or business of the applied device, not just the use of the related technology, is sufficient and it can be clearly implemented in reality.

100: NF service interworking support device
110: message receiving unit 120: proxy control unit
130: message sending unit

Claims (9)

A message receiving unit for receiving a message transmitted by the first NF (Network Function) to use the NF (Network Function) service of the second NF; and
In response to the received message of the first NF, according to the state of the second NF, the NF service function processed by the second NF is processed on behalf of the agent, and a proxy control unit for replying a response message of the NF service is included. NF service interworking support device. The method of claim 1,
The agency control unit,
A preset elapsed time counting after transferring the message of the first NF to the second NF through the Service Mesh network, load information reported from the second NF, the first NF and the second NF or NF service interworking support apparatus, characterized in that for determining the state of the second NF based on at least one of the message processing delay monitored between the second NF and the similar NF belonging to the similar group. The method of claim 1,
The agency control unit,
Stores information related to the NF service function processed on behalf of the second NF,
When the state of the second NF is normalized, the stored NF service function related information is provided to the second NF, and the second NF is substituted by another device based on the NF service function related information in the second NF. NF service interworking support device, characterized in that the information on the NF service function is updated. The method of claim 1,
The agency control unit,
If it is determined that the state of the second NF cannot be processed normally, based on the scope of the NF service function checked for the second NF and the proxy processing method, it is checked whether the message of the first NF can be processed by proxy, If proxy processing is possible, NF service interworking support device, characterized in that for the message of the first NF, the NF service function processed by the second NF is processed by proxy according to the proxy processing method. 5. The method of claim 4,
The scope of the NF service function of the second NF is,
It is set based on at least one of profile information of the NF service performed in the second NF, a function type (Feature) of the NF service, and a used resource range (Capability),
The proxy processing method of the NF service function of the second NF is,
NF service interworking support apparatus, characterized in that determined according to the configured range of the NF service function of the second NF and the message of the first NF. A message receiving step of receiving a message transmitted by the first NF (Network Function) to use the NF (Network Function) service of the second NF; and
In response to the received message of the first NF, according to the status of the second NF, the NF service function processed by the second NF is processed on behalf of the second NF, and a response message of the NF service is returned to the proxy processing step. The operation method of the NF service interworking support device. 7. The method of claim 6,
The agency processing step is,
A preset elapsed time counting after transferring the message of the first NF to the second NF through the Service Mesh network, load information reported from the second NF, the first NF and the second NF or The method of operating an NF service interworking support apparatus, characterized in that the second NF and the second NF are determined based on at least one of a monitored message processing delay between the similar NFs belonging to the similar group. 7. The method of claim 6,
Storing information related to the NF service function processed on behalf of the second NF; and
When the state of the second NF is normalized, the stored NF service function related information is provided to the second NF, and the second NF is substituted by another device based on the NF service function related information in the second NF. The method of operating an NF service interworking support device, characterized in that it further comprises the step of updating the information on the NF service function. 7. The method of claim 6,
The agency processing step is,
If it is determined that the state of the second NF cannot be processed normally, based on the scope of the NF service function checked for the second NF and the proxy processing method, it is checked whether the message of the first NF can be processed by proxy, If proxy processing is possible, the NF service function processed by the second NF for the message of the first NF is proxy-processed according to the proxy processing method.

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