KR20220063088A - Method for configuring port of 5g system to provide time synchronization service and network entity performing the same - Google Patents

Abstract

Provided are a method for configuring a port of a 5G system (5GS) to provide a time synchronization service, which provides deterministic communication depending on a time synchronization service required by various applications, and a network entity executing the same. According to the present invention, the method comprises the following steps of: when a grandmaster (GM) is determined to be a time sensitive networking (TSN) GM outside a 5GS, performing a port configuration of the 5GS by a network exposure function (NEF) using a best master clock algorithm (BMCA) method; and when the GM is determined as a 5GS GM inside the 5GS or a TSN GM outside the 5GS not supporting the BMCA, performing the port configuration of the 5GS in an external port configuration method.

Description

METHOD FOR CONFIGURING PORT OF 5G SYSTEM TO PROVIDE TIME SYNCHRONIZATION SERVICE AND NETWORK ENTITY PERFORMING THE SAME

The present invention relates to a port configuration method of a 5G system (5G system, 5GS) for providing a starter service and a network entity performing the same. In particular, the present invention provides a starter service through exposure in TSN (Time Sensitive Networking, Time Sensitive Networking) and Non-TSN (Non-Time Sensitive Networking, Non-Time Sensitive Networking) environments to provide a starter service, 5GS It relates to a method of delivering port setting information and Announce message information of

The 3rd Generation Partnership Project (3GPP), which is a standardization organization for mobile communication technologies, has completed standardization work for 5G systems to support IEEE TSN from Release 16, and is currently being maintained. According to the 3GPP TS 23.501 standard, the 5G system is defined as one logical TSN bridge, and deterministic communication is provided by interworking with the TSN network. In order to accommodate deterministic applications in the non-TSN environment, Release 17 study was conducted to provide starter service and time-sensitive communication service using AF (Application Function) and 5GS exposure technology for 3GPP.

An object of the present invention is to provide a port configuration method of a 5G system capable of providing a starter service through a starter service exposure in a TSN and non-TSN environment, and an entity performing the same.

In addition, the problem to be solved by the present invention is a port configuration method of a 5G system in which the NEF can deliver port setting information and announce message information of 5GS in order to provide a starter service through a starter service exposure in a TSN and non-TSN environment and to provide an entity that performs this.

In the port configuration method of a 5G system for providing a starter service according to an embodiment of the present invention, when a grandmaster (GM) is determined as a Time Sensitive Networking (TSN) GM outside the 5GS, a Network Exposure Function (NEF) ) performing the port configuration of the 5GS in the BMCA (Best Master Clock Algorithm) method; and when the GM is determined as the 5GS GM inside the 5GS or the TSN GM outside the 5GS that does not support the BMCA, the NEF configures the port of the 5GS in an external port configuration method It may include performing steps.

In an embodiment, the method may further include, when the NEF configures the 5GS port in the BMCA manner, the NEF reports and receives a BMCA result from a Network TSN Translator (NW-TT). .

In an embodiment, the method may further include, based on the BMCA result, transmitting, by the NEF, port configuration information and Announce information to a Device Side TSN Translator (DS-TT).

In an embodiment, the port configuration information and the announce information may be transmitted from the NEF to the DS-TT through Port Management Information Container (PMIC) signaling.

In an embodiment, an Announce message according to the Announce information may be generated in a port set as a master according to the BMCA result.

In an embodiment, the method includes, when the NEF configures the 5GS port in the external port configuration method, the NEF transmits port setting information and Announce information to NW-TT or DS-TT may include more.

In an embodiment, when the NEF transmits the port setting information and the announce information to the NW-TT, the port setting information and the announce information are transmitted through Bridge Management Information Container (BMIC) signaling or PMIC signaling. can

In an embodiment, when the NEF transmits the port configuration information and the announce information through the DS-TT, the port configuration information and the announce information may be transmitted through PMIC signaling.

In an embodiment, an Announce message according to the Announce information may be generated in a port set as a master according to the BMCA result.

In the method for configuring a port of a 5G system for providing a starter service according to an embodiment of the present invention, when the GM is determined as the TSN GM outside the 5GS, the NW-TT transmits the port setting information to the Announce message based on the BMCA result. adding; and transmitting, by the NW-TT, the Announce message as a DS-TT.

In an embodiment, the Announce message may be transmitted to another network entity in a port configured as a master according to the BMCA result.

A network entity performing port configuration of a 5G system for providing a starter service according to an embodiment of the present invention includes a network interface for transmitting and receiving data with other network entities; and when the GM is determined as the TSN GM outside the 5GS, the port configuration of the 5GS is performed in a BMCA manner, and the GM is determined as the 5GS GM inside the 5GS, or the TSN outside the 5GS that does not support the BMCA If it is determined as the GM, it may include a processor that configures the port of the 5GS in an external port configuration method.

In an embodiment, when the port configuration of the 5GS is performed in the BMCA method, the processor may receive a BMCA result report from the NW-TT.

In an embodiment, based on the BMCA result, the processor may transmit port configuration information and Announce information to DS-TT.

In an embodiment, the port configuration information and the announce information may be transmitted to the DS-TT through PMIC signaling.

In an embodiment, an Announce message according to the Announce information may be generated in a port set as a master according to the BMCA result.

In an embodiment, when the NEF configures the 5GS port using the external port configuration method, the processor may transmit port setting information and Announce information in NW-TT or DS-TT.

In an embodiment, when the NEF transmits the port configuration information and the announce information through the NW-TT, the port configuration information and the announce information may be transmitted through BMIC signaling or PMIC signaling.

In an embodiment, when the NEF transmits the port configuration information and the announce information through the DS-TT, the port configuration information and the announce information may be transmitted through PMIC signaling.

In an embodiment, an Announce message according to the Announce information may be generated in a port set as a master according to the BMCA result.

According to embodiments of the present invention, various applications can be supported by providing a starter service using the 5GS exposure function. Accordingly, 5GS can provide deterministic communication according to the starter service required by various applications in the non-TSN environment as well as the TSN environment.

1 is a diagram for explaining a 5G system architecture operating as a TSN bridge.
2 is a view for explaining a 5GS TSN bridge supporting BMCA proposed in 3GPP TR 23.700-20 (FS_IIoT, Study on enhanced support of Industrial IoT in the 5G System (Release 17)).
3 is a diagram for explaining a method for the NEF to configure a port in an external port configuration method according to an embodiment of the present invention.
4 is a diagram for explaining a method for the NEF to configure a port in the BMCA method according to an embodiment of the present invention.
5 is a block diagram illustrating a computing device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them with reference to the accompanying drawings. However, the present invention may be implemented in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification and claims, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

1 is a diagram for explaining a 5G system architecture operating as a TSN bridge.

Referring to FIG. 1 , in the 5G system architecture operating as a TSN bridge, a 5G system 10 operating as a logical TSN bridge and a TSN terminal that exchanges data and communicates with each other using the 5G system 10 as a TSN bridge It may include a TSN system 20 and a TSN network 30 as a node (TSN End Node).

That is, the architecture of FIG. 1 is an architecture extended to support Time Sensitive Communication (TSC) in the 5G system 10 . The 5G system 10 operates as a TSN bridge for integration with an external TSN network, and an existing User Equipment (UE) 100, User Plane Function (UPF) 104, and RAN (Radio Access) for communication with the TSN network. Network) 108, Policy Control Function (PCF) 112, Session Management Function (SMF) 114, Access and Mobility Management Function (AMF) 116, Unified Data Management (UDM) 118 and NEF ( Transducers (TTs) 102 , 106 and TSN AF (Application Function) 110 have been added to the architecture including Network Exposure Function (120). The TSN converters 102 and 106 for interworking with the TSN network include a Device Side TSN Translator (DS-TT) 102 and a Network TSN Translator (NW-TT) 106, each DS-TT 102 and NW-TT 106 has transmit and receive ports for communication with the TSN network. In addition, in addition to the converter in the user plane (User Plane), the TSN AF (110) of the control plane (Control Plane) to communicate with the CNC (Centralized Network Configuration) of the TSN network to transmit and receive control information between the 5G system and the TSN network. can

Specifically, the TSN-AF 110 transmits and receives control information for the TSN network (eg, CNC) and the 5G system 10 to operate as a logical TSN bridge to control the 5G bridge system 10 . The DS-TT 102 and the NW-TT 104 each handle TSC traffic through a transparent connection with the TSN system outside the 5G system 10 on the UE 100 side and the network side. It is a TSN converter.

3GPP Release 16 allowed 5GS to provide starter service by setting the status of each port in the External Port Configuration method defined in IEEE 802.1AS, and to provide deterministic communication in conjunction with TSN. And 3GPP Release 17 supports the BMCA (Best Master Clock Algorithm) method for the starter service in addition to the external port configuration method, and started a study to provide a Non-TSN application (see Table 1). According to 3GPP TS 22.104 (cyber-physical control applications in vertical domain) and TS 22.263 (VIAPA: Video, Imaging and Audio for Professional Applications) requirements, 5GS is not only TSN, but also critical application in various non-TSN environments such as VIAPA. It is necessary to provide a starter service exposure function through AF to support

2 is a view for explaining a 5GS TSN bridge supporting BMCA proposed in 3GPP TR 23.700-20 (FS_IIoT, Study on enhanced support of Industrial IoT in the 5G System (Release 17)).

Referring to FIG. 2 , the BMCA function is performed by the NW-TT 106 , and a part of the BMCA function may be performed by the Ingress Port according to the FS_IIoT study result. DS-TT(102a, 102b, 102c) transfers the received (g)PTP (IEEE 802.1AS, IEEE 1588) Announce message to NW-TT(106) as data, and NW-TT(106) receives the received Announce message. BMCA procedures can be performed using messages. As a result of performing BMCA, the NW-TT 106 may manage the master-slave structure by determining the state of each port. 3GPP Release 16 defines TSN AF as a control function for TSN interworking. If TSN AF is registered to receive BMCA results, NW-TT 106 reports BMCA results to TSN AF.

In 5GS, NW-TT or DS-TT may operate as a (g)PTP grand master (GM), and may generate an announce message for the master port, respectively. In 3GPP Release 17, a standard study was started to support this initiator service exposure. An AF with a requirement for a starter can see the Capabilities that the 5GS exposes, request a starter service, or provide starter information together. The starter service provided in this way can support both Ethernet and IP PDU sessions. 5GS can provide the following 4 starter methods to support applications that require starter service in a non-TSN environment.

(One) When GM exists outside of 5GS and 5GS operates as a (g)PTP client

(2) GM exists in 5GS, 5GS operates as (g)PTP GM, and UPF/NW-TT provides a starter method that supports (g)PTP messages

(3) GM exists in 5GS, 5GS operates as (g)PTP GM, 5G-AN provides 5GS reference time from UE, and UE provides a starter method according to the implementation method

(4) GM exists in 5GS, 5GS operates as (g)PTP GM, and DS-TT provides a starter method that supports (g)PTP messages

Referring to Table 1, among the four starter methods, (1) is a method provided in Release 16, and (2) to (4) are methods newly proposed in Release 17. Since (3) can operate separately from the 3GPP standard according to a specific implementation method, the starter method of (1), (2), and (4) performed through exposure is mainly considered in the present invention.

NEF exposes starter schemes (1) to (4), and AF is for one UE or a group of UEs, clock domain (TSN GM or 5G GM) related parameters (eg, (g) ) PTP versions, Domain Number, grandmaster priorities) and time accuracy parameters (eg, sending rate, initial Announce interval) can be specified to request activation/deactivation of the initiator service. In addition, AF may additionally provide parameters required for BMCA operation. Embodiments of the present invention provide a method for an NEF performing an exposure to provide a starter service.

In particular, in 3GPP Release 16, 5GS provided a starter service in conjunction with TSN, and in Release 17, it is intended to provide a starter service for applications requiring deterministic communication even in a non-TSN environment. To this end, the starter service is provided using the AF and exposure functions, and 5GS provides the above-mentioned four starter methods so that the AF can activate/deactivate the starter service.

In the case of the conventional 5GS, the TSN AF was in charge of the control in the TSN environment, but when the starter service is provided using the exposure function, the NEF may be in charge of the control. Hereinafter, a method in which the NEF configures port states according to the starter schemes (1), (2), and (4) and transmits Announce information for generating an Announce message in each port will be described.

According to embodiments of the present invention, in a case where TSN AF in charge of control does not exist in a TSN environment, or when AF requests a starter service using an exposure to support an application such as VIAPA in a non-TSN environment , the NEF is responsible for controlling the starter service. Specifically, the NEF may set the port state to DS-TT or NW-TT for the starter service, and may transmit Announce information through PMIC/BMIC signaling to generate an Announce message in the master port. On the other hand, when NW-TT performs BMCA to provide a starter service dynamically, NEF may receive a result from NW-TT and perform port setting with DS-TT.

That is, the port configuration method of a 5G system for providing a starter service according to an embodiment of the present invention includes: when the GM is determined to be a TSN GM outside of 5GS, the NEF performing a port configuration of 5GS in a BMCA manner; and when the GM is determined to be a 5GS GM inside 5GS or a TSN GM outside of 5GS that does not support BMCA, the NEF may include the step of performing port configuration of 5GS in an external port configuration method.

3 is a diagram for explaining a method for the NEF to configure a port in an external port configuration method according to an embodiment of the present invention.

Referring to FIG. 3 , when the AF 110 requests the initiator service exposure, the NEF 120 may perform external port configuration. If the starter method requested by AF 110 is 5G GM or in case of TSN GM that BMCA is not supported, NEF 120 may perform external port configuration. In this case, in order to deliver the port status of the DS-TT 102 and the NW-TT 106 and information for generating an Announce message, the NEF 120 is between the TSN AF 110 and the DS-TT/NW-TT. The used PMIC/BMIC signaling can be used as it is. However, port status and announcement information (eg, announcement message information such as system identity, grand master clock identity, etc.) should be added to the conventional PMIC/BMIC.

That is, in the port configuration method of the 5G system for providing the starter service according to an embodiment of the present invention, when the NEF 120 performs the port configuration of 5GS in an external port configuration method, the NEF 120 is the NW- The method may further include transmitting port setting information and Announce information to the TT 106 or DS-TT 106 . In an embodiment, when the NEF 120 transmits port configuration information and announce information to the NW-TT 106, the port configuration information and announce information may be transmitted through BMIC signaling or PMIC signaling. Meanwhile, in an embodiment, when the NEF 120 transmits port configuration information and announce information to the DS-TT 102 , the port configuration information and announce information may be transmitted through PMIC signaling. Accordingly, an Announce message according to Announce information may be generated in the port set as the master according to the BMCA result.

4 is a diagram for explaining a method for the NEF to configure a port in the BMCA method according to an embodiment of the present invention.

Referring to FIG. 4 , when the AF requests the TSN GM method through the initiator service exposure, the BMCA 1062 may operate. The BMCA 1062 may operate on the NW-TT 106 and report the result to the NEF 120 . The NEF 120 may transmit the port state and Announce information together to the DS-TT 102a through PMIC signaling if necessary according to the reported BMCA result.

That is, in the port configuration method of the 5G system for providing the starter service according to an embodiment of the present invention, when the NEF 120 performs the port configuration of 5GS in the BMCA method, the NEF 120 is NW-TT ( 106) may further include the step of receiving and reporting the BMCA result. In addition, the method may further include, based on the BMCA result, transmitting, by the NEF 120 , port configuration information and Announce information to the DS-TT 102a. In an embodiment, port configuration information and Announce information may be transmitted from the NEF 120 to the DS-TT 102a through PMIC signaling. Accordingly, an Announce message according to Announce information may be generated in the port set as the master according to the BMCA result.

Meanwhile, the NW-TT 106 may transmit a port state along with an Announce message to the DS-TT 102c according to the BMCA result. That is, in the port configuration method of the 5G system for providing the starter service according to an embodiment of the present invention, when the GM is determined to be a TSN GM outside of 5GS, the NW-TT 106 based on the BMCA result sets the port setting information. adding to the Announce message; and the NW-TT 106 transmitting an Announce message to the DS-TT 102c. Accordingly, an Announce message according to Announce information may be generated in the port set as the master according to the BMCA result.

5 is a block diagram illustrating a computing device according to an embodiment of the present invention.

Referring to FIG. 5 , a computing device 50 is a network entity of a 5G system, for example, UE 100 , DS-TT 102 , UPF 104 , NW-TT 106 , RAN 108 . , TSN AF 110 , PCF 112 , SMF 114 , AMF 116 , UDM 118 and NEF 120 , and the like. And, the port configuration method of 5GS for providing the starter service according to embodiments of the present invention may be implemented using the computing device (50).

The computing device 50 includes at least one of a processor 510 , a memory 530 , a user interface input device 540 , a user interface output device 550 , and a storage device 560 in communication via a bus 520 . can do. Computing device 50 may also include network interface 570 electrically connected to network 40 , such as a wireless network. Network interface 570 may transmit or receive signals with other network entities over network 40 .

The processor 510 may be implemented in various types such as an application processor (AP), a central processing unit (CPU), a graphic processing unit (GPU), and the like, and executes a command stored in the memory 530 or the storage device 560 . It may be any semiconductor device that does The processor 510 may be configured to implement the functions and methods described with reference to FIGS. 1 to 4 .

The memory 530 and the storage device 560 may include various types of volatile or non-volatile storage media. For example, the memory may include a read-only memory (ROM) 531 and a random access memory (RAM) 532 . In an embodiment of the present invention, the memory 530 may be located inside or outside the processor 510 , and the memory 530 may be connected to the processor 510 through various known means.

In addition, the port configuration method of 5GS for providing a starter service according to embodiments of the present invention may be implemented as a program or software executed in the computing device 50, the program or software to be stored in a computer-readable medium. can

In addition, the port configuration method of 5GS for providing a starter service according to embodiments of the present invention may be implemented as hardware capable of being electrically connected to the computing device 50 .

In particular, network entity UE 100 , DS-TT 102 , UPF 104 , NW-TT 106 , RAN 108 , TSN AF 110 , PCF 112 , SMF 114 and NEF Reference numeral 120 may perform the operation described with reference to FIGS. 1 to 4 .

For example, a network entity (ie, NEF 120) that performs port configuration of a 5G system for providing a starter service according to an embodiment of the present invention is a network interface 570 for transmitting and receiving data with another network entity. ); and if the GM is determined to be a TSN GM outside of 5GS, the port configuration of 5GS is performed in the BMCA method, and if the GM is determined as a 5GS GM inside 5GS or is determined as a TSN GM outside of 5GS that does not support BMCA, the external port It may include a processor 510 that performs port configuration of 5GS in a configuration manner.

As another example, a network entity (ie, NW-TT 106 ) that performs port configuration of a 5G system for providing a starter service according to an embodiment of the present invention is a network interface for transmitting and receiving data with other network entities ( 570); and a processor 510 that, when the GM is determined to be a TSN GM outside of 5GS, adds port setting information to the Announce message based on the BMCA result, and the NW-TT transmits the Announce message to DS-TT based on the BMCA result. can do.

As such, the processor 510 and the network interface 570 may be implemented to perform the operations described with reference to FIGS. 1 to 4 .

According to the embodiments of the present invention described so far, according to the embodiments of the present invention, various applications can be supported by providing a starter service using the 5GS exposure function. Accordingly, 5GS can provide deterministic communication according to the starter service required by various applications in the non-TSN environment as well as the TSN environment.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and common knowledge in the technical field to which the present invention pertains using the basic concept of the present invention defined in the following claims Various modifications and improved forms of those having

Claims (20)

As a port configuration method of a 5G system (5G system, 5GS) for providing a starter service,
When a grandmaster (GM) is determined to be a Time Sensitive Networking (TSN) GM outside the 5GS, a Network Exposure Function (NEF) performing a port configuration of the 5GS using a Best Master Clock Algorithm (BMCA) method; and
When the GM is determined as the 5GS GM inside the 5GS or the TSN GM outside the 5GS that does not support the BMCA, the NEF performs the port configuration of the 5GS in an external port configuration method. comprising the steps of
How to configure the port. According to claim 1,
When the NEF performs the port configuration of the 5GS in the BMCA method, the port configuration method further comprising the step of receiving, by the NEF, a BMCA result report from a NW-TT (Network TSN Translator). 3. The method of claim 2,
The port configuration method further comprising the step of transmitting, by the NEF, port setting information and Announce information to a Device Side TSN Translator (DS-TT) based on the BMCA result. 4. The method of claim 3,
The port setting information and the Announce information are transmitted from the NEF to the DS-TT through Port Management Information Container (PMIC) signaling. 4. The method of claim 3,
According to the result of the BMCA, an Announce message according to the Announce information is generated in a port set as a master. The method of claim 1,
When the NEF performs the port configuration of the 5GS in the external port configuration method, the method further comprising the step of transmitting, by the NEF, port setting information and Announce information to NW-TT or DS-TT. 7. The method of claim 6,
When the NEF transmits the port setting information and the announce information to the NW-TT, the port setting information and the announce information are transmitted through Bridge Management Information Container (BMIC) signaling or PMIC signaling. 7. The method of claim 6,
When the NEF transmits the port setting information and the announce information to the DS-TT, the port setting information and the announce information are transmitted through PMIC signaling. 7. The method of claim 6,
According to the result of the BMCA, an Announce message according to the Announce information is generated in a port set as a master. As a port configuration method of a 5G system (5G system, 5GS) for providing a starter service,
adding, by the NW-TT, port setting information to an Announce message based on a BMCA result when the GM is determined to be the TSN GM outside the 5GS; and
The NW-TT comprising the step of transmitting the Announce message to DS-TT
How to configure the port. 11. The method of claim 10,
In a port set as a master according to the BMCA result, the Announce message is transmitted to another network entity. As a network entity that performs port configuration of a 5G system (5G system, 5GS) for providing a starter service,
a network interface for transmitting and receiving data to and from other network entities; and
If the GM is determined to be the TSN GM outside the 5GS, the port configuration of the 5GS is performed in the BMCA method,
When the GM is determined to be the 5GS GM inside the 5GS or the TSN GM outside the 5GS that does not support the BMCA, including a processor configured to configure the port of the 5GS in an external port configuration method.
network entity. 13. The method of claim 12,
When performing the port configuration of the 5GS in the BMCA method, the processor receives a BMCA result from the NW-TT, a network entity. 14. The method of claim 13,
Based on the BMCA result, the processor transmits port configuration information and Announce information to DS-TT, a network entity. 15. The method of claim 14,
The port configuration information and the Announce information are transmitted to the DS-TT through PMIC signaling, a network entity. 15. The method of claim 14,
A network entity that generates an Announce message according to the Announce information in a port set as a master according to the BMCA result. 13. The method of claim 12,
When the NEF performs the port configuration of the 5GS in the external port configuration method, the processor transmits port setting information and Announce information to NW-TT or DS-TT, a network entity. 18. The method of claim 17,
When the NEF transmits the port configuration information and the announce information to the NW-TT, the port configuration information and the announce information are transmitted through BMIC signaling or PMIC signaling. 18. The method of claim 17,
When the NEF transmits the port configuration information and the announce information to the DS-TT, the port configuration information and the announce information are transmitted through PMIC signaling. 18. The method of claim 17,
A network entity that generates an Announce message according to the Announce information in a port set as a master according to the BMCA result.

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