KR20210064888A - Method for transmitting data based on data size and network status in 5G NSA terminal, and 5G NSA terminal device therefor - Google Patents

Abstract

The present invention relates to a method for transmitting data based on data size and a mobile communication network situation in a 5G NSA terminal, and a 5G NSA terminal device using the same. The method for transmitting data based on data size and a mobile communication network situation in a 5G NSA terminal comprises the steps of: obtaining, by a 5G NSA terminal, data size information to be transmitted; comparing, by the 5G NSA terminal, the ping response time for an immediately-stored 5G communication network with the ping response time for an immediately-stored LTE communication network when a data size to be transmitted is not greater than a preset data size; transmitting data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network; and measuring and storing, by the 5G NSA terminal, the ping response time for each of the 5G network and the LTE network. In accordance with the present invention, in the case of transmission of small-capacity data, the data is transmitted through a relatively stable LTE network rather than through a 5G network. Accordingly, from the viewpoint of a terminal user, the user can enjoy more stable and faster service. Such data transmission is more effective in an environment in which the coverage and stability of the 5G network are insufficient.

Description

Method for transmitting data based on data size and network status in 5G NSA terminal, and 5G NSA terminal device therefor using the same

The present invention relates to determining a data transmission path in a mobile communication terminal, and more particularly, to a data transmission method according to a data size and a mobile communication network situation in a 5G NSA terminal, and a 5G NSA terminal device using the same.

In order to meet the increasing demand for wireless data traffic after the commercialization of the 4G communication system, a 5G communication system or a pre-5G communication system is being developed. The 5G communication system or pre-5G communication system is called a system after the 4G network (Beyond 4G Network) communication system or after the LTE system (Post LTE). 5G mobile communication technology has three major technological evolution directions: enhanced mobile broadband (eMBB), high-reliability/ultra-low latency communications (URLLC: Ultra Reliable & Low Latency Communications), and mMTC: Machine-Type Communication. aiming for

The 5G standard defines a wider frequency band than 4G to enable high speed and new services. The use of frequencies below 6 GHz such as 3.5 GHz ('Below 6 GHz') as well as ultra-high frequency bands ('Above 6 GHz') called millimeter waves (mmWave) such as 28 GHz and 39 GHz, and interworking with unlicensed bands are considering

On the other hand, 4G (LET) terminals before 5G support both the wireless data transmission/reception path through the 4G(LTE) communication network and the wireless data transmission/reception path through the 3G communication network, but if LTE takes precedence and the path through LTE is made, LTE It transmits and receives data through the 3G communication network and transmits and receives wireless data if the path through LTE is not established. That is, for data connection, only one of 4G (LTE) and 3G paths is selected and operated according to the signal state, and both 4G and 3G paths operate simultaneously, so data cannot be processed.

The 5G NSA (Non-Standalone) communication network is a standard technology designed to be used with the LTE network in the early stage of 5G commercialization to prepare for data loss when coverage is insufficient. 1 shows two types of 5G Non-Standalone (NSA) communication networks. As shown in FIG. 1, in the form of connecting the LTE base station 120 and the 5G base station 130 to the core network 110 of the existing LTE (refer to (a) of FIG. 1) and the existing LTE in the 5G core network 150 There may be a form of connecting the base station 160 and the 5G base station 170 (refer to (b) of FIG. 1). The 5G Non-Stand Alone (NSA) terminals 140 and 180 may transmit and receive wireless data simultaneously through both a Long Term Evolution (LTE) network and a 5G (NR) network.

In this way, in the 3GPP NR (5G) standard, the ability to transmit and receive wireless data simultaneously through both the LTE (Long Term Evolution) network and the 5G (NR) network is called a split bearer. In other words, the 5G NSA (Non Stand Alone) method supports both network methods of 5G NR (New Radio) and LTE (Long Term Evolution) in one terminal, and a split bearer that transmits and receives data simultaneously through 5G and LTE. If both 5G and LTE signals are available, 5G terminals preferentially use 5G or distribute data appropriately between 5G and LTE to transmit and receive data in parallel at the same time.

2 shows an example of a path through which a 5G NSA terminal transmits and receives data. As shown in FIG. 2, since both paths exist in the 5G network 210 and the LTE network 220 in the 5G NSA terminal, when data that needs to be transmitted/received occurs, the Split Bearer standard has sufficient network capacity and data resources. As long as there is, it is handled as Best Effort, which is a method of processing the path with free resources without priority on both paths.

However, even when a 5G signal is being received, the 5G transmission/reception state may not be good for various reasons, or data processing of various service applications of the terminal may be delayed or data transmission speed may be slowed for various reasons. When such a phenomenon occurs, the same phenomenon is repeated unless the terminal user moves the location or turns on the mobile phone again, causing inconvenience to the user.

Patent Publication No. 10-2019-0098569, 2019.08.22)

The problem to be solved by the present invention is to solve the above-mentioned problem, so that the terminal user can enjoy more stable and faster service, and the 5G user's data is exhausted in an environment where the coverage and stability of the 5G network are insufficient. Data transmission method according to data size and network conditions in a 5G NSA terminal, which transmits and receives data in a relatively stable other network (LTE) rather than in a 5G network when transmitting and receiving small-capacity data for the case where data transmission and reception is not possible is to provide

The problem to be solved by the present invention is to provide a 5G NSA terminal device that transmits data according to the data size and network condition, in which the 5G NSA terminal transmits data using a data transmission path determination method according to the data size and network condition. will be.

In the data transmission method according to the data size and network condition in the 5G NSA terminal according to the present invention for achieving the above technical problem, in the data transmission method according to the data size and the network condition in the 5G NSA terminal, the 5G NSA terminal wants to transmit obtaining data size information; If the data size to be transmitted by the 5G NSA terminal is not larger than the preset data size, the ping response time for the immediately stored 5G communication network and the ping response time for the immediately stored LTE communication network are determined. comparing; transmitting data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network; and the 5G NSA terminal measuring and storing the ping response time for the 5G network and the LTE network.

The data size information to be transmitted by the 5G NSA terminal is characterized in that it is obtained through a data packet of a Packet Data Convergence Protocol (PDCP) layer. The preset data size is characterized in that it is 1 Mbits. The ping response time is a round-trip time, which is a time taken to reach the 5G NSA terminal again through a ping server existing in the 5G network and a ping server existing in the LTE network.

In the data transmission method according to the data size and network conditions in the 5G NSA terminal according to the present invention, the data size to be transmitted by the 5G NSA terminal is larger than a preset data size, or the ping response time of the LTE network is that of the 5G network. If it is slower than the ping response time, it is characterized in that the data packet of the PDCP layer is transmitted through the 5G network.

5G NSA terminal device for transmitting data according to data size and network conditions according to the present invention for achieving the above technical problem, a data size detection unit for obtaining data size information to be transmitted through a 5G network or an LTE network; If the size of the data to be transmitted is not larger than the preset data size, determining the network situation by comparing the ping response time for the immediately stored 5G communication network and the ping response time for the immediately stored LTE communication network part; a data transmission control unit for transmitting data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network; and a ping measurement unit for the 5G NSA terminal to measure and store ping response times for the 5G network and the LTE network.

The data size detector acquires data size information to be transmitted through a data packet of a Packet Data Convergence Protocol (PDCP) layer. The preset data size is 1 Mbits, and the ping measurement unit is a round-trip, which is the time it takes to reach the 5G NSA terminal again through the ping server existing in the 5G network and the ping server existing in the LTE network. It is characterized in that the ping (ping) response time is obtained by measuring the time.

The transmission control unit transmits the data packet of the PDCP layer through the 5G network when the size of the data to be transmitted is larger than the preset data size or the ping response time of the LTE network is slower than the ping response time of the 5G network characterized in that

According to the data transmission method according to the data size and mobile communication network situation in the 5G NSA terminal according to the present invention, and the 5G NSA terminal device using the same, when transmitting data of a small capacity, it is not transmitted to the 5G network and is not transmitted to another network ( By transmitting and receiving data through LTE), a more stable and faster service can be enjoyed from the perspective of terminal users.

And according to the present invention, it is more effective in an environment where the coverage and stability of the 5G network are insufficient, it is possible to delay the exhaustion of the data capacity allocated by the fee of the 5G communication service user, and the data capacity is exhausted, so that the 5G transmission is It is effective because data can be transmitted through LTE even when it is not possible.

1 shows two types of 5G Non-Standalone (NSA) communication networks.
2 shows a path through which a 5G NSA terminal transmits and receives data.
3 shows an example of a non-standalone 5G system to which a data transmission method according to data size and network conditions in a 5G NSA terminal according to the present invention and a 5G NSA terminal device for transmitting data using the same can be applied.
4 shows a 5G NSA E-UTRA New Radio Dual Connectivity (EN-DC) system architecture, which is an example of a system architecture to which the present invention can be applied.
5 is a block diagram showing the configuration of an example of a 5G NSA terminal device that transmits data according to data size and network conditions according to the present invention.
6 is a flowchart illustrating an embodiment of a data transmission method according to a data size and a mobile communication network situation in a 5G NSA terminal according to the present invention.
7 shows a data path (5G/LTE) determined in a data transmission method according to a data size and a mobile communication network situation in a 5G NSA terminal according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described in the present specification and the configurations shown in the drawings are only a preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be variations and variations.

3 shows an example of a non-standalone 5G system to which a data transmission method according to data size and network conditions in a 5G NSA terminal according to the present invention and a 5G NSA terminal device for transmitting data using the same can be applied. Referring to FIG. 3 , the eNB 310 is a base station used in an LTE network system that supports interworking between LTE Radio technology and EPC, and the En-gNB 320 supports interworking with New Radio technology and 5G Core while supporting interworking with LTE at the same time. It is a base station interworking with the EPC 330, the core of the system, and the eNodeB (eNB, 310), which is a base station.

In the 5G NSA network, the UE 340 supports not only the resources of the eNB 310 supporting the LTE Radio technology, but also the resources of the En-gNB 320 supporting the New Radio technology while interworking with the eNB 310 and the EPC 330 . can also be used. A technology in which a terminal supporting one or more Rx/Tx simultaneously uses resources controlled by one or more base stations is called Dual Connectivity (DC), and the 5G NSA network system is based on the DC technology defined by the 3GPP standard organization.

In DC technology, it is 5G NSA that Master Node (MN) or Secondary Node (SN) also supports LTE Radio and New Radio. The 5G NSA architecture in the standard specification not only supports the use of New Radio in the Master Node or Secondary Node, but also supports the use of 5G Core or EPC in the Core network.

4 shows a 5G NSA E-UTRA New Radio Dual Connectivity (EN-DC) system architecture, which is an example of a system architecture to which the present invention can be applied. In FIG. 4, while using the EPC 410 as a Core, the eNB 420, which is an LET base station, is used as a Master Node, and the En-gNB 430, which is an NR base station, is used as a Secondary Node.

Briefly looking at the role of the Master Node and the role of the Secondary Node in the 5G NSA EN-DC network architecture of FIG. 4 , the eNB 420 serving as the Master Node is the control entity MME 412 and S1- of the EPC, which is the core of the LTE system. By creating an MME control connection, the MME 412 and the terminal 440 relay transmission and reception of NAS control messages. In addition, an RRC connection created with the terminal 440 is created using LTE Radio technology, and an RRC state based on the connection is managed.

And the en-gNB 430 serving as a Secondary Node does not participate in the control connection and NAS message relay associated with the EPC 410, but only in an additional data connection for high-capacity data transmission and reception.

Looking at the data transmission/reception path of the additional data connection, the eNB 420, which is the Master Node, among the two nodes that transmit/receive data in the terminal using DC is the path connected to the PGW/SGW 414, 416 of the EPC 410, the existing LTE. Transmits and receives data using the system's data path. In addition, the en-gNB 430, which is a secondary node that transmits an additional data connection to the terminal 440, transmits and receives data to and from the EPC 410 using one of two paths, unlike the eNB 420, which is a master node.

The first path is a PGW/SGW<-->eNB<-->en-gNB connection path for transmitting and receiving data through the eNB 420 . In this path, the eNB 420 as the Master Node becomes a Split Node that divides data sent directly to the UE 440 using LTE Radio and data transmitted to the UE using New Radio through the en-gNB 430 .

The second path is a PGW/SGW<-->en-gNB connection path that directly transmits/receives data to and from the PGW/SGWs 414 and 416. In this path, the SGW 416 becomes a split node that divides data transmitted/received to/from the terminal via the eNB 420 and data transmitted/received to/from the terminal 440 via the en-gNB 430 . Which of the two paths is used for data transmission/reception between the secondary node 430 and the EPC 410 may be determined according to the structure selection of the mobile communication service provider.

The process of creating a data path to use DC (Dual Connectivity) will be described. In order to use DC, the UE 440 first attaches to the EPC 410 through the eNB 420 serving as a Master Node to create PDN connections and bearers. When Attach is executed, the LTE system creates a PDN connection and bearer for the terminal, and the terminal 440 is in an EMM-Registered state and RRC connected to the eNB 420 serving as a master node. In this state, the eNB 420, which is the Master Node, is the current congestion state of the eNB 420, the data transmission/reception status of the terminal 440, and the existence of the en-gNB 430 that will serve as a Secondary Node around the eNB 420 and its After considering all of the congestion state of the en-gNB 430 and the like, the DC use of the terminal 440 is determined.

When DC usage is determined, the eNB 420, which is the Master Node, transmits and receives an X2-C control message through the X2 interface with the en-gNB 430 serving as a secondary, and uses the LTE radio resource controlled by the eNB 420 to the terminal 440. ) to perform a procedure of transferring some of the bearers that were serving data transmission/reception to be serviced through the en-gNB 430 . When the execution of this procedure is finished, the terminal 440 transmits and receives data transmitted/received to the bearer moved to the en-gNB 430 using the NR radio resource controlled by the en-gNB 430 . When the execution of this procedure is finished, the terminal 440 transmits and receives data transmitted/received to the bearer moved to the en-gNB 430 using the NR radio resource controlled by the en-gNB 430 .

In the above, the 5G NSA (Non Stand Alone) method supports both network methods of 5G NR (New Radio) and LTE (Long Term Evolution) in one terminal, and a split bearer that transmits and receives data simultaneously through 5G and LTE are supporting Accordingly, when both 5G and LTE signals are received, 5G terminals preferentially use 5G, or distribute data appropriately to 5G and LTE, and transmit and receive simultaneously in parallel.

5 is a block diagram illustrating a configuration of an example of a 5G NSA terminal device for transmitting data according to a data size and network conditions according to the present invention.

5G NSA terminal device for transmitting data according to data size and network conditions according to an embodiment of the present invention includes a data size detection unit 510, a network condition determination unit 520, a data transmission control unit 530, and a ping measurement unit ( 540) is included.

The data size detection unit 510 obtains data size information that the terminal intends to transmit through a 5G network or an LTE network, for example, obtains data size information to be transmitted through a data packet of a Packet Data Convergence Protocol (PDCP) layer. can do.

When the size of the data to be transmitted is smaller than a preset data size, for example, 1 Mbits, the network condition determination unit 520 determines the ping response time for the 5G communication network stored immediately before and the LTE communication network stored immediately before. Compare the ping response time for .

The data transmission control unit 530 transmits data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network. The transmission control unit 530 is configured to transmit the data through the 5G network when the size of the data to be transmitted is larger than a preset data size (eg, 1 Mbits) or the ping response time of the LTE network is slower than the ping response time of the 5G network. Transmits the data packet of the PDCP layer.

The ping measurement unit 540 measures and stores the ping response time of the 5G NSA terminal to the 5G network and the LTE network. The ping measurement unit 540 measures the round-trip time, which is the time it takes to reach the 5G NSA terminal again through the ping server existing in the 5G network and the ping server existing in the LTE network, to determine the ping response time. can be obtained.

6 is a flowchart illustrating an embodiment of a data transmission method according to a data size and a mobile communication network situation in a 5G NSA terminal according to the present invention. An embodiment of a data transmission method according to a data size and a mobile communication network situation in a 5G NSA terminal according to the present invention will be described with reference to FIGS. 5 and 6 . First, the data size detection unit 510 obtains data size information that the 5G NSA terminal intends to transmit. (Step S610) The data size information to be transmitted by the 5G NSA terminal may be obtained through a data packet of a Packet Data Convergence Protocol (PDCP) layer.

When the data size information is obtained, the network condition determination unit 520 determines if the data size to be transmitted by the 5G NSA terminal is not greater than a preset data size, for example, 1 Mbits (step S620), 5G communication stored immediately before The ping response time for the network and the ping response time for the LTE communication network stored immediately before are compared (step S630). The ping response time is determined by the ping server existing in the 5G network and the The round-trip time, which is the time it takes to reach the 5G NSA terminal again through the ping server existing in the LTE network, can be used.

As a result of comparing the ping response time, the data transmission control unit 530 transmits data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network. (Step S640) Here, the LTE When the transmission is determined through the network path, the data packet is transmitted by selecting only the LTE network path, even when data is transmitted in parallel to both the 5G network and the LTE network. 7 is a data transmission method through the 5G network when the ping response time of the LTE network is faster than the ping response time of the 5G network in the data transmission method according to the data size and the mobile communication network situation in the 5G NSA terminal according to the present invention. It shows a data path (5G/LTE) that transmits data only through the LTE network. In FIG. 7 , the MeNB shows that the eNB serves as a master node, and the SgNB shows that the gNB serves as a secondary node.

On the other hand, if the data size to be transmitted by the 5G NSA terminal is larger than the preset data size (step S620), or the ping response time of the LTE network is slower than the ping response time of the 5G network (step S630), the Transmits the data packet of the PDCP layer through the 5G network. (Step S650)

When data packet transmission is performed in the PDCP layer, the ping measurement unit 540 measures and stores the ping response time for the 5G network and the LTE network (step S660). At this time, the ping measurement unit 540 measures the ping. The 540 is in charge of a request/response function to the ping server according to the ping protocol. The result value of the ping measurement unit 540 becomes the round-trip time, which is the time it takes to reach the terminal again through the ping server.

In this case, the ping server can use the ping server inside the telecommunication company. A ping server using the LTE path and a ping server using the 5G path are required. The terminal requests a ping to the ping server using the ping protocol and receives the response to measure the round-trip time. The ping protocol follows the standard. The data transmission control unit 530 determines whether the LTE path or the 5G path is fast based on the measured round-trip time, and when the fast path is determined, the data transmission control unit 530 stores the information in the terminal and uses it to determine which path to use for the next packet transmission. Storage is stored in a space that does not volatilize in the terminal and persists even when the power is turned off, but it must be a space that the user cannot arbitrarily access.

When one packet is processed and the ping measurement is completed, information on which path to use among 5G/LTE is read from the stored information when transmitting the next packet, and data is transmitted through this path. If the information does not exist in the space in which the information is stored and ping measurement is not possible, the method of determining the data transmission path of the present invention may be ignored and data may be transmitted using the existing method.

The present invention may be embodied as computer-readable codes (including all devices having an information processing function) on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices in which data readable by a computer system is stored. Examples of computer-readable recording devices include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like. Also, in this specification, “unit” may be a hardware component such as a processor or circuit, and/or a software component executed by a hardware component such as a processor.

Although the present invention has been described with reference to the embodiment shown in the drawings, which is only exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110: communication terminal (UE) 120: mobile communication network
122: radio access network (RAN) 124: PS network
130: IMS network 140: IMS core network
142: P-CSCF 144: S-CSCF

Claims (10)

In a data transmission method according to data size and network conditions in a 5G NSA terminal,
obtaining, by the 5G NSA terminal, data size information to be transmitted;
If the data size to be transmitted by the 5G NSA terminal is not larger than the preset data size, the ping response time for the immediately stored 5G communication network and the ping response time for the immediately stored LTE communication network are determined. comparing;
transmitting data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network; and
and storing, by the 5G NSA terminal, measuring and storing the ping response time for the 5G network and the LTE network. The method of claim 1, wherein the data size information to be transmitted by the 5G NSA terminal is
A data transmission method according to data size and network conditions in a 5G NSA terminal, characterized in that it is obtained through a data packet of a Packet Data Convergence Protocol (PDCP) layer. The method of claim 1, wherein the preset data size is
Data transmission method according to data size and network conditions in 5G NSA terminal, characterized in that it is 1 Mbits. The method of claim 1, wherein the ping response time is
Data size and network conditions in the 5G NSA terminal, characterized in that it is the round-trip time, which is the time it takes to reach the 5G NSA terminal again through the ping server existing in the 5G network and the ping server existing in the LTE network data transmission method. According to claim 1,
When the data size to be transmitted by the 5G NSA terminal is larger than a preset data size or when the ping response time of the LTE network is slower than the ping response time of the 5G network, the data packet of the PDCP layer is transmitted through the 5G network Data transmission method according to the data size and network conditions in the 5G NSA terminal, characterized in that. a data size detection unit for obtaining data size information to be transmitted through a 5G network or an LTE network;
If the size of the data to be transmitted is not larger than the preset data size, determining the network situation by comparing the ping response time for the immediately stored 5G communication network and the ping response time for the immediately stored LTE communication network part;
a data transmission control unit for transmitting data through the LTE network when the ping response time of the LTE network is faster than the ping response time of the 5G network; and
5G NSA terminal device for transmitting data according to data size and network conditions, characterized in that the 5G NSA terminal comprises a ping measurement unit for measuring and storing ping response times for the 5G network and the LTE network. The method of claim 6, wherein the data size detection unit
5G NSA terminal device for transmitting data according to data size and network conditions, characterized in that it acquires data size information to be transmitted through a data packet of a Packet Data Convergence Protocol (PDCP) layer. The method of claim 6, wherein the preset data size is
5G NSA terminal device for transmitting data according to data size and network conditions, characterized in that it is 1 Mbits. The method of claim 6, wherein the ping measurement unit
A ping response time is obtained by measuring a round-trip time that is a time taken to reach the 5G NSA terminal again through a ping server existing in the 5G network and a ping server existing in the LTE network. , 5G NSA terminal device that transmits data according to data size and network conditions. 7. The method of claim 6, wherein the transmission control unit
When the size of the data to be transmitted is larger than the preset data size or the ping response time of the LTE network is slower than the ping response time of the 5G network, the data packet of the PDCP layer is transmitted through the 5G network , 5G NSA terminal device that transmits data according to data size and network conditions.

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