KR20210050277A - Cell access control device and control method thereof - Google Patents

Abstract

The present invention provides a method (technique) which can dramatically minimize the 5G service recovery time by omitting some signaling for an NR addition procedure after a 5G terminal operating in an EN-DC state undergoes LTE RLF. To this end, a cell access control device comprises a confirmation unit and a connection control unit.

Description

Cell access control device and cell access control method {CELL ACCESS CONTROL DEVICE AND CONTROL METHOD THEREOF}

The present invention relates to an EN-DC (E-UTRA NR Dual Connectivity) environment linking E-UTRA technology and NR technology, and more particularly, to a technology that can minimize 5G service recovery time in an EN-DC environment. About.

Currently, it is difficult to commercialize services only with NR (New Radio, 5G) standards, and considering the excessive initial NR investment cost and the inability to provide NR's own commercial services, many operators are connecting with the existing commercial E-UTRA technology and NR technology. -It is expected to use the DC (E-UTRA NR Dual Connectivity) method.

The architecture of EN-DC is a method of interworking an existing EPC (MME/S-GW) and an E-UTRA base station, in other words, an LTE base station (hereinafter, referred to as eNB)/ NR base station, in other words, a 5G base station (hereinafter, referred to as gNB). Non-Standalone technology using communication services based on interworking between heterogeneous 4G (LTE) and 5G networks can be used.

Non-Standalone technology uses 4G (LTE) as a primary network to secure seamless coverage, while using 5G as a secondary network to transmit and receive data with a larger capacity/lower delay. Interworking between 4G and 5G networks It is a technology that uses communication services based on.

Accordingly, the 5G terminal supporting Non-Standalone, at the time of initial network access, accesses the LTE cell of the eNB, accesses the primary 4G network, connects to the NR cell of the gNB (NR addition), and accesses the secondary 5G network, It operates in EN-DC state.

As such, when a 5G terminal operating in the EN-DC state experiences LTE RLF (Radio Link Failure), it reconnects to the LTE cell of the eNB, accesses the primary 4G network, and then a secondary 5G network that connects to the NR cell of the gNB. The NR addition procedure connecting to the NR should be repeated in the same way.

For this reason, after a 5G terminal operating in the EN-DC state undergoes LTE RLF, a delay of at least 2 sec or more occurs until the 5G service is normally used again, resulting in deterioration of the quality of customer experience.

Accordingly, in the present invention, after a 5G terminal operating in an EN-DC state undergoes LTE RLF, it is intended to propose a method for minimizing the 5G service recovery time taken until the 5G service is normally used again.

The present invention was created in view of the above circumstances, and an object to be reached in the present invention is to recover 5G service that takes until a 5G terminal operating in an EN-DC state undergoes LTE RLF and then normally uses the 5G service. It is to realize a method that can minimize time.

The cell access control apparatus according to the first aspect of the present invention for achieving the above object requires reconnection with the first cell for a terminal connected to the first and second cells supporting different networks. A confirmation unit that checks whether a specific event is generated; And when the specific event occurs, a specific message that attempts to reconnect to the first cell is transmitted, but through the specific message, information necessary for reconnection with the second cell is transmitted together, and performed under the control of the reconnected first cell. And a connection control unit for shortening a procedure for reconnection between the terminal and the second cell to be performed due to the previously transmitted information.

Specifically, the information may include measurement information measured by the terminal for a neighboring second cell.

Specifically, in the first cell reconnected to the terminal, the transmission of a message requesting to perform measurement on a neighboring second cell and report measurement information to the terminal is omitted, and the neighboring second cell included in the previously transmitted information It is possible to perform a reconnection procedure between the terminal and the second cell by selecting a second cell to be reconnected by the terminal based on the signal quality for.

Specifically, the first cell is a primary cell, the second cell is a secondary cell, and the specific event is a Radio Link Failure (RLF) in which the connection is disconnected due to a radio environment with the first cell. Can be

Specifically, the information necessary for reconnection with the second cell is in the same format as the measurement information format in the report message for the neighboring second cell transmitted to the first cell when an RLF with the second cell occurs, and the specified It can be included in the message and sent.

Specifically, the access control unit, according to the size of the specific message including the information and the UL Tx power of the terminal, the preamble of the PRACH (Physical Random Access Channel) for transmitting the specific message ( preamble) group can be selected and used.

Specifically, the access control unit, when the size of the specific message including the information is greater than or equal to a threshold size, when the uplink transmission power (UL Tx power) of the terminal is greater than or equal to the size required for successful reception of the specific message, Among the preamble groups of the PRACH, a specific preamble group to which the UL Grant used for transmission of the specific message is the largest can be selected and used.

Specifically, the specific message may be an RRE (RRCConnectionReestablishmentRequest) message.

Specifically, when reconnection with the first and second cells is completed, an information transmission unit that transmits the information transmitted by including in the specific message through a message used to collect information for network statistics to the first cell It may contain more.

In order to achieve the above object, a cell access control method performed in a terminal device according to a second aspect of the present invention, in a state of being connected to first and second cells supporting different networks, reconnects with the first cell. A confirmation step of checking whether a specific event requiring access occurs; And when the specific event occurs, a specific message that attempts to reconnect to the first cell is transmitted, but through the specific message, information necessary for reconnection with the second cell is transmitted together, and performed under the control of the reconnected first cell. It may include an access control step of shortening a procedure for reconnection with the second cell to be performed due to the previously transmitted information.

Specifically, the information may include measurement information measured by the terminal device for a neighboring second cell.

Specifically, the first cell is a primary cell, the second cell is a secondary cell, and the specific event is a Radio Link Failure (RLF) in which the connection is disconnected due to a radio environment with the first cell. Can be

Specifically, the information necessary for reconnection with the second cell is in the same format as the measurement information format in the report message for the neighboring second cell transmitted to the first cell when an RLF with the second cell occurs, and the specified It can be included in the message and sent.

Specifically, in the access control step, according to the size of the specific message including the information and the UL Tx power of the terminal device, the physical random access channel (PRACH) for transmitting the specific message is You can select and use a preamble group.

Specifically, in the access control step, if the size of the specific message including the information is greater than or equal to a threshold size, the UL Tx power of the terminal device is greater than or equal to the size required for successful reception of the specific message. In this case, among the preamble groups of the PRACH, a specific preamble group to which the UL Grant used for transmission of the specific message is the largest can be selected and used.

Specifically, when reconnection with the first and second cells is completed, an information transmission step of transmitting the information transmitted by including in the specific message to the first cell through a message used to collect information for network statistics It may further include.

Accordingly, according to the cell access control apparatus and cell access control method of the present invention, after the 5G terminal operating in the EN-DC state undergoes LTE RLF, some signaling for the NR addition procedure is omitted, thereby dramatically reducing the 5G service recovery time. A plan (technology) that can be minimized is being realized.

Accordingly, according to the present invention, it is possible to derive an effect of improving the quality deterioration of 5G service experienced after a 5G terminal operating in an EN-DC state undergoes LTE RLF.

1 is an exemplary diagram showing an EN-DC (E-UTRA NR Dual Connectivity) environment to which the present invention is applied.
2 is a block diagram showing the configuration of a cell access control apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating an operation flow of a cell access control method according to an embodiment of the present invention.
4 is an exemplary diagram showing a situation in which a 5G service recovery time is reduced according to the present invention from a system point of view.

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

The present invention relates to an EN-DC (E-UTRA NR Dual Connectivity) environment in which E-UTRA technology and NR technology are interlocked.

As shown in Figure 1, the architecture of the EN-DC, the existing EPC (MME/S-GW) and E-UTRA base station in other words, LTE base station (hereinafter, eNB) / NR base station, in other words, 5G base station (hereinafter, gNB) As a method of interworking with each other, a non-standalone technology that uses a communication service based on interworking between different heterogeneous 4G (LTE) and 5G networks can be used.

Non-Standalone technology uses 4G (LTE) as a primary network to secure seamless coverage, while using 5G as a secondary network to transmit and receive data with a larger capacity/lower delay. Interworking between 4G and 5G networks It is a technology that uses communication services based on.

Accordingly, the 5G terminal supporting Non-Standalone, at the time of initial network access, accesses the LTE cell of the eNB, accesses the primary 4G network, connects to the NR cell of the gNB (NR addition), and accesses the secondary 5G network, It operates in EN-DC state.

In the following, for convenience of explanation, as shown in FIG. 1, it is assumed that the terminal 30 accesses the NR cell of the LTE cell/gNB 20 of the eNB 10 and operates in the EN-DC state. I'll explain.

In this way, in a communication system supporting a non-standalone network structure, when the 5G terminal and terminal 30 operating in the EN-DC state and receiving service through the 5G call experience LTE RLF (Radio Link Failure), the After connecting to the primary 4G network, the NR addition procedure of connecting to the secondary 5G network connecting to the NR cell of the gNB must be repeated in the same manner.

That is, assuming that after experiencing the LTE RLF, the terminal 30 reconnects to the LTE cell (hereinafter, referred to as LTE Pcell) of the same eNB 10, the terminal 30 and the secondary are added under the control of the reconnected LTE Pcell. The reconnection procedure with the LTE cell to be accessed, that is, the NR addition procedure, must be repeated in the same manner.

For this reason, after the 5G terminal operating in the EN-DC state, that is, the terminal 30, after experiencing the LTE RLF, a delay of at least 2 sec or more occurs until the 5G service is normally used again, resulting in deterioration of the customer experience quality.

Accordingly, in the present invention, after a 5G terminal operating in an EN-DC state undergoes LTE RLF, it is intended to propose a method for minimizing the 5G service recovery time taken until the 5G service is normally used again.

Hereinafter, with reference to FIG. 2, the configuration of a cell access control apparatus realizing the scheme proposed in the present invention will be described in detail.

As shown in FIG. 2, the cell connection control apparatus 100 according to the embodiment of the present invention may include a confirmation unit 110 and a connection control unit 120.

Furthermore, the cell access control apparatus 100 according to an embodiment of the present invention may further include an information transmission unit 130.

Further, the cell access control apparatus 100 of the present invention, in addition to the above-described configuration, is a communication unit responsible for communication with the eNB 10 of the LTE cell and the gNB 20 of the NR cell for EN-DC operation ( 140) may further include.

Here, the communication unit 140 includes, for example, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a codec chipset, and a memory, but is not limited thereto. Any known circuit to perform may be included.

The entire or at least part of the configuration of the cell access control apparatus 100 of the present invention may be implemented in the form of a hardware module or a software module, or may be implemented in a form in which a hardware module and a software module are combined.

Here, the software module may be understood as, for example, a command executed by a processor that controls an operation in the cell access control device 100, and such a command refers to a form mounted in a memory in the cell access control device 100. You will be able to have it.

As a result, the cell access control apparatus 100 according to an embodiment of the present invention realizes a new method proposed by the present invention, that is, a method for minimizing 5G service recovery time in an EN-DC environment through the above-described configuration. Hereinafter, each configuration in the data receiving apparatus 100 for realizing this will be described in more detail.

Prior to the description, the cell access control apparatus 100 of the present invention may be implemented in a 5G terminal capable of EN-DC operation in a communication system supporting a non-standalone network structure, or interworking with a corresponding 5G terminal. It may be a separate device operated based on it.

However, in the following description, for convenience of explanation, the cell access control apparatus 100 of the present invention is implemented or mounted on a 5G terminal, and the cell access control apparatus 100 is assumed to be the same device as a 5G terminal (eg, 30). would.

The verification unit 110 checks whether a specific event requiring reconnection with the first cell occurs with respect to the terminal connected to the first and second cells supporting different networks.

Here, it is assumed that different networks mean a 4G (LTE) network and a 5G (NR) network. In this case, the first and second cells will mean the LTE cell of the eNB and the NR cell of the gNB.

In addition, in the present invention, a terminal connected to the first and second cells means a terminal in which EN-DC is operating, that is, a 5G terminal.

Accordingly, in the present invention, the first cell refers to an LTE cell (hereinafter, referred to as LTE Pcell), which is a primary cell of a 5G terminal operating EN-DC, and the second cell refers to an NR cell (hereinafter, referred to as NR Scell), which is a secondary cell. do.

That is, the verification unit 110 checks whether a specific event requiring reconnection with the LTE Pcell occurs with respect to the 5G terminal that is in operation with the LTE Pcell and the NR Scell, that is, the terminal 30 that is operating EN-DC. Responsible for the function.

In this case, it will be assumed that the specific event is a Radio Link Failure (RLF) in which the connection is disconnected due to a wireless environment with the first cell, that is, the LTE Pcell.

A 5G terminal in operation with EN-DC may move while receiving a service through a 5G call, and may perform a handover (H/O) to a target LTE Pcell in a weak field region of a serving LTE Pcell being connected.

In this case, if the 5G terminal experiences sudden deep fading due to a wireless environment, it may not perform normal LTE handover to the target LTE Pcell and may experience RLF in which the connection with the LTE Pcell is disconnected.

Of course, the 5G terminal operating EN-DC may experience RLF in which the connection with the LTE Pcell is disconnected due to various wireless environments, even if the LTE handover is not triggered.

Since it is assumed that the cell access control device 100 of the present invention is the same device as a 5G terminal (eg, 30), the verification unit 110, in the terminal 30 operating EN-DC as described above, with the LTE Pcell. It is checked whether or not an RLF in which the connection is disconnected occurs.

The access control unit 120 transmits, to the terminal, a specific message that attempts to reconnect to the first cell when a specific event occurs, but transmits information necessary for reconnection with the second cell through the specific message, The reconnection procedure between the terminal and the second cell performed under the control of the connected first cell can be shortened due to the previously transmitted information.

That is, the access control unit 120 transmits a specific message for attempting to reconnect to the LTE cell when an RLF in which the connection with the LTE Pcell is disconnected from the terminal 30 occurs.

Here, the specific message may be an RRE (RRCConnectionReestablishmentRequest) message.

In the present invention, when an LTE RLF occurs in the terminal 30 in which EN-DC is operating, the LTE reconnection procedure (Re-establishment procedure) is initiated and performed in the same manner as a general LTE terminal, and the call is first connected to the LTE Pcell. do.

Specifically, the cell access control apparatus 100 (terminal 30) of the present invention transmits an RRE message to an LTE cell having the best signal quality measured at the time when the LTE RLF occurs in the terminal 30.

The LTE cell that has received the RRE message holds the UE context information for the terminal 30 through the LTE handover preparation process, or corresponds to the serving PCI before the RLF occurrence included in the RRE message after receiving the RRE message. When the UE Context information for the corresponding terminal 30 is retained through the LTE cell and the LTE handover preparation process, the LTE cell receiving the RRE message is sent to the corresponding terminal 30 through signaling according to the re-establishment procedure. LTE call connection can be re-established.

In the existing case, when the LTE reconnection procedure, that is, the re-establishment procedure, is completed in the terminal 30 and the LTE call connection is re-established, the reconnection procedure with the terminal 30 and the LTE cell to be additionally accessed under the control of the reconnected LTE Pcell That is, the NR addition procedure is performed identically from the beginning.

That is, if it is existing, the LTE Pcell reconnected to the terminal 30 transmits a message to the terminal 30 to set a measurement event (e.g., B1 (or B2) event) to perform measurement on a neighboring NR cell. Accordingly, the terminal 30 is requested to transmit a report message, that is, a measurement report (MR) including measurement information on the neighboring NR cells measured according to the corresponding measurement event (eg, B1 (or B2) event).

Accordingly, the terminal 30 performs measurement on the neighboring NR cell according to the B1 (or B2) event and transmits the MR including the measurement information to the LTE Pcell, and the reconnected LTE Pcell is requested from the terminal 30. When the MR is received, the NR cell is selected based on the NR cell measurement information in the MR, and a reconnection procedure, that is, the NR Addition procedure between the terminal 30 and the selected NR cell, is performed starting with signaling with the selected NR cell. 30) This allows the 5G call connection to be re-established.

As such, according to the existing technology, under the control of the reconnected LTE Pcell, the reconnection procedure between the terminal 30 and the LTE cell to be additionally accessed, that is, an NR addition procedure (measurement event (B1 (or B2) event)) setting message transmission ~ 5G Call connection re-establishment) is performed the same from the beginning.

However, in the present invention, in the case of an RLF in which the connection with the LTE Pcell is disconnected from the terminal 30 as described above, in the RRE message transmitted to the LTE cell, the access control unit 120 reconnects with the NR cell (NR addition). The information necessary for the procedure) is being transmitted together.

At this time, the information transmitted together includes measurement information measured by the terminal 30 for a neighboring second cell, that is, a neighboring NR cell.

In addition, the NR cell measurement information includes information such as PCI (Physical Cell Identifier), signal quality (RSRP/RSRQ/SINR), CGI (Cell Global Identifier), PLMN Identity, and Tracking Area Code (TAC) for each NR cell. Can be included.

Accordingly, in the LTE Pcell reconnected with the terminal 30, when receiving information necessary for reconnection with an NR cell (NR addition procedure), that is, NR cell measurement information, through an RRE message, NR cell measurement information has already been received/ Because it is retained, some signaling for the NR addition procedure can be omitted.

Specifically, in the LTE Pcell reconnected to the terminal 30, the terminal 30 transmits a message requesting measurement performance and measurement information reporting for a neighboring second cell, that is, a neighboring NR cell, for example, a measurement event (B1 (or B2) event) skipping the transmission of the configuration message, selecting an NR cell based on previously transmitted information, that is, NR cell measurement information, and starting signaling with the selected NR cell, a reconnection procedure between the terminal 30 and the selected NR cell, that is, The NR Addition procedure can be performed.

At this time, in the reconnected LTE Pcell, the NR cell having the best signal quality may be selected as the NR cell to be reconnected based on the signal quality of the neighboring NR cells included in the NR cell measurement information.

For this reason, in the present invention, for the terminal 30 that has undergone LTE RLF while operating in the EN-DC state, the reconnection procedure with the terminal 30 and the NR cell performed under the control of the reconnected LTE Pcell (NR Addition procedure) can be shortened due to the NR cell measurement information transmitted by including it in the RRE message.

As described above, according to the present invention, after the 5G terminal operating in the EN-DC state undergoes LTE RLF, the NR cell measurement information is transmitted together in the RRE message transmitted to the LTE cell, under the control of the reconnected LTE Pcell. In a manner that allows some signaling of the performed NR addition procedure to be omitted, the 5G service recovery time can be drastically minimized.

Here, in the cell access control apparatus 100 (terminal 30) of the present invention, based on a periodic operation with a neighboring NR cell (for example, PSS/SSS/PBCH), measurement information for a neighboring NR cell is previously held and Therefore, it is also possible to include already owned NR cell measurement information in the RRE message.

At this time, in the cell access control apparatus 100 (terminal 30) of the present invention, if it is determined that the NR cell measurement information held in advance is inferior in reliability according to a preset criterion (e.g., the time elapsed at the time of measurement, etc.) , By measuring the neighboring NR cells, real-time NR cell measurement information may be included in the RRE message.

Of course, in the cell access control apparatus 100 (terminal 30) of the present invention, the neighboring NR cells are immediately measured at the time when the LTE RLF occurs, and real-time NR cell measurement information may be included in the RRE message.

Further, in the present invention, the access control unit 120 includes the NR cell measurement information in the RRE message transmitted to the LTE cell and transmits, when the RLF with the second cell, that is, the NR Scell occurs, the neighboring NR transmitted to the LTE Pcell. In the same format as the measurement information format in the report message for the cell, it can be included in the RRE message and transmitted.

According to the current standard, when a 5G terminal operating EN-DC experiences NR RLF, it is defined to transmit a report message (e.g., SCGInformationFailure-NR message) including NR cell measurement information measured for neighboring NR cells to the LTE Pcell. In addition, a format including NR cell measurement information in the SCGInformationFailure-NR message is also defined.

Therefore, in the present invention, by including and transmitting the NR cell measurement information in the RRE message in the same format as the measurement information format in the SCGInformationFailure-NR message, the NR cell in the RRE message is measured in accordance with the standard in the reconnected LTE Pcell receiving it. Make sure information can be checked without failure.

Meanwhile, in the present invention, when the NR cell measurement information is included in the RRE message, the concern that UL reception performance of the RRE message may be deteriorated due to an increase in the message size is to be solved in advance.

To this end, the access control unit 120, according to the size of the RRE message including information, that is, NR cell measurement information, and the UL Tx power of the terminal 30, PRACH (Physical Random Access Channel)'s preamble group is selected and used.

Specifically, the RRE message corresponds to the third message (msg3) in the RACH (Random Access Channel) procedure, and the RRCConnectionSetupRequest message (the third message in the RACH procedure in the Attach & Idle-to-Active procedure, fixed point call) This is a message that determines call reconnection performance, such as connection performance determination) and RRCConnectionReconfigurationComplete message (the third message in the RACH procedure in the HO procedure, mobile call connection performance determination).

Meanwhile, in the current standard, the preamble group used in the PRACH is defined as A and B, and in the base station, according to the preamble group (A or B) identified in the first message transmitted by the terminal in the RACH procedure, In the second message in the transmitted RACH procedure, the size of the UL Grant used for msg3 transmission is differently allocated, and a larger UL Grant is allocated to Group B than to Group A. .

Accordingly, according to an embodiment, if the size of the RRE message including the NR cell measurement information is greater than or equal to a threshold size (eg, ra-Msg3SizeGroupA), the uplink transmission power of the terminal 30 (UL Tx power) is determined to be greater than or equal to the size required for successful reception of an RRE message (including NR cell measurement information).

If the size of the RRE message is greater than or equal to a threshold size (for example, ra-Msg3SizeGroupA), the access control unit 120 determines that the uplink transmission power (UL Tx power) of the terminal 30 is the RRE message (including NR cell measurement information). A specific preamble that allocates the largest uplink grant (UL Grant) used for RRE message transmission among the preamble groups (assuming the current standard, A, B) of the PRACH if it is determined that it is sufficiently large beyond the size required for successful reception. Groups (assuming the current standard, B) can be selected and used.

That is, in the present invention, when LTE RLF occurs in the terminal 30, in the first message (eg, Random access Request) on the RACH procedure performed to transmit the RRE message to the LTE cell, selectively according to the above determination. By using the preamble group A or group B of the PRACH, the UL Grant used for RRE message transmission is the largest allocated when necessary, and the UL reception performance of the RRE message is not deteriorated due to the increase in the size of the RRE message. Can be avoided.

Additionally, in the present invention, the information transmission unit 130 is used to collect information for network statistics when reconnection with the first and second cells, that is, the LTE Pcell and NR Scell, is completed after the LTE RLF occurs in the terminal 30. Responsible for transmitting information transmitted by including in the RRE message through a message (eg, UEInformationRequest/UEInformationReponse), that is, NR cell measurement information to the reconnected LTE Pcell.

Specifically, in the LTE Pcell reconnected after the occurrence of the LTE RLF in the terminal 30, the NR cell measurement information is transmitted to the terminal 30 by using the UEInformationRequest, which is a message used for the purpose of optimization based on network statistics information in the standard. You can request a transfer.

Accordingly, the information transmission unit 130 of the cell access control device 100 (terminal 30) uses the UEInformationReponse, which is a message used for network statistics information-based optimization in the standard, to the RRE message with the reconnected LTE Pcell. NR cell measurement information transmitted by including it can be transmitted.

Meanwhile, in the present invention, as a method for avoiding deterioration of UL reception performance of RRE messages due to an increase in the size of the RRE message mentioned above, a part of the NR cell measurement information is not included in consideration of the size of the RRE message (e.g.: It can be transmitted by including only N NR cells with excellent signal quality, including only essential parameters among all NR cell measurement information).

In this case, when transmitting the NR cell measurement information using the UEInformationReponse, the information transmission unit 130 of the cell access control apparatus 100 (terminal 30) may transmit all of the parts not included in the RRE message without omission. have.

Accordingly, in the present invention, it is possible to derive an additional effect of automatically collecting NR cell measurement information at the time of occurrence of LTE RLF and being used as network statistics information.

As described above, in the present invention, after the 5G terminal operating in the EN-DC state undergoes LTE RLF, it is performed under the control of the reconnected LTE Pcell by transmitting NR cell measurement information together in the RRE message transmitted to the LTE cell. In a manner that allows some signaling of the NR addition procedure to be omitted, a technology capable of dramatically minimizing the 5G service recovery time is realized.

Accordingly, according to the present invention, it is possible to derive an effect of improving the quality deterioration of 5G service experienced after a 5G terminal operating in an EN-DC state undergoes LTE RLF.

Hereinafter, a cell access control method according to an embodiment of the present invention will be described with reference to FIG. 3.

For convenience of explanation, in the following description, the terminal 30 will be referred to as a subject in which the cell access control method of the present invention is performed.

According to the cell access control method of the present invention, the terminal 30 checks whether a UL RLF in which the connection with the LTE Pcell is disconnected occurs in a state connected to the LTE Pcell and the NR Scell, that is, during EN-DC operation (S100). Do (S110).

According to the cell access control method of the present invention, when the occurrence of LTE UL RLF is confirmed (S110 Yes), the terminal 30 initiates an LTE reconnection procedure (Re-establishment procedure) in the same manner as a general LTE terminal, and first LTE The call connection is attempted to be re-established by the Pcell (S120).

Specifically, according to the cell access control method of the present invention, the terminal 30 includes NR cell measurement information in the RRE message in order to transmit the previously held or immediately measured NR cell measurement information in the RRE message to be transmitted to the LTE cell. When the message size is greater than or equal to a threshold size (eg, ra-Msg3SizeGroupA), it is checked (S130).

According to the cell access control method of the present invention, when the NR cell measurement information is included in the RRE message, when the message size is not greater than or equal to a threshold size (e.g., ra-Msg3SizeGroupA) (S130 No), LTE UL RLF occurs. As an LTE cell with the best signal quality measured at the time, it transmits the first message (e.g., Random access Request) in the RACH procedure using the default PRACH preamble group (e.g. A), and the second message accordingly. When (eg, a random access response) is received, the NR cell measurement information may be included in the RRE message, which is a third message, and transmitted according to an uplink grant (UL Grant) allocated through it (S155).

Meanwhile, according to the cell access control method of the present invention, if the message size is greater than or equal to a threshold size (e.g., ra-Msg3SizeGroupA) when the NR cell measurement information is included in the RRE message (S130 Yes), the terminal 30 It is determined whether the link transmission power (UL Tx power) is greater than or equal to the size required for successful reception of the RRE message (including NR cell measurement information) (S140).

According to the cell access control method of the present invention, the terminal 30, when the uplink transmission power (UL Tx power) of the terminal 30 is not more than the size required for the successful reception of the RRE message (including NR cell measurement information) (S140 No), step S155 described above may be performed.

On the other hand, according to the cell access control method of the present invention, the terminal 30, if the uplink transmission power (UL Tx power) of the terminal 30 is greater than the size required for the successful reception of the RRE message (including NR cell measurement information) (S140 Yes), LTE cell with the best signal quality measured at the time of occurrence of LTE UL RLF, the uplink grant used for RRE message transmission among the preamble group (assuming the current standard, A, B) of the PRACH ( The first message (e.g., Random access Request) on the RACH procedure is transmitted by selecting/using the specific preamble group (B, assuming the current standard) to which the UL Grant) is assigned the largest, and accordingly, the second message (e.g.: When a random access response) is received, the NR cell measurement information may be included in the RRE message, which is a third message in an uplink grant (UL Grant) allocated thereto, and transmitted (S150).

The LTE cell that has received the RRE message in step S150 or S155 described above, based on the UE context information for the terminal 30, the corresponding terminal through signaling according to the re-establishment procedure for reconnection with the terminal 30. The LTE call connection for (30) can be re-established.

In addition, in the present invention, the LTE Pcell reconnected to the terminal 30 receives information necessary for reconnection with an NR cell (NR addition procedure), that is, NR cell measurement information, through an RRE message, and has already received the NR cell measurement information. Because / has, some signaling for the NR reconnection procedure, that is, the NR addition procedure, of the terminal 30 can be omitted (S160).

Specifically, in the LTE Pcell reconnected to the terminal 30, the terminal 30 transmits a message requesting measurement of the neighboring NR cells and reporting of measurement information, for example, setting a measurement event (B1 (or B2) event). By omitting the message transmission, selecting an NR cell based on previously transmitted information, that is, NR cell measurement information, and starting signaling with the selected NR cell, a reconnection procedure, that is, an NR Addition procedure, between the terminal 30 and the selected NR cell is performed. You can do it.

At this time, in the reconnected LTE Pcell, the NR cell having the best signal quality may be selected as the NR cell to be reconnected based on the signal quality of the neighboring NR cells included in the NR cell measurement information.

For this reason, in the present invention, for the terminal 30 that has undergone LTE RLF while operating in the EN-DC state, the reconnection procedure with the terminal 30 and the NR cell performed under the control of the reconnected LTE Pcell (NR Addition procedure) can be shortened due to the NR cell measurement information transmitted by including it in the RRE message.

And, according to the cell access control method of the present invention, when the reconnection with the LTE Pcell and NR Scell is completed through the above steps, a message used for collecting information for network statistics (e.g., UEInformationRequest/UEInformationReponse ), the information transmitted by including in the RRE message, that is, NR cell measurement information may be transmitted to the reconnected LTE Pcell (S170).

Specifically, in the LTE Pcell reconnected after the occurrence of the LTE RLF in the terminal 30, the NR cell measurement information is transmitted to the terminal 30 by using the UEInformationRequest, which is a message used for the purpose of optimization based on network statistics information in the standard. You can request a transfer.

Accordingly, according to the cell access control method of the present invention, the terminal 30 uses the UEInformationReponse, which is a message used for optimization based on network statistics information in the standard, and includes the reconnected LTE Pcell in the RRE message and transmits the NR cell. Measurement information can be transmitted.

Accordingly, in the present invention, it is possible to derive an additional effect of automatically collecting NR cell measurement information at the time of occurrence of LTE RLF so that it can be used as network statistics information.

Hereinafter, with reference to FIG. 4, a situation in which the 5G service recovery time is reduced according to the present invention will be described from a system point of view.

As shown in FIG. 4, 1) an NSA UE is operating EN-DC by connecting LTE cell A to an LTE Pcell and NR cell a to an NR Scell, and 3) UL RLF may occur in an LTE Pcell.

In the present invention, when the NSA UE in which UL RLF has occurred in the LTE Pcell, when the NR cell measurement information is included in the RRE message, the message size is greater than or equal to a threshold size (e.g., ra-Msg3SizeGroupA) and the uplink transmission power (UL Tx power) is an RRE message. If it is determined that the size is greater than the size required for successful reception of (including NR cell measurement information), 4-1) When LTE UL RLF occurs in the first message (e.g., Random access Request) in the RACH procedure using preamble group B It transmits to the LTE cell (eg, LTE cell A) with the best signal quality measured in

And, the NSA UE, 4-2) When a second message (e.g., Random access Response) is received from the LTE cell, 4) the NR cell in the RRE message that is the third message in the uplink grant (UL Grant) allocated through it. It can be transmitted with measurement information included.

At this time, the NR cell measurement information included in the RRE message may be 2) information previously held by the NSA UE based on a periodic operation with a neighboring NR cell (eg, PSS/SSS/PBCH) during EN-DC operation. , It may be information measured on neighboring NR cells immediately at the time when LTE RLF occurs.

LTE cell A that has received the RRE message is a serving cell before LTE handover and has UE context information for the corresponding NSA UE, so 5)6)7) LTE cell A that has received the RRE message has a Re-establishment procedure ( The LTE call connection to the corresponding NSA UE can be re-established through signaling according to the RRE procedure).

And, in the present invention, the LTE Pcell (LTE cell A) reconnected with the NSA UE receives information necessary for reconnection with the NR cell (NR addition procedure), that is, NR cell measurement information, through an RRE message, and NR cell measurement information. Since it already receives/retains, it is possible to shorten the 5G service recovery time by omitting some signaling for the NR reconnection procedure, that is, the NR addition procedure, of the NSA UE.

That is, the LTE Pcell (LTE cell A) reconnected to the NSA UE in the present invention transmits a message requesting measurement performance and measurement information report for neighboring NR cells to the NSA UE, for example, a measurement event (B1 (or B2)). ) event) By omitting the transmission of the setup message, selecting the NR cell (e.g., NR cell b) based on the previously transmitted information, that is, NR cell measurement information, 11)12)13)14)15) Starting with signaling, a reconnection procedure between the NSA UE and the selected NR cell, that is, an NR Addition procedure may be performed.

At this time, the reconnected LTE Pcell (LTE cell A) may select the NR cell with the best signal quality as the NR cell to be reconnected based on the signal quality of the neighboring NR cells included in the NR cell measurement information.

In addition, the LTE Pcell (LTE cell A) reconnected with the NSA UE may request the NSA UE to transmit NR cell measurement information by using the UEInformationRequest, which is a message used for the purpose of optimization based on network statistics information in the standard.

Accordingly, the NSA UE can transmit the NR cell measurement information transmitted by including it in the RRE message to the reconnected LTE Pcell (LTE cell A) by using the UEInformationReponse, which is a message used for the purpose of optimization based on network statistics information in the standard. .

Accordingly, in the present invention, it is possible to derive an additional effect of automatically collecting NR cell measurement information at the time of occurrence of LTE RLF so that it can be used as network statistics information.

As described above, in the present invention, after the 5G terminal operating in the EN-DC state undergoes LTE RLF, the NR cell measurement information is transmitted together in the RRE message transmitted to the LTE cell, under the control of the reconnected LTE Pcell. In a manner that allows some signaling of the performed NR addition procedure to be omitted, a technology capable of remarkably minimizing the 5G service recovery time is being realized.

Accordingly, according to the present invention, it is possible to derive an effect of improving the quality deterioration of 5G service experienced after a 5G terminal operating in an EN-DC state undergoes LTE RLF.

The cell access control method 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 usable to those skilled in computer software. Examples of computer-readable recording media 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 floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operation 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 claimed in the following claims. Anyone of ordinary skill in the art will say that the technical idea of the present invention extends to the range in which various modifications or modifications are possible.

According to the cell access control apparatus and cell access control method of the present invention, the 5G terminal operating in the EN-DC state dramatically shortens and minimizes the 5G service recovery time after experiencing LTE RLF, surpassing the limitations of the existing technology. This invention has industrial applicability because it is not only the use of the related technology, but also the possibility of marketing or sales of the applied device as well as the degree that it can be implemented clearly in reality.

100: cell connection control device
110: confirmation unit 120: connection control unit
130: information transmission unit

Claims (16)

A check unit for checking whether a specific event requiring reconnection with the first cell occurs for the terminal connected to the first and second cells supporting different networks; And
When the specific event occurs, a specific message that attempts to reconnect to the first cell is transmitted, but information necessary for reconnection with the second cell is transmitted through the specific message, which is performed under the control of the reconnected first cell. And a connection control unit configured to shorten a reconnection procedure between the terminal and the second cell due to the previously transmitted information. The method of claim 1,
The above information is:
Cell access control apparatus comprising the measurement information measured for the second cell surrounding the terminal. The method of claim 1,
In the first cell reconnected to the terminal,
The second terminal to be reconnected based on the signal quality of the neighboring second cell included in the previously transmitted information, omitting the transmission of the message requesting the measurement performed on the neighboring second cell and reporting the measurement information to the terminal. Cell access control apparatus, characterized in that by selecting a cell to perform a reconnection procedure between the terminal and the second cell. The method of claim 1,
The first cell is a primary cell and the second cell is a secondary cell,
The specific event,
Cell access control apparatus, characterized in that the RLF (Radio Link Failure) in which the connection is disconnected due to a wireless environment with the first cell. The method of claim 4,
Information necessary for reconnection with the second cell is,
When an RLF with the second cell occurs, the cell access control apparatus is transmitted by being included in the specific message in the same format as the measurement information format in a report message for a neighboring second cell transmitted to the first cell. The method of claim 1,
The connection control unit,
According to the size of the specific message including the information and the UL Tx power of the terminal, selecting and using a preamble group of a PRACH (Physical Random Access Channel) for transmission of the specific message Cell connection control device, characterized in that. The method of claim 6,
The connection control unit,
When the size of the specific message including the information is greater than or equal to the threshold size, when the UL Tx power of the terminal is greater than or equal to the size required for successful reception of the specific message,
A cell access control apparatus comprising selecting and using a specific preamble group to which the UL Grant used for transmission of the specific message is the largest among the preamble groups of the PRACH. The method of claim 1,
The specific message,
Cell connection control apparatus, characterized in that the RRE (RRCConnectionReestablishmentRequest) message. The method of claim 1,
When reconnection with the first and second cells is completed, an information transmission unit for transmitting the information transmitted to the first cell by including in the specific message through a message used to collect information for network statistics Cell connection control device, characterized in that. In the cell access control method performed in a terminal device,
A confirmation step of checking whether a specific event requiring reconnection with the first cell occurs while being connected to the first and second cells supporting different networks; And
When the specific event occurs, a specific message that attempts to reconnect to the first cell is transmitted, but information necessary for reconnection with the second cell is transmitted through the specific message, which is performed under the control of the reconnected first cell. And a connection control step of reducing a reconnection procedure with the second cell due to the previously transmitted information. The method of claim 10,
The above information is:
And cell access control method comprising measurement information measured by the terminal device for a neighboring second cell. The method of claim 10,
The first cell is a primary cell and the second cell is a secondary cell,
The specific event,
Cell access control method, characterized in that RLF (Radio Link Failure) in which the connection is disconnected due to a radio environment with the first cell. The method of claim 12,
Information necessary for reconnection with the second cell is,
When an RLF with the second cell occurs, the cell access control method is transmitted in the same format as the measurement information format in a report message for a neighboring second cell transmitted to the first cell, included in the specific message, and transmitted. The method of claim 10,
The access control step,
According to the size of the specific message including the information and the UL Tx power of the terminal device, a preamble group of PRACH (Physical Random Access Channel) for transmission of the specific message is selected and used. Cell access control method, characterized in that. The method of claim 14,
The connection control unit,
When the size of the specific message including the information is greater than or equal to the threshold size, when the UL Tx power of the terminal device is greater than or equal to the size required for successful reception of the specific message,
A cell access control method, comprising selecting and using a specific preamble group to which the UL Grant used for transmission of the specific message is the largest among the preamble groups of the PRACH. The method of claim 10,
When reconnection with the first and second cells is completed, an information transmission step of transmitting the information transmitted by including in the specific message to the first cell through a message used to collect information for network statistics Cell access control method, characterized in that.

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