KR20170084679A - Method and apparatus for reusing access stratum context through unique base station identifier, and method and apparatus for resuming radio resource control (rrc) connection by using the same - Google Patents

Abstract

There is provided a method for a first base station resuming a radio resource control (RRC) connection suspended by a second base station. The first base station receives from the terminal an RRC connection resume request message including a first identifier for identifying the second base station and a resume identifier. The first base station uses the first identifier to identify the second base station. And the first base station obtains from the second base station access context (AS) context information matching the resume identifier using the resume identifier.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and apparatus for reusing an access layer context through a unique base station identifier, and a method and apparatus for resuming a radio resource control (RRC) connection using the same. RESUMING RADIO RESOURCE CONTROL (RRC) CONNECTION BY USING THE SAME}

The present invention relates to a method and apparatus for reusing an access stratum (AS) context via a unique base station identifier.

The present invention also relates to a method and apparatus for resuming a radio resource control (RRC) connection.

In a conventional mobile communication system, messages for nine connection establishment procedures (e.g., random access preamble message, radio resource control (RRC) reconfiguration (RRC) reconfiguration complete message, etc.).

When a mobile communication system is applied to an application that intermittently transmits data of a small size such as Internet of things (IoT), the number of messages for connection establishment and the size of the messages The size is relatively small. This causes signaling overhead problems, and a method for compensating for such problems is required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and apparatus for reducing signaling overhead and battery consumption by a connection reset procedure.

According to an embodiment of the present invention, a method is provided for a first base station to resume a suspended radio resource control (RRC) connection by a second base station. Wherein the RRC connection resumption method of the first base station comprises: receiving, from the terminal, an RRC connection resume request message including a first identifier for identifying the second base station and a resume identifier; Identifying the second base station using the first identifier; And acquiring from the second base station an access stratum (AS) context information matching the resumption identifier using the resumption identifier.

The acquiring may include acquiring the AS context information from the second base station through at least one of an X2 interface using an X2-AP (application protocol) and an S1 interface using an S1-AP.

Wherein the first identifier comprises at least one of a global base station identifier, a physical cell identifier (ECC), an evolved universal terrestrial radio access network (E-UTRAN) cell identifier, and an ECI E-UTRAN cell identifier).

The RRC connection resuming method of the first base station may further include transmitting an RRC connection resumption completion message including a second identifier for identifying the first base station to which the RRC connection is resumed to the MS .

Wherein the receiving step receives the RRC connection resumption request message from the terminal in the RRC idle state when the base station to which the terminal connected in the RRC idle state is changed from the second base station to the first base station Step < / RTI >

When the RRC connection is suspended, the second base station may transmit an RRC connection suspension message including the first identifier and the resume identifier to the UE.

According to another embodiment of the present invention, there is also provided a method for a terminal to resume a radio resource control (RRC) connection that is interrupted by a first base station. The method of claim 1, wherein the RRC connection resumption method of the terminal comprises: a resumption identifier for retrieving context information of an access stratum (AS) of the RRC connection to a second base station different from the first base station; Transmitting an RRC connection resumption request message including a first identifier for searching a first base station; And receiving, from the second base station, an RRC connection resume complete message including a second identifier for identifying the second base station, when the RRC connection is resumed by the second base station.

The transmitting step may include transmitting the RRC connection resumption request message to the second base station in the RRC idle state when the base station to which the terminal connected in the RRC idle state is changed from the first base station to the second base station And transmitting the data.

Wherein the RRC connection resuming method of the terminal further includes receiving, from the first base station, an RRC connection suspension message including the resume identifier and the first identifier for suspending the RRC connection before the transmitting step .

Wherein the first identifier comprises at least one of a global base station identifier, a physical cell identifier (ECC), an evolved-universal terrestrial radio access network (E-UTRAN) E-UTRAN cell identifier).

According to yet another embodiment of the present invention, there is provided a second base station for resuming a radio resource control (RRC) connection suspended by the first base station. The second base station comprising: a memory; And determining the first base station, which is connected to the memory and stores an access stratum (AS) context information for the RRC connection, using a first identifier included in the RRC connection resumption request message received from the terminal Processor.

The processor may obtain the AS context information from the first base station using the resume identifier included in the RRC connection resume request message.

According to an embodiment of the present invention, a base station to which a terminal newly connects can search for a base station to which the terminal has previously connected through a unique base station identifier, and can reuse the AS context information held by a previous base station. This can reduce the signaling overhead due to the connection re-establishment procedure and the battery consumption of the terminal.

1 shows a connection establishment procedure of a mobile communication network.
FIG. 2 shows a resume attempt procedure used by a user plane (UP) solution when AS context information does not exist in a base station.
FIG. 3 illustrates a method for reusing an AS context using a unique base station identifier according to an embodiment of the present invention, and an RRC connection suspension procedure based thereon.
FIG. 4 illustrates a procedure for resuming an attempt to use the UP solution when the AS context information does not exist in the base station according to the embodiment of the present invention.
5 is a diagram illustrating a wireless device (or communication node) in accordance with an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

In the present specification, duplicate descriptions are omitted for the same constituent elements.

Also, in this specification, when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, May be present. On the other hand, in the present specification, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that no other element exists in between.

Furthermore, terms used herein are used only to describe specific embodiments and are not intended to be limiting of the present invention.

Also, in this specification, the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise.

Also, in this specification, the terms " comprise ", or " have ", and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Also, in this specification, the term 'and / or' includes any combination of the listed items or any of the plurality of listed items. In this specification, 'A or B' may include 'A', 'B', or 'both A and B'.

Also, in this specification, a terminal is referred to as a mobile terminal, a mobile station, an advanced mobile station, a high reliability mobile station, a subscriber station, May refer to a mobile subscriber station, an access terminal, a user equipment (UE), or the like, and may refer to a terminal, a mobile terminal, a mobile station, an advanced mobile station, a high- A subscriber station, an access terminal, a user equipment, and the like.

Also, in this specification, a base station (BS) is an advanced base station, a high reliability base station, a node B, an evolved node B, an eNodeB, eNB), an access point, a radio access station, a base transceiver station, a mobile multihop relay (MMR) -BS, a relay station serving as a base station, A high-reliability relay station, a repeater, a macro base station, a small base station, etc., and may be referred to as a base station, an advanced base station, an HR-BS, a Node B, an eNodeB, , An MMR-BS, a repeater, a high-reliability repeater, a repeater, a macro base station, a small base station, and the like.

1 shows a connection establishment procedure of a mobile communication network.

Specifically, FIG. 1 illustrates connection procedures (S10 to S43) required for exchanging data between a terminal and a base station in a mobile communication system.

The terminal transmits a random access (RA) message (preamble) to the base station (S10).

The base station transmits an RA message (response) to the terminal (S11).

The terminal transmits an RA message (RRC connect request) to the base station (S12).

The base station transmits an RA message (RRC connect setup) to the mobile station (S13).

The MS transmits an RRC connection setup complete message (NAS (non-access stratum) service request) to the BS (S14).

The base station transmits an S1-AP (application protocol) initial UE message (NAS service request) to the mobility management entity (MME) (S30).

The MME transmits an S1-AP initial context setup request message to the base station (S31).

The base station transmits an RRC security mode command message to the terminal (S15).

The MS transmits an RRC security mode complete message to the BS (S16).

The base station transmits an RRC connection re-establishment message to the UE (S17).

The terminal transmits an RRC connection reset completion message to the base station (S18).

The base station transmits an S1-AP initial context setup complete message to the MME (S32).

The MME transmits a bearer modification request message to the SGW (S40).

The SGW transmits a bearer modification response message to the MME (S41).

The terminal transmits the uplink data to the base station (S19), and the base station transmits the received uplink data to the SGW (S33).

The SGW transmits the downlink data to the base station (S34), and the base station transmits the received downlink data to the terminal (S20).

If a predetermined time has elapsed, the base station transmits an S1-AP UE context release request message to the MME (S35).

The MME sends an access bearer release request message to the SGW (S42).

The SGW transmits an access bearer release response message to the MME (S43).

The MME transmits an S1-AP UE context cancel command message to the base station (S36).

The base station transmits an RRC connection release message to the UE (S21).

The base station transmits an S1-AP UE context release complete message to the MME (S37).

In the conventional mobile communication system, messages for nine connection establishment procedures (S10, S11, ..., S18) (e.g., random access preamble message, random access response message, ..., RRC connection reconfiguration complete message).

When a mobile communication system is applied to an application that intermittently transmits small size data such as the Internet (IoT), the number of messages for connection establishment and the size of data to be transmitted are relatively small compared to the size of such messages . This causes signaling overhead problems, and a method for compensating for such problems is required.

The third generation partnership project (SA2) of the 3GPP has determined a cellular IoT (CIoT) architecture for narrowband-IOT, in which solution 2 is called a control plane (CP) As a solution, Solution 18 was determined to be a user plane (UP) solution. In particular, the UP solution uses an RRC connection suspend procedure and an RRC connection resume procedure. The advantage of the UP solution is that the signaling overhead can be reduced and the battery consumption of the terminal can be reduced.

In the RRC connection suspension procedure, the base station transmits an RRC connection suspension message to change the state of the terminal from the RRC_Connected state to the RRC_idle state and to retain the AS context information in the terminal without deleting the command do. The base station also includes a resume ID in the RRC connection suspension message and provides the resume ID to the mobile station. Thus, the AS context information maintained by the base station itself can be retrieved later.

In the RRC connection resumption procedure, the UE transmits an RRC connection resumption request message to the BS to inform the BS of data to be transmitted. In addition, the MS includes a resume ID received from the BS in the RRC connection resumption request message, and provides the BS with the resume ID. Thus, the AS context information stored in the base station can be retrieved and reused.

FIG. 2 shows a resume attempt procedure used by a user plane (UP) solution when AS context information does not exist in a base station.

Specifically, FIG. 2 illustrates an attempt procedure for resuming the RRC connection when the AS context information does not exist in the base station to which the terminal is connected.

If the connected base station changes from the previous base station (eNB_Old) to the new base station (eNB_New) while the terminal is in the RRC id state (RRC_Idle), the terminal performs the RRC connection resuming procedure. At this time, the new base station eNB_New does not have the AS context information used in the previous connection. Therefore, the UE must perform the connection establishment procedures (S50 to S59) from the beginning together with the new base station (eNB_New).

That is, the terminal transmits an RA message (preamble) to the new base station eNB_New (S50). The new base station eNB_New transmits an RA message (response) to the terminal (S51). The UE transmits an RRC connection resume request message (resume ID, authentication token (UE), bearer indication, establishment cause) to the new base station eNB_New as an RA message (S52). The new base station eNB_New transmits an RRC connection resume message (SRB (signaling radio bearer)) to the UE (S53). The MS transmits an RRC connection setup complete message (NAS service request) as an RA message to the new base station eNB_New (S54). The new base station eNB_New transmits an S1-AP initial UE message (NAS service request) to the MME (S55). The MME transmits an S1-AP initial context setup request message to the new base station eNB_New (S56). The new base station eNB_New transmits an RRC security mode command message to the terminal (S57). The MME transmits the S1-AP cancel context message to the previous base station (eNB_Old) (S58). The previous base station eNB_Old transmits an S1-AP cancellation context response message to the MME (S59).

By re-executing these connection establishment procedures (S50 to S59), the advantages of reducing the signaling overhead of the existing UP solution are eliminated and the battery consumption of the terminal is caused.

Therefore, it is possible to reduce signaling overhead and battery consumption when the connected base station is changed while the terminal is in the RRC id state (RRC_Idle) and the AS context information used by the previous base station (eNB_Old) does not exist in the new base station (eNB_New) Method is indispensable.

Hereinafter, when the connected base station is changed while the terminal is in the RRC id (RRC_Idle) state in the mobile communication network and the AS context information stored for the terminal does not exist in the base station to which the terminal newly connects, (Hereinafter referred to as a 'second base station') acquires AS context information from a base station (hereinafter, referred to as a 'first base station') to which the terminal has previously connected and reuses it.

Specifically, before the UE transitions from the RRC_Connected state to the RRC_Idle state, the first base station may transmit its unique base station identifier information to the UE. The UE can transmit unique base station identifier information received in advance to the second base station before being converted from the RRC_Idle state to the RRC_Connected state. If the connected base station is changed in the state of the RRC id (RRC_Idle) of the UE and the AS context information for the UE does not exist in the second base station due to the change, the second base station finds the first base station, And can reuse the AS context information.

That is, the terminal and the base station transmit and receive a unique base station identifier through a message. If the AS context information for the terminal stored in the first base station can not be used because the base station (access point) to which the terminal is connected is changed from the first base station to the second base station, the second base station may use the unique base station identifier The base station can be found. The second base station can acquire the AS context information from the first base station and reuse it. Thereby, the procedures for connection between the terminal and the base station (e.g., the procedures of FIG. 2) can be omitted, and the battery loss of the terminal due to such connection procedures (e.g., the procedures of FIG. 2) .

In the RRC connection suspend procedure, the first base station can change the state of the UE from the RRC_Connected state to the RRC_idle state by transmitting an RRC connection suspension message to the UE. At this time, the first base station may transmit not only the resume ID included in the RRC connection suspension message but also a global eNB ID, which is a unique base station identifier. The global eNB ID of the base station does not overlap with the global eNB ID of the other base station.

If the AS context information stored for the corresponding base station is not present in the second base station due to the change of the base station in the state of the RRC id (RRC_Idle) of the UE, the second base station stores the first base station storing the AS context information Can be found using the global base station identifier information, and the AS context information can be acquired from the first base station and reused.

FIG. 3 illustrates a method for reusing an AS context using a unique base station identifier according to an embodiment of the present invention, and an RRC connection suspension procedure based thereon.

The terminal transmits uplink data to the base station, and the base station transmits downlink data to the terminal.

If the base station determines to stop the RRC connection (S60), the base station transmits an S1-AP UE context deactivation message to the MME (S61).

The MME sends an access bearer release request message to the SGW (S62).

The SGW transmits an access bearer release response message to the MME (S63).

The MME transmits an S1-AP UE Context Inactivity Response message to the base station (S64).

The MME enters an ECM (evolved packet system) connection management (EPS) idle state (S65).

The MME transmits an RRC connection stop message (resume ID, global eNB ID) to the terminal (S66).

In the RRC connection termination procedure (e.g., S66), the base station not only provides a resume ID but also provides a global eNB ID to the terminal. Here, the resume identifier (resume ID) is used to retrieve the AS context information stored in the base station. The AS context information is for RRC connection. The global eNB ID is a unique base station identifier used to search for a base station in which the AS context information is stored.

The base station transmits an RRC connection suspension message including a resume ID and a global eNB ID to the UE.

3, the global eNB ID, which is a unique base station identifier, may be a physical cell identifier (PCI), an evolved-universal terrestrial radio access network (E-UTRAN) global identifier), or an E-UTRAN cell identifier (ECI). In this case, the base station sends an RRC connection suspension message to the terminal including an identifier (e.g., at least one of PCI, ECGI, and ECI) corresponding to the base station together with a resume ID.

Meanwhile, the base station of FIG. 3 is the first base station described above.

FIG. 4 illustrates a procedure for resuming an attempt to use the UP solution when the AS context information does not exist in the base station according to the embodiment of the present invention.

In the RRC connection resumption procedure, the UE transmits an RA message (preamble) to the new base station eNB_New (S70), and the new base station eNB_New transmits an RA message (S71) to the UE.

In the RRC connection resumption procedure, the UE transmits an RRC connection resumption request message to the new base station eNB_New as an RA message (S72). Specifically, when a base station (access point) connected to a terminal in the RRC id state (RRC_Idle) is changed from the previous base station (eNB_Old) to a new base station (eNB_New), the terminal in the RRC id state (RRC_Idle) To the new base station eNB_New. Here, the RRC connection resumption request message includes a resume ID and a global eNB ID received from the BS in the previous (e.g., step S66). That is, the RRC connection resumption request message includes an identifier (e.g., global eNB ID, PCI, ECGI, ECI, etc.) for identifying the base station eNB_Old that has stopped the RRC connection. In addition, the RRC connection resumption request message may further include an authentication token (UE), a bearer indication, and an establishment cause.

The new base station eNB_New, the previous base station eNB_Old, and the MME perform an AS context information patch procedure (S73). Specifically, if the AS context information does not exist in the new base station eNB_New due to the change of the connection base station, the new base station eNB_New transmits the global base station identifier of the old base station eNB_Old received from the terminal in step S72 ID) to find (or identify, determine) the previous base station eNB_Old. The new base station eNB_New can retrieve and retrieve the AS context information for the terminal from the previous base station eNB_Old using the resume ID received from the terminal (AS context information matched (resolved) to the resume ID) . To this end, the new base station (eNB_New) can obtain the AS context information through the X2 interface using the X2-AP or the S1 interface using the S1-AP.

The new base station eNB_New transmits an RRC connection resumption completion message to the mobile station after it has received the AS context information (i.e., when the RRC connection is resumed by the new base station eNB_New) The context information is reused (S74). Since the connected base station is changed from the previous base station eNB_Old to the new base station eNB_New, the global eNB ID included in the RRC connection resumption complete message is the old global eNB ID of the previous base station eNB_Old, To the new global eNB ID of the new base station eNB_New. That is, the RRC connection resumption complete message includes an identifier (e.g., global eNB ID, PCI, ECGI, ECI, and the like) for identifying the base station eNB_New in which the RRC connection is resumed. The RRC connection resume completion message may further include a resume ID and an SRB.

The UE transmits uplink data to the new base station eNB_New, and the new base station eNB_New transmits downlink data to the UE.

4, a global eNB ID, which is a unique base station identifier, may be replaced by PCI, ECGI, ECI, or the like. In this case, the UE sends an RRC connection resumption request message including a resume ID together with an identifier (e.g., at least one of PCI, ECGI, and ECI) corresponding to the old base station eNB_Old to the new base station eNB_New, Lt; / RTI >

In FIG. 4, the new base station eNB_New is the second base station described above, and the previous base station eNB_Old is the first base station described above.

5 is a diagram illustrating a wireless device (or communication node) in accordance with an embodiment of the present invention.

The wireless device TN100 may be a base station or a terminal, etc., described herein, and may be a transmitter or a receiver.

In the embodiment of FIG. 5, the wireless device TN100 may include at least one processor (TN 110), a transceiver (TN 120) in communication with the network, and a memory (TN 130). Further, the radio device TN100 may further include a storage device TN140, an input interface device TN150, an output interface device TN160, and the like. The components included in the wireless device TN100 may be connected by a bus (TN170) and communicate with each other.

The processor TN110 may execute a program command stored in at least one of the memory TN130 and the storage device TN140. The processor TN110 may refer to a central processing unit (CPU), a graphics processing unit (GPU), or a dedicated processor on which methods according to embodiments of the present invention are performed. The processor TN110 may be configured to implement the procedures, functions, and methods described in connection with the embodiments of the invention. The processor TN110 may control each component of the wireless device TN100.

Each of the memory TN130 and the storage device TN140 may store various information related to the operation of the processor TN110. Each of the memory TN130 and the storage device TN140 may be constituted of at least one of a volatile storage medium and a nonvolatile storage medium. For example, the memory TN130 may be configured with at least one of a read only memory (ROM) and a random access memory (RAM).

The transceiver apparatus TN120 can transmit or receive a wired signal or a wireless signal. And the wireless device (TN100) may have a single antenna or multiple antennas.

On the other hand, the embodiments of the present invention are not only implemented by the apparatuses and / or methods described so far, but may also be realized through a program realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (16)

A method for resuming a radio resource control (RRC) connection in which a first base station suspends a second base station,
Receiving, from the terminal, an RRC connection resume request message including a first identifier for identifying the second base station and a resume identifier;
Identifying the second base station using the first identifier; And
Obtaining access-stratum context information (AS) matching the resumption identifier from the second base station using the resumption identifier;
The method comprising the steps of: The method according to claim 1,
Wherein the acquiring comprises:
Obtaining the AS context information from the second base station through at least one of an X2 interface using an X2-AP (application protocol) and an S1 interface using an S1-AP
A method of resuming an RRC connection of a first base station. The method according to claim 1,
Wherein the first identifier comprises:
A global cell identifier, a physical cell identifier (PCI), an evolved-universal terrestrial radio access network (E-UTRAN) cell global identifier, and an E-UTRAN cell identifier (ECI) Lt; RTI ID = 0.0 >
A method of resuming an RRC connection of a first base station. The method according to claim 1,
Transmitting an RRC connection resumption completion message including a second identifier for identifying the first base station to which the RRC connection is resumed to the MS
Further comprising the step of: The method according to claim 1,
Wherein the receiving comprises:
Receiving the RRC connection resumption request message from the terminal in the RRC idle state when the base station to which the terminal connected in the RRC idle state is changed from the second base station to the first base station
A method of resuming an RRC connection of a first base station. The method according to claim 1,
The second base station,
When the RRC connection is terminated, an RRC connection suspension message including the first identifier and the resume identifier is transmitted to the MS
A method of resuming an RRC connection of a first base station. A method for a terminal to resume a radio resource control (RRC) connection suspended by a first base station,
And a second base station that is different from the first base station by a first base station for searching for the first base station storing the AS context information and a resume identifier for searching for an access stratum (AS) context information of the RRC connection, Transmitting an RRC connection resume request message including an identifier; And
Receiving, from the second base station, an RRC connection resumption message including a second identifier for identifying the second base station if the RRC connection is resumed by the second base station
The method comprising the steps of: 8. The method of claim 7,
Wherein the transmitting comprises:
And transmitting the RRC connection resume request message to the second base station in the RRC idle state when the base station to which the terminal connected in the RRC idle state is changed from the first base station to the second base station
A method for resuming RRC connection of a terminal. 8. The method of claim 7,
Before the transmitting step,
Receiving, from the first base station, an RRC connection suspension message including the resume identifier and the first identifier and for suspending the RRC connection
The method comprising the steps of: 8. The method of claim 7,
Wherein the first identifier comprises:
A global cell identifier, a physical cell identifier (PCI), an evolved-universal terrestrial radio access network (E-UTRAN) cell global identifier, and an E-UTRAN cell identifier (ECI) Lt; RTI ID = 0.0 >
A method for resuming RRC connection of a terminal. A second base station for resuming a radio resource control (RRC) connection suspended by the first base station,
Memory; And
Determining a first base station, which is connected to the memory and stores an access stratum (AS) context information for the RRC connection using a first identifier included in an RRC connection resumption request message received from the terminal, Lt; / RTI >
The processor comprising:
Acquires the AS context information from the first base station using the resume identifier included in the RRC connection resumption request message
A second base station. 12. The method of claim 11,
Wherein the first identifier comprises:
A global cell identifier, a physical cell identifier (PCI), an evolved-universal terrestrial radio access network (E-UTRAN) cell global identifier, and an E-UTRAN cell identifier (ECI) Lt; RTI ID = 0.0 >
A second base station. 12. The method of claim 11,
The processor comprising:
Through the X2 interface using the X2-AP (application protocol), the AS context information is acquired from the first base station
A second base station. 12. The method of claim 11,
The processor comprising:
When the RRC connection is resumed, transmits to the MS an RRC connection resumption complete message including a second identifier for identifying the second base station and the resume identifier
A second base station. 12. The method of claim 11,
Wherein the resume identifier and the first identifier are < RTI ID = 0.0 >
And when the RRC connection is stopped, the first base station transmits to the terminal
A second base station. 12. The method of claim 11,
The processor comprising:
When the base station to which the terminal connected in the RRC idle state is changed from the first base station to the second base station receives the RRC connection resumption request message from the terminal in the RRC idle state
A second base station.

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