KR20130142508A - Method of distributing network load between operators and signal processing apparatus - Google Patents

Abstract

An embodiment of the present invention relates to a network load distribution method between the operators and a signal processing device for supporting the network load distribution method comprising: a step of collecting load information in each operator; a step of setting roaming information by considering a roaming policy set between the operators and in the load information; a step of receiving a connection request from a terminal; and a step of processing the connection request of the terminal based on the roaming information. [Reference numerals] (AA) NO;(BB) YES;(S300) Collecting network load information in each user;(S310) Setting roaming information;(S320) Is it a terminal for roaming?;(S330) Support allocation;(S340) Generating a message for converting the priority of a PLMN list;(S350) Message transmission

Description

METHOOD OF DISTRIBUTING NETWORK LOAD BETWEEN OPERATORS AND SIGNAL PROCESSING APPARATUS}

The present invention relates to a network load balancing method between operators and a signal processing apparatus supporting the same.

In order to reduce the construction cost of a mobile communication network, there is a growing interest in a mobile virtual network enabler (MVNE) system in which a plurality of operators share a wireless access network.

In the MVNE system, when the UE initially attempts to access the network, the UE may check the priority of the PLMN list and access the network of the operator having the highest priority. In general, the network of the operator to which the terminal is subscribed is set to have the highest priority.

Meanwhile, the network load for each operator may vary. When the terminal wants to access the network of the service provider to which it is subscribed, additional access of the terminal is restricted according to a predetermined access restriction method (eg, Access Class Barring / Extended Access Barring) when the load of the network is higher than a predetermined level.

In this case, there is a problem in that a terminal subscribed to an operator whose network load is above a certain level cannot receive a good quality service. In addition, a service provider whose network load is below a certain level has a problem of not using resources efficiently.

The technical problem to be solved by the present invention is to provide a network load balancing method between operators and a signal processing apparatus supporting the same.

Network load balancing method between operators of the signal processing device according to an aspect of the present invention collecting network load information for each operator, setting the roaming information in consideration of the network load information for each operator and a preset roaming policy between operators Receiving a connection request from the terminal, and processing the connection request of the terminal based on the roaming information.

The setting may include roaming from the network of the first provider to the network of the second provider when the network load of the first provider is greater than or equal to a threshold and a roaming policy is set in advance between the first and second providers. It may include the step of setting.

The processing of the connection request may include setting the terminal to access the network of the second operator when the terminal is a subscriber of the first operator.

The processing of the connection request may include generating a peer of roaming (SoR) message that changes a priority of a PLMN list so that the network of the second provider has a higher priority than the network of the first provider. And transmitting the SoR message to the terminal.

The processing of the connection request may include generating a peer of roaming (SoR) message that changes a priority of a PLMN list so that the network of the second provider has a higher priority than the network of the first provider. The method may include requesting an over-the-air (OTA) server to perform an operation, and transmitting an SoR message generated by the OTA server to the terminal.

In the processing of the connection request, when the terminal is a subscriber of the first operator, the number of terminals already roaming in the network of the second operator and the number of roaming allowable terminals preset by the second operator are compared. And setting the terminal to access the network of the second provider when the number of the roaming terminals does not exceed the number of roaming allowed terminals.

The signal processing apparatus according to an aspect of the present invention sets a roaming information in consideration of a load information collecting unit for collecting network load information for each service provider, network load information for each service provider, and a roaming policy set in advance between the service providers, and the roaming information. And a roaming determining unit configured to determine a roaming target terminal, and a message generation unit generating a message for changing a priority of a PLMN list for the roaming target terminal.

The roaming determining unit roams to roam from the network of the first provider to the network of the second provider when the network load of the first operator is greater than or equal to a threshold and a roaming policy is set between the first operator and the second operator in advance. You can set the information.

The roaming determination unit may determine the terminal as a roaming target terminal when the terminal that transmits the connection request is a subscriber of the first operator.

The roaming determining unit includes a roaming policy storage unit that stores roaming policies preset between operators, a roaming information setting unit that sets roaming information in consideration of the network load information and the roaming policy for each operator, and a roaming target in consideration of the roaming information. It may include a roaming determination unit for determining the terminal.

The roaming determination unit may further consider the number of roaming allowance terminals preset between operators.

The roaming determiner may further include a terminal information storage unit that stores information about a roaming target terminal.

According to another aspect of the present invention, there is provided a method of distributing network load between operators in a signal processing apparatus, the method comprising: collecting network load information for each operator, and setting roaming information in consideration of the network load information for each operator and a preset roaming policy among operators; Determining a roaming target terminal based on the roaming information, and generating a message for changing the priority of the PLMN list for the roaming target terminal.

The setting may include roaming from the network of the second provider to the network of the first provider when the network load of the first provider is less than or equal to a threshold and a roaming policy is set in advance between the first provider and the second provider. And setting the roaming information to

The roaming target terminal may be a terminal stored as roaming in a network of the second operator among terminals that are subscribers of the first operator.

According to an embodiment of the present invention, it is possible to distribute the network load between operators. Accordingly, even when the load of the network to which the terminal is subscribed is high, the terminal may be provided with a certain level of quality of service. In addition, the resource utilization rate of the operator can be increased.

1 is a network environment according to an embodiment of the present invention.
2 is a block diagram of a digital signal processing apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a method for distributing network load between operators by a digital signal processing apparatus according to an exemplary embodiment of the present invention.
4 is a block diagram of a roaming determiner that is part of a digital signal processing apparatus according to an embodiment of the present invention.
5 is a flowchart illustrating a network load balancing method of a digital signal processing system according to an embodiment of the present invention.
6 is a flowchart illustrating a network load balancing method of a digital signal processing apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement 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.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Also, the term "part" in the description means a unit for processing at least one function or operation, which may be implemented by hardware, software, or a combination of hardware and software.

In this specification, a terminal includes a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment , An access terminal (AT), an access terminal (AT), and the like, and may include all or some of functions of a terminal, a mobile station, a mobile terminal, a subscriber station, a mobile subscriber station, a user equipment, .

In this specification, a base station (BS) includes an access point (AP), a radio access station (RAS), a node B, an evolved Node B (eNodeB) (BS), a base transceiver station (BTS), a mobile multihop relay (MMR) -BS, and the like, or may be a function of all or a part of an access node, a base station, a radio access station, a node B, an eNodeB, a base transceiver station, .

Roaming in the present specification means that the terminal is connected to the network of the other mobile communication service provider other than the mobile communication service provider. When the terminal is out of the service area of the mobile service provider to which it is subscribed, not only the general concept of receiving service through the network of other mobile service providers, but also to the network of other mobile service providers within the service area of the mobile service provider to which it is subscribed. Include the concept of connecting.

In the present specification, a mobile communication operator may be mixed with an operator, an operator, or the like.

1 is a network environment according to an embodiment of the present invention. A mobile virtual network enabler (MVNE) system in which a plurality of operators share a network will be described as an example.

Referring to FIG. 1, the eNodeB 100 is a base station wirelessly connected to a mobile terminal (not shown). The eNodeB 100 assigns a frequency to a mobile terminal (not shown) and is responsible for all radio related functions including radio bearer control, admission control, mobility control, scheduling, security. And it is connected to each of the core system 200 of the operator A (operator A) and the core system 300 of the operator B. At this time, the operator's core system has two embodiments, but may be further included.

The eNodeB 100 includes a plurality of radio signal processing units (hereinafter referred to as "RU") 110 and a digital signal processing unit (hereinafter referred to as "DU") 130. do. The RU 110 is installed in a service area, that is, a cell, and the signal processing server 120 for processing signals of the RU 110 and the DU 130 for processing signals for the plurality of RUs 110 are centralized in the national history. Can be installed.

The RU 110 and the signal processing server 120 process radio signals. For example, the RU 110 and the signal processing server 120 convert the digital signal received from the DU 130 into a radio frequency (RF) signal according to a frequency band and amplify it.

The RU 110 may be installed for each operator to provide a service using a frequency of each operator (RU Co-location). A plurality of operators may install a single RU (110) to provide a service using a frequency for each operator (RU Multiband). In both cases, operators may have the same or similar coverage.

The signal processing server 120 may be installed in a national company together with the DU 130, and may be installed for each operator. The plurality of RUs 110 and the signal processing server 120 for each operator may be connected through an optical multiplexer (MUX).

DU 130 is responsible for digital signal processing. The DU 130 is connected to the signal processing server 120 for each provider and is connected to the core networks 200 and 300 for each provider. The DU 130 manages radio resources for each cell and radio resources for each operator.

The signal processing server 120 and the DU 130 may be implemented in the form of a blade server.

Meanwhile, the core system 200 and the core system 300 refer to core systems having different operators.

The core system 200 of the carrier A and the core system 300 of the carrier B have the same configuration. The core system 200 and the core system 300 are HSS (Home subscriber server) 210 and 310, MME (Mobility Management Entity) 220 and 320, S-GW (Serving), respectively. Gateway (230, 330), Packet Gateway (P-GW) (240, 340), Policy and Charging Rules Function (PCRF) (250, 350) and IP Multimedia Subsystem (IMS) (260, 360).

Here, the HSSs 210 and 310 perform subscriber information management in the All IP network.

The MMEs 220 and 320 are connected to the DU 130 through a wireless channel, and are connected to a mobile terminal (not shown) through the DU 130. The MME 220, 320 manages an idle mode mobile terminal (not shown), and selects the S-GW 230, 330 and the P-GW 240, 340. And performs functions related to roaming and authentication. And it processes a bearer signal (bearer signal) generated in the mobile terminal (not shown).

The S-GWs 230 and 330 serve as mobility anchors when a mobile terminal (not shown) moves between the eNodeBs 100 or between 3GPP wireless networks.

The P-GWs 240 and 340 allocate Internet Protocol (IP) addresses of mobile terminals (not shown), perform packet data related functions of the core network, and move mobility anchors when moving between 3GPP wireless networks and non-3GPP wireless networks. Play a role.

PCRF (250, 350) is a policy decision function for applying a variety of QoS and billing policies differentiated for each IMS service flow, 3GPP Rel. 7 There is a policy control function defined in the Policy & Charging Control (PCC) structure. The PCRF (250, 350) can accommodate both the policy decision function and the billing control-based flow function defined in 3GPP release 6, guarantees differentiated QoS for each service and apply differentiated billing rates when providing IMS. .

IMS (260, 360) is a system that provides a multimedia service based on IP.

Hereinafter, a method for distributing network load between operators in a network environment according to an embodiment of the present invention will be described in detail.

FIG. 2 is a block diagram of a digital signal processing apparatus according to an embodiment of the present invention, and FIG. 3 is a flowchart illustrating a method of distributing network load among operators by a digital signal processing apparatus according to an embodiment of the present invention.

2 and 3, the DU 130 includes a load information collecting unit 131, a roaming determining unit 133, a resource allocation unit 135, a message generator 137, and a transceiver 139. do.

The load information collecting unit 131 collects network load information for each operator (S300). For example, the load information collector 131 may collect network load information for each operator from the signal processing server 120 for each operator. The load information collecting unit 131 may collect network load information for each operator at predetermined intervals.

The roaming determiner 133 sets roaming information in consideration of network load information for each operator and a preset roaming policy between providers (S310), and determines whether the terminal that transmits the connection request is a roaming target terminal (S320).

The resource allocator 135 allocates a radio resource to the terminal that has transmitted the connection request (S330).

When the terminal transmitting the connection request is a roaming target terminal, the message generator 137 generates a message that can change the priority of the PLMN list for the corresponding terminal (S340). For example, the mobile station may generate a message so that the network of the operator to roam has the highest priority in the PLMN list.

The transceiver 139 transmits the message generated by the message generator 137 to the terminal (S350).

Hereinafter, a detailed description will be given of a digital signal processing apparatus according to an embodiment of the present invention for setting roaming information, determining whether a terminal is a roaming target terminal, and generating a message for changing a priority of a PLMN list.

4 is a block diagram of a roaming determiner that is part of a digital signal processing apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the roaming determining unit 133 includes a roaming policy storage unit 400, a roaming information setting unit 410, a roaming determination unit 420, and a terminal information storage unit 430.

The roaming policy storage unit 400 stores a roaming policy preset between operators. For example, the operator A and the operator B may preset the terminal of the operator A to roam into the operator B's network when the operator A's network load is greater than or equal to the threshold, and the operator B's network load is greater than or equal to the threshold. In this case, the terminal, which is a subscriber of the operator B, may be set to roam to the network of the operator A in advance. In addition, the operator A and the operator B may preset the number of terminals roaming from another operator's network.

The roaming information setting unit 410 sets roaming information in consideration of the network load information for each operator collected from the load information collecting unit 131 and the roaming policy stored in the roaming policy storage unit 400. The roaming information setting unit 410 may update the roaming information, for example, every cycle in which the load information collecting unit 131 collects network load information for each operator.

The roaming information setting unit 410 may compare the load rate and the threshold value of the network of a predetermined operator and set information on the roaming direction. As an example, when the load ratio of the operator A's network is greater than or equal to the threshold and the roaming policy is set in advance between the operator A and the operator B, the roaming information setting unit 410 instructs roaming from the operator A's network to the operator B's network. Information about the roaming direction can be set.

The roaming determination unit 420 determines whether the terminal roams based on the roaming information. The roaming determination unit 420 may determine to roam the terminal when roaming of the terminal is required. For example, the roaming determination unit 420 receives information about the roaming direction instructing the roaming information setting unit 410 to roam from the operator A's network to the operator B's network, and is a subscriber of the operator A. If this connection request is sent, it may decide to roam to the provider B's network.

At this time, the roaming determination unit 420 may further consider the number of roaming allowed terminals. For example, the terminal as the subscriber of the operator A roams to the operator B's network within the range that the number of terminals already roamed into the operator B's network does not exceed the preset number of roaming allowable terminals between the operator A and the operator B. You can decide.

The terminal information storage unit 430 stores information of the terminal determined to roam. For example, when it is determined that the terminal that is a subscriber of the operator A roams to the operator B's network, the terminal information storage unit 430 may store the information of the terminal.

On the other hand, when the roaming determination unit 420 determines that the terminal roaming, the message determination unit 137 generates a message that can change the "Operator Controlled PLMN Selector with Access Technology" list of the USIM. For example, if it is determined that the terminal of the subscriber of the operator A roams into the operator B's network, the priority of the operator B's network may be the highest in the PLMN list for the terminal.

Here, the message may be mixed with a Steer of Roaming (SoR) message. The message may be transmitted to the terminal according to a Short Message Service (SMS) or Over The Air (OTA) scheme.

5 is a flowchart illustrating a network load balancing method of a digital signal processing system according to an embodiment of the present invention.

Here, it is assumed that the operator A and the operator B are MVNE systems that share a network, and the terminal exists at a position where the service area of the service provider A and the service area of the service provider B overlap and are subscribers of the service provider A.

Referring to FIG. 5, the DU 130 collects network load information for each operator (S500). To this end, the DU 130 may collect network load information from the signal processing server (signal processing server A) of the operator A and the signal processing server (signal processing server B) of the operator B, respectively.

The DU 130 sets roaming information according to network load information for each operator and roaming policies between providers (S510). For example, if the network load ratio of the operator A exceeds the threshold, the network load ratio of the operator B is less than or equal to the threshold value, and the roaming policy according to the network load is set in advance between the operator A and the operator B, the DU 130 may perform the operator. It is possible to set the information on the roaming direction instructing to roam from the network of A to the network of the provider B.

On the other hand, when a terminal that is a subscriber of the operator A transmits a Radio Resource Control (RRC) Connect Request (RRC) message through the operator A's RU (RU A) and the signal processing server A (S520), the DU 130 It is determined whether the corresponding terminal is a roaming target terminal (S530). That is, since the terminal is a subscriber of the operator A, it may be determined to roam to the operator B's network. In this case, the DU 130 may further consider the number of roaming allowable terminals preset between the operator A and the operator B. For example, the DU 130 may determine that the corresponding terminal roams into the provider B's network only when the number of terminals already roamed into the provider B's network is smaller than the number of roaming allowed terminals. Accordingly, a large number of terminals can be prevented from roaming all at once to generate a load on the network of the provider B.

If it is determined that the terminal roams to the provider B network, the DU 130 generates a SoR (Steer of Roaming) message for changing the priority of the PLMN list of the terminal (S540) and transmits it to the terminal (S550). ). For example, the SoR message may be configured such that the network of the provider B has the highest priority in the PLMN list of the terminal.

The UE that receives the SoR message from the DU 130 performs a roaming procedure (S560). In addition, the terminal transmits a Radio Resource Control (RRC) Connect Request (RRC) message through the RU (RU B) and the signal processing server B of the operator B (S570), and the DU 130 transmits the network of the operator B. The radio resource is allocated to the terminal (S580).

On the other hand, if it is determined in step S530 that the terminal does not roam (e.g., if the network load rate of the operator A is less than the threshold value, if the network load rate of the operator A and the network load rate of the operator B exceeds the threshold, the operator A If the network load rate exceeds the threshold, but the number of terminals already roamed into the provider B's network is larger than the number of roaming allowed terminals), the DU 130 allocates a radio resource for the operator A's network to the terminal (S590). ).

Meanwhile, the net load for each operator may change over time. Therefore, the network load of the operator subscribed to the terminal is high, so after roaming to another operator's network, the network load may be lowered below the threshold again. Hereinafter, a method of distributing network load according to network load for each operator that changes over time will be described.

6 is a flowchart illustrating a network load balancing method of a digital signal processing apparatus according to another embodiment of the present invention.

Here, the operator A and the operator B is an MVNE system that shares the network, and the terminal exists at a location where the service area of the operator A and the service area of the operator B overlap, and are subscribers of the operator A, but according to the network load, Assume that you are roaming in the network.

Referring to FIG. 6, the DU 130 collects network load information for each operator (S600). To this end, the DU 130 may collect network load information from the signal processing server (signal processing server A) of the operator A and the signal processing server (signal processing server B) of the operator B, respectively. The DU 130 may collect network load information for each operator according to a preset cycle.

The DU 130 updates the roaming information according to the network load information for each operator and the roaming policy between the operators (S610). For example, when information on the roaming direction indicating roaming from the operator A's network to the operator B's network is already set, but the network load ratio of the operator A is less than or equal to the threshold value, the DU 130 has previously set. Information about the roaming direction can be released.

The DU 130 determines the roaming target terminal according to the updated roaming information (S620). For example, if the terminal is stored in the terminal information storage unit 430 roaming in the network of the carrier B, it may be determined that roaming back to the network of the carrier A when the information on the roaming direction is released.

The DU 130 generates an SoR message for changing the priority of the PLMN list for the roaming target terminal (S630), and transmits the SoR message to the terminal (S640). For example, the SoR message may be configured such that the network of the provider A has the highest priority in the PLMN list of the terminal.

The terminal receiving the SoR message from the DU 130 performs a roaming procedure (S650).

Accordingly, the terminal transmits a Radio Resource Control (RRC) Connect Request (RRC) message through the RU (RU A) and the signal processing server A of the operator A (S660), and the DU 130 transmits to the operator A's network. Allocates a radio resource for the terminal (S670).

As such, when the network load of the service provider A is greater than or equal to the threshold a, and the network load of the service provider B is less than or equal to the threshold value b, when the UE that is the subscriber of the service provider A makes a connection request, the DU may transmit an SoR message to the corresponding UE. . Accordingly, the terminal performs a roaming procedure with the operator B's network, and can communicate using the operator B's network.

On the other hand, when the network load of the operator A is lowered below the threshold value c, the DU may transmit an SoR message to the terminal stored as roamed to the operator B network. Accordingly, the terminal performs a roaming procedure with the operator A's network and can communicate again using the operator A's network.

Here, the values of a, b, and c may be set differently. In particular, a and c may be set in consideration of hysteresis.

In the present specification, the DU generates an SoR message and transmits it to the terminal as an example. However, the SoR message may be generated by the OTA server. For example, the DU may request generation of an SoR message for a roaming target terminal from an OTA server through a core network.

Accordingly, the network load can be distributed among operators in an environment in which several operators share a network, and the terminal can provide a service quality of a predetermined level or more.

The embodiments of the present invention described above are not implemented only by the apparatus and method, but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded.

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 (15)

In the network load balancing method between operators of the signal processing device,
Collecting network load information for each operator;
Setting roaming information in consideration of the network load information for each service provider and a roaming policy preset between the service providers;
Receiving a connection request from a terminal, and
Processing the connection request of the terminal based on the roaming information;
Network load balancing method between operators comprising a. The method of claim 1,
The setting step,
Setting roaming from the network of the first provider to the network of the second provider when the network load of the first provider is greater than or equal to a threshold and a roaming policy is set in advance between the first and second providers.
Network load balancing method between operators comprising a. 3. The method of claim 2,
Processing the connection request,
Setting the terminal to access the network of the second operator when the terminal is a subscriber of the first operator;
Network load balancing method between operators comprising a. 3. The method of claim 2,
Processing the connection request,
Generating a peer of roaming (SoR) message to change the priority of a Public Land Mobile Network (PLMN) list such that the network of the second operator has a higher priority than the network of the first operator, and
Transmitting the SoR message to the terminal
Network load balancing method between operators comprising a. 3. The method of claim 2,
Processing the connection request,
An over the air (OTA) server to generate a staff of roaming (SoR) message that changes the priority of a PLMN list so that the network of the second provider has a higher priority than the network of the first provider. Requesting to,
Transmitting a SoR message generated by the OTA server to the terminal
Network load balancing method between operators comprising a. 3. The method of claim 2,
In the step of processing the connection request,
If the terminal is a subscriber of the first operator, comparing the number of terminals already roaming in the network of the second operator with the number of roaming allowable terminals preset by the second operator; and
Setting the terminal to access the network of the second operator when the number of the roaming terminals does not exceed the number of roaming terminals.
Network load balancing method between operators comprising a. Load information collection unit for collecting network load information for each operator,
A roaming determination unit configured to set roaming information in consideration of the network load information for each operator and a preset roaming policy between operators, and determine a roaming target terminal based on the roaming information; and
Message generation unit for generating a message for changing the priority of the PLMN (Public Land Mobile Network) list for the roaming target terminal
And a signal processing unit. The method of claim 7, wherein
The roaming determination unit,
A signal for setting roaming information to roam from the network of the first provider to the network of the second provider when the network load of the first provider is greater than or equal to a threshold and a roaming policy is set in advance between the first and second providers Processing unit. 9. The method of claim 8,
The roaming determination unit,
And a terminal that determines that the terminal is a roaming target terminal when the terminal that transmits the connection request is a subscriber of the first operator. The method of claim 7, wherein
The roaming determination unit
Roaming policy storage unit for storing a preset roaming policy between operators,
A roaming information setting unit for setting roaming information in consideration of the network load information for each service provider and the roaming policy; and
And a roaming determination unit determining a roaming target terminal in consideration of the roaming information. The method of claim 10,
And the roaming determination unit further considers a preset number of roaming allowable terminals between operators. The method of claim 10,
The roaming determination unit
And a terminal information storage unit for storing information about the roaming target terminal. In the network load balancing method between operators of the signal processing device,
Collecting network load information for each operator;
Setting roaming information in consideration of the network load information for each service provider and a roaming policy preset between the service providers;
Determining a roaming target terminal based on the roaming information, and
Generating a message for changing a priority of a PLMN list for the roaming target terminal;
Network load balancing method between operators comprising a. The method of claim 13,
The setting step,
Roaming information is set to roam from the network of the second service provider to the network of the first service provider when the network load of the first service provider is less than or equal to a threshold and the roaming policy is set in advance between the first service provider and the second service provider. step
Network load balancing method between operators comprising a. 15. The method of claim 14,
And wherein the roaming target terminal is a terminal stored as roaming in the network of the second operator among the terminals which are subscribers of the first operator.

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