JP2011055019A - Radio communication system, and method for reporting call process information in the radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication system for allowing a base station to recognize a failure in establishment of a signaling tunnel when the establishment of the signaling tunnel fails between a session information management node and a mobile station, and for allowing the base station or the mobile station to retry the establishment of the signaling tunnel. <P>SOLUTION: The radio communication system includes a plurality of mobile stations, a plurality of base stations, and a plurality of session information management devices. Each mobile station performs radio transmission and reception of packets with each base station. Each base station is connected to the plurality of session information management devices, and a message is tunneled through each base station to be transmitted and received between each session information management device and each mobile station. In a part of a tunneling packet header contained in a message transmitted from a session information management device to a mobile station, information for reporting specific information to a base station is stored. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a radio communication system and a call processing information notification method in the radio communication system.

  With broadbandization of Internet access in the wired world, broadbandization is also rapidly progressing in the mobile communications world. In 3GPP2 (3rd Generation Partnership Project 2), a standardization project that creates specifications for next-generation wireless communication systems, standardization of the next-generation high-speed communication standard, Ultra Mobile Broadband (UMB) system, is being promoted. Standard UMB-IOS (A.S0020) and Ultra Mobile Broadband Air-Interface Spec (C.S0084-v2.0) have been issued.

In the UMB system, there is a configuration called a session information management node that manages call processing information and terminates call processing signaling. Signaling communication between the session information management node and the base station is designed based on the idea of reducing the load on the backhaul line. For this reason, the base station has a wireless packet transmission / reception function with respect to the mobile station, but tunnels packets transmitted and received between the mobile station and the session information management node. (Non-Patent Document 1)
In such a system configuration, it is only necessary to establish a signaling tunnel between the session information management node and the mobile station at the time of call connection, but the session information management node may accept the tunnel establishment for some reason although it has received the tunnel establishment request. If this is not possible, the tunnel establishment rejection message is transmitted to the mobile station as a radio packet by tunneling the base station. The mobile station cannot perform any further operations and the signaling tunnel remains unestablished.

  Although it is not an invention in a wireless communication system, a technology that allows a tunneling device that tunnels a predetermined communication protocol to have a function of dynamically acquiring an address in an external network, and establishes and tunnels a session using the acquired address is patented It is disclosed in Document 1.

Ultra Mobile Broadband Air-Interface Spec C.S0084-v2.0 (C.S0084-003-Section5 Radio Link Layer Basic Route Protocol, C.S0084-004-Section3 Application Layer Inter-Route Tunneling Protocol, C.S0084-008 Route Control Plane) Japanese Unexamined Patent Publication No. 2007-104440

  In the UMB system, establishment of a signaling tunnel between a session information management node and a mobile station is performed via a base station. The base station transmits and receives radio packets, but only has a role of bidirectional tunneling from the mobile station to the session information management node and from the session information management node to the mobile station. Therefore, even when the signaling tunnel establishment between the session information management node and the mobile station fails, the base station cannot recognize it. In addition, there is no means for notifying the base station of the failure of the establishment of the signaling tunnel from the session information management node or the mobile station, and the establishment of the signaling tunnel between the session information management node and the mobile station cannot be retried.

  Therefore, there has been a need for means for retrying the establishment of the signaling tunnel led by the base station or mobile station when the establishment of the signaling tunnel has failed.

  In the present invention, a plurality of mobile stations, a plurality of base stations that wirelessly transmit and receive packets by the plurality of mobile stations, and a plurality of session information management devices, each of the base stations is a plurality of session information management devices Session information management apparatus in a wireless communication system in which a tunnel is established between a mobile station and the session information management apparatus, and messages between the mobile station and the session information management apparatus are transmitted and received by tunneling the base station Information for notifying the base station of specific information is stored in a part of the tunneling packet header included in the message transmitted from the mobile station to the mobile station.

Then, as the specific information, an error code indicating that the tunnel establishment between the mobile station and the session information management device has failed is stored, and the base station tunnels the tunneling packet from the session information management device to the mobile station. When an error code indicating that tunnel establishment has failed is detected with reference to the packet header, an identifier of another session information management device is selected, and a tunnel creation request message having the identifier of the session information management device is selected. Transmitted to mobile station.
Further, the tunnel creation request message transmitted from the base station to the mobile station is transmitted including the identifiers of a plurality of session information management devices to which the base station is connected, and the mobile station is based on the tunnel creation request message, When a tunnel establishment request is transmitted to the first session information management apparatus and a tunnel establishment rejection message is received from the first session information management apparatus, the tunnel is sent to another session information management apparatus included in the tunnel creation request message. Added the establishment request message.

  When the signaling tunnel establishment between the session information management node and the mobile station fails, the base station can recognize the failure of the signaling tunnel establishment, and can retry the signaling tunnel establishment led by the base station or the mobile station.

  Hereinafter, embodiments of the present invention will be described with reference to a plurality of examples.

First, the system configuration of the UMB system and session information management in the UMB system will be described with reference to FIG. 1 to FIG. 4, FIG. 10, and FIG.

First, the system configuration of the UMB system will be described with reference to FIG.
In FIG. 1, 101 is a session information management node (Session Reference Network Controller: SRNC), which manages call processing information and terminates call processing signaling. In this embodiment, a plurality of SRNCs are connected to one access gateway. A plurality of base stations (evolved base stations: hereinafter referred to as eBS) are connected to the SRNC in an overlapping manner. The access gateway, SRNC, and eBS constitute a radio access network 104 (Radio Access Network: RAN). The eBS has a wireless packet transmission / reception function with the mobile station (Access Terminal: AT) 103, and tunnels packets transmitted and received between the AT and the SRNC.

Next, communication between the mobile station and the session information management node will be described.
FIG. 10 is a conceptual diagram of communication performed between the mobile station and the session information management node. Since SRNC 101 does not have a wireless transmission / reception function, direct wireless communication with AT 103 cannot be performed. Therefore, communication is performed via the eBS102. At this time, using the tunneling protocol, it operates as if the AT 103 and the SRNC 101 are directly communicating, and the eBS 102 does not know the content of the communication performed between the AT 103 and the SRNC 103.

  When creating a packet that the AT 103 transmits to the SRNC 101, first, a payload to which a header indicating that the signal passes through the tunnel between the AT 103 and the SRNC 101 is added. The created payload is stored in the payload portion of the packet to be transmitted to the eBS 102 and wirelessly transmitted to the eBS 102. The eBS 102 that has received the packet recognizes the header portion from the payload and transmits it to the SRNC 103.

Next, a protocol stack for transmitting and receiving packets between the mobile station and the session information management node, and when transmitting data from the mobile station to the session information management node, the mobile station, base station, and session information management node The structure of the packet produced | generated in each is shown.
FIG. 11 is a diagram illustrating a protocol stack for transmitting and receiving a packet between a mobile station and a session information management node, and a structure of a packet generated by each of the mobile station, the base station, and the session information management node.
The upper half of the figure shows a protocol stack for transmitting and receiving packets between AT 103 and SRNC 101. The lower half shows packet structures that are actually generated by AT 103, eBS 102, and SRNC 101 when data is transmitted from AT 103 to SRNC 101, respectively.

  A wireless header (1101) is a header of a wireless communication part. The tunnel header (1102) is a header including information for identifying a tunnel number, and the communication type 1 (1103) and the communication type 2 (1104) are headers including a communication type. An actual payload (1105) indicates an actual payload portion transmitted from the AT 103 to the SRNC 101. The route display (1106) is a header indicating that the eBS 102 is a tunnel route and there is a destination (in this case, SRNC 101) to be transmitted.

  AT103 adds a header of communication type 1 (1103) and communication type 2 (1104) to the actual payload (1105) transmitted to SRNC101, and indicates a tunnel header (1102) indicating that the tunnel is between AT103 and SRNC101 Is added. The part created so far is assumed to be 1107.

  Here, since the AT 103 does not have a direct wireless / wired communication path with the SRNC 101, this is transmitted via the eBS 102. Therefore, a via display (1106) is added. 1107 is set as a payload addressed to the eBS 102, and headers (1108, 1109, 1110) for transmission to the eBS 102 which is a via point are added in the same manner as when 1107 is created. Further, the AT 103 and the eBS 102 add a wireless header (1101) for wireless communication, and a packet 1111 to be transmitted from the AT 103 to the eBS 102 is completed. The eBS 102 that has received the packet 1111 sequentially processes the wireless header (1101) indicating the information addressed to the eBS 102, the tunnel header (1110), the communication type 2 (1109), and the communication type 1 (1108), and displays via (1106 ) Is reached. The eBS 102 confirming the route display (1106) recognizes that the destination of the payload portion is the SRNC 101. The eBS 102 adds a wired communication header (1112) to 1107, and a packet 1113 to be transmitted from the eBS 102 to the SRNC 101 is completed. The SRNC 101 that has received 1113 processes the wired communication header (1112) and confirms the tunnel header (1102). Since the tunnel header (1102) indicates that the tunnel is between AT103 and SRNC101, the subsequent partial communication type 2 (1104) and communication type 1 (1103) are processed in sequence, and the real payload (1105) is processed. To reach.

Next, the tunneling protocol will be described.
FIG. 2 shows a header structure of a packet when an error occurs in a tunneling protocol for a base station to tunnel a packet transmitted and received between a mobile station and a session information management node.

  There is a field (201) indicating the header format type at the head of the header. In this field, a value indicating a header format indicating the occurrence of an error when an error occurs is set. There is also a field (202) indicating an error code. Various error codes are set in this field. In addition, there is a field (203) indicating the identifier of the tunnel, and a CRC error display field (204) for clearly indicating the occurrence of a CRC error.

Next, the operation at the time of call connection will be described. First, a case where the signaling tunnel establishment between the session information management node and the mobile station is successful will be described.
FIG. 3 is a diagram for explaining a signaling tunnel establishment success sequence between the session information management node and the mobile station in the UMB system.
The eBS 104 that has already established a wireless communication path with the AT 103 transmits a tunnel creation request including the identifier of the SRNC 101 to the AT 103 (301). The AT issues a tunnel establishment request to the SRNC based on the received identifier (302). This tunnel establishment request is received as a wireless packet by the eBS 102 and transmitted to the SRNC 101. The SRNC 101 that has received the tunnel establishment request transmits a tunnel establishment success message to the AT (303). This tunnel establishment success message is transmitted to the AT as a wireless packet via the eBS 102. The SRNC 101 in which the AT and the signaling tunnel are established assigns a mobile station identifier to the AT and transmits it to the AT using the created tunnel (304). The received AT notifies the SRNC that the identifier has been received (305). The SRNC having completed the identifier assignment notifies the eBS that the establishment of the signaling tunnel with the AT is completed (306).

On the other hand, a case where the signaling tunnel establishment between the session information management node and the mobile station fails will be described with reference to FIG.
FIG. 4 is a diagram showing a signaling tunnel establishment failure sequence between the session information management node and the mobile station in the UMB system.
As in the case of success, the AT 103 issues a tunnel establishment request to the SRNC 101 (302). The SRNC 101 that has received the tunnel establishment request cannot accept the tunnel establishment for some reason, and transmits a tunnel establishment rejection message to the AT (402). This tunnel establishment rejection message is transmitted to the AT as a wireless packet via eBS. Since the AT for which the SRNC and the signaling tunnel cannot be established does not have a specific operation, the signaling tunnel is not established.

Therefore, in this embodiment, when the signaling tunnel is established between the SRNC and the AT, the AT and the RAN that have received the tunnel creation request message operate as described below.
Consider a case where a signaling tunnel is established with another SRNC after a signaling tunnel with a certain SRNC has failed for a RAN having a plurality of SRNCs. The tunnel creation request message is created in a format compliant with the standard C.S0084-008-v2.0.

First. The base station will be described.
FIG. 5 is a diagram illustrating a control structure necessary for realizing the function performed by the base station in the present embodiment.
eBS, eBS call control unit (501) for managing call control performed by eBS, radio communication control unit (502) for managing radio communication with AT, RAN communication control unit (503) for managing communication within RAN, A tunneling processing unit (504) that processes tunneling packets based on the tunneling protocol is provided. It also has an SRNC table (505) that holds the identifiers of SRNCs present in the RAN. The eBS call control unit (501), the radio communication control unit (502), the RAN communication control unit (503), and the tunneling processing unit (504) each have an interface for reporting information to each other. The SRNC identifier that is an entry in the SRNC table is registered in advance as RAN information. The SRNC table is referenced from the eBS call control unit.

Next, the error code of the tunneling packet header of this embodiment will be described.
FIG. 8 is a diagram for explaining the error code of the tunneling packet header based on the standard and the additional error code in the present embodiment.
In the UMB system, the SRNC 101 that does not have the wireless transmission / reception function cannot directly communicate with the AT 103, and therefore, the communication with the AT 103 via the eBS 102 is described above. In addition, as described above, the SRNC 101 operates as if the AT 103 and the SRNC 101 are directly communicating with each other using the tunneling protocol. In such a system configuration, the eBS 102 does not consider the need to know the contents of communication performed between the AT 103 and the SRNC 103. Therefore, the error code of the tunneling packet header based on the standard C.S0084-004-v2.0-Section3 includes only the code for notifying the error from SRNC to AT and the code for notifying the error from eBS to AT. Did not exist.

  In the present invention, the eBS that normally tunnels the transmission and reception of data between the AT and the SRNC can recognize when the signaling tunnel establishment fails, and reattempts the establishment of the signaling tunnel led by eBS. First, an error code (802) is introduced in order to be able to do this. This error code has the meaning of notifying information from SRNC to eBS, and is a conceptual error code that does not exist in the standard.

Next, a sequence for recognizing eBS and re-establishing signaling tunnel establishment by eBS when a signaling tunnel establishment fails will be described.
FIG. 9 is a diagram for explaining a sequence for retrying establishment of a signaling tunnel in the present embodiment.

With respect to AT 701 and eBS 702 for which wireless communication has been established, eBS 702 is in a state in which intra-RAN communication is possible with SRNC 703 and SRNC 704, and SRNC 703 and SRNC 704 identifiers are registered in entries in the SRNC table held by eBS 702. At this time, the eBS call control unit of the eBS 702 creates a tunnel creation request message including the identifier of the SRNC 703, and transmits it to the AT 701 via the wireless communication control unit (710) (901).
Upon receipt of the message, the AT 701 transmits a signaling tunnel establishment request message to the SRNC 701 based on the identifier included in the tunnel creation request message (902). This message is received by the wireless communication control unit (710) of the eBS 702, and is transmitted to the SRNC 703 by the RAN communication control unit (713) as a result of confirmation of the tunneling packet header by the tunneling processing unit (712).

  The SRNC703 that has received the tunnel establishment request message internally determines that the tunnel cannot be established as a result of various determinations, and sends a tunnel establishment rejection message to the AT701 to add some information of the message to be sent to the information element of the tunneling protocol header. Transmit (903). This message is received by the eBS RAN communication control unit (713), and is transmitted to the AT 701 by the wireless communication control unit (710) as a result of the tunneling packet header confirmation by the tunneling processing unit. At this time, the tunneling processing unit (712) of the eBS 702 confirms the information element 202 of the tunneling protocol header of the tunnel establishment rejection message (903), and if the value is an error code “0101” indicating a signaling tunnel establishment failure, The eBS call control unit (711) is notified that the signaling tunnel establishment between the AT 701 and the SRNC 703 has failed. Upon receiving the notification, the eBS call control unit (711) selects the SRNC 704, which is an identifier other than the SRNC 703, from the SRNC table entry, creates a tunnel creation request message including the SRNC 704 identifier, and causes the wireless communication control unit (710) to Then, it transmits to AT701 (905).

  The AT 701 receiving the message transmits a signaling tunnel establishment request message to the SRNC 704 based on the identifier included in the tunnel creation request message (906). This message is transmitted to the SRNC 704 through the same processing as described above. The SRNC 704 that has received the tunnel establishment request message internally transmits a tunnel establishment response message to the AT 701 as a result of various determinations (907). This message is transmitted to the AT 701 through the same processing as described above. The AT 701 that has received the tunnel establishment response completes the establishment of the signaling tunnel with the SRNC 704.

  According to the embodiment described above, when the signaling tunnel establishment between the session information management node and the mobile station fails, the base station can recognize the failure of the signaling tunnel establishment and retry the signaling tunnel establishment led by the base station. it can.

Next, another embodiment will be described.
In this embodiment, an AT-led retry is attempted for establishment of a signaling tunnel between the SRNC and the AT. The tunnel creation request message format for that purpose and the operation of the AT and RAN receiving the message will be described below.

Consider a case where a signaling tunnel is established with another SRNC after a signaling tunnel with a certain SRNC has failed for a RAN having a plurality of SRNCs.
Also in this embodiment, eBS has the same control structure as that described in the first embodiment.
This embodiment is characterized by a tunnel creation request message.

FIG. 6 shows the configuration (partially extracted) of the tunnel creation request message format in this embodiment.
The tunnel creation request message has, as information elements included in the message, the number of tunnel creation destination node identifier entries (601) and the number of tunnel creation destination node identifiers (602) based on the number of entries.

Next, an operation sequence of this embodiment using this tunnel creation request message will be described.
FIG. 7 is a diagram for explaining the operation sequence of each component in the present embodiment.
In FIG. 7, wireless communication between the AT 701 and the eBS 702 is established, and the eBS 702 is in a state in which communication within the RAN with the SRNC 703 and the SRNC 704 is possible. The SRNC 703 and SRNC 704 identifiers are registered in the SRNC table entries held by the eBS 702. At this time, the eBS call control unit of eBS 702 creates a tunnel creation request message including both the identifiers of SRNC 703 and SRNC 704, and transmits it to the AT 701 via the radio control unit (705). Although an example including two SRNC identifiers has been described here, the number of SRNC identifiers may be two or more. Further, when notifying a plurality of SRNC identifiers, they may be notified with priorities.

  The AT 701 that has received the message selects SRNC 703 from the identifier included in the tunnel creation request message, and transmits a signaling tunnel establishment request message to SRNC 703 (706). This message is transmitted to SRNC 703 through the same processing as described above.

  The SRNC 703 that has received the tunnel establishment request message internally determines that tunnel establishment is impossible as a result of various determinations, and transmits a tunnel establishment rejection message to the AT 701 (707). This message is transmitted to the AT 701 through the same processing as described above.

  In this embodiment, the AT 701 receives a tunnel creation request message including both the SRNC 703 and SRNC 704 identifiers from the eBS 702. Accordingly, the AT 701 that has received the tunneling establishment rejection message selects the SRNC 704 identifier from the identifiers included in the previous tunnel creation request message (705), and transmits the signaling tunnel establishment request message (708) to the SRNC 704. This message is transmitted to the SRNC 704 through the same processing as described above.

  The SRNC 704 that has received the tunnel establishment request message internally transmits a tunnel establishment response message to the AT 701 as a result of various determinations (709). This message is transmitted to the AT 701 through the same processing as described above. The AT 701 that has received the tunnel establishment response completes the establishment of the signaling tunnel with the SRNC 704.

  According to the embodiment described above, when the signaling tunnel establishment between the session information management node and the mobile station fails, the signaling tunnel establishment can be retried on the initiative of the mobile station.

It is a figure explaining a system configuration. It is a figure explaining the header structure of the packet of a tunneling protocol at the time of error occurrence. It is a figure explaining the sequence at the time of the signaling tunnel establishment success between the session information management node and mobile station in a UMB system. It is a figure which shows the sequence at the time of the signaling tunnel establishment failure between the session information management node and mobile station in a UMB system. It is a figure which shows the control structure required in order to implement | achieve the function which a base station performs in one Example of this invention. The structure (partially extracted) of the tunnel creation request message format in one embodiment of the present invention is shown. It is a figure explaining the operation | movement sequence of each structure in one Example of this invention. It is a figure explaining the error code of the tunneling packet header in one Example of this invention. It is a figure explaining the sequence of retrying establishment of the signaling tunnel in one Example of this invention. It is a figure explaining the concept of communication performed between a mobile station and a session information management node. It is a figure which shows the structure of the protocol stack | stuck for transmitting / receiving a packet and the packet produced | generated in each structure.

Explanation of symbols

101 SRNC (Session Information Management Node)
102 eBS (base station)
103 AT (mobile station)
104 RAN (Radio Access Network)
501 eBS call control unit 502 wireless communication control unit 503 RAN communication control unit 504 tunneling processing unit 505 SRNC table

Claims (10)

A plurality of mobile stations, a plurality of base stations that wirelessly transmit and receive packets by the plurality of mobile stations, and a plurality of session information management devices, each of the base stations is connected to a plurality of session information management devices, In a wireless communication system in which a tunnel is established between the mobile station and the session information management device, and a message between the mobile station and the session information management device is transmitted and received by tunneling the base station,
A wireless communication system, wherein information for notifying specific information to the base station is stored in a part of a tunneling packet header included in a message transmitted from the session information management device to the mobile station.   The base station confirms a header of a tunneling packet transmitted from the session information management device to the mobile station, and when information for notifying the base station of the specific information is stored in the header, 2. A message having information held by the base station is created based on the notification, and a message notifying the specific information including information held by the base station is transmitted from the base station to the mobile station. The wireless communication system according to 1. The specific information is an error code indicating that tunnel establishment between the mobile station and the session information management device has failed,
Further, the base station includes a table storing identifiers of a plurality of session information management devices to which the base station is connected,
The base station refers to the tunneling packet header of the tunneling packet from the session information management device to the mobile station, and when detecting an error code indicating that tunnel establishment has failed, refers to the table and An identifier of a second session information management device different from the session information management device is selected, and a tunnel creation request message having the identifier of the second session information management device is transmitted to the mobile station. The wireless communication system according to 2. A plurality of mobile stations, a plurality of base stations that wirelessly transmit and receive packets by the plurality of mobile stations, and a plurality of session information management devices, each of the base stations is connected to a plurality of session information management devices, In a wireless communication system in which a tunnel is established between the mobile station and the session information management device, and a message between the mobile station and the session information management device is transmitted and received by tunneling the base station,
A wireless communication system comprising: a tunnel creation request message transmitted from the base station to the mobile station, including identifiers of a plurality of session information management devices to which the base station is connected. The mobile station transmits a tunnel establishment request to the first session information management device based on the tunnel creation request message,
When receiving a tunnel establishment rejection message from the first session information management device, a second session information management device tunnel establishment request message corresponding to the identifier included in the tunnel creation request message is transmitted. Item 5. The wireless communication system according to Item 4. A plurality of mobile stations, a plurality of base stations that wirelessly transmit and receive packets by the plurality of mobile stations, and a plurality of session information management devices, each of the base stations is connected to a plurality of session information management devices, Notification of call processing information in a wireless communication system in which a tunnel is established between the mobile station and the session information management apparatus, and a message between the mobile station and the session information management apparatus is transmitted and received by tunneling the base station A method,
Call processing in a wireless communication system, wherein information for notifying specific information to the base station is stored in a part of a tunneling packet header included in a message transmitted from the session information management device to the mobile station Information notification method.   The base station confirms a header of a tunneling packet transmitted from the session information management device to the mobile station, and when information for notifying the base station of the specific information is stored in the header, 7. A message including information included in the base station is created based on the notification, and a message notifying the specific information including information included in the base station is transmitted from the base station to the mobile station. The call processing information notification method according to claim 1. The specific information is an error code indicating that tunnel establishment between the mobile station and the session information management device has failed,
Further, the base station has identifiers of a plurality of session information management devices to which the base station is connected,
When the base station detects an error code indicating that tunnel establishment has failed with reference to a tunneling packet header of a tunneling packet from the session information management apparatus to the mobile station, the session information management apparatus The call processing according to claim 7, wherein an identifier of another second session information management device is selected, and a tunnel creation request message having the identifier of the second session information management device is transmitted to the mobile station. Information notification method. A plurality of mobile stations, a plurality of base stations that wirelessly transmit and receive packets by the plurality of mobile stations, and a plurality of session information management devices, each of the base stations is connected to a plurality of session information management devices, Notification of call processing information in a wireless communication system in which a tunnel is established between the mobile station and the session information management apparatus, and a message between the mobile station and the session information management apparatus is transmitted and received by tunneling the base station In the method
Call processing information notification in a wireless communication system, wherein a tunnel creation request message transmitted from the base station to the mobile station is transmitted including identifiers of a plurality of session information management devices to which the base station is connected. Method. The mobile station transmits a tunnel establishment request to the first session information management device based on the tunnel creation request message,
When a tunnel establishment rejection message is received from the first session information management apparatus, a tunnel establishment request message is transmitted to the second session information management apparatus corresponding to another identifier included in the tunnel creation request message The call processing information notification method according to claim 9.

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