KR20060043526A - Method for identifying availability of idle mode terminal in broadcast wireless access suystem - Google Patents

Abstract

The present invention relates to a method for checking validity of an idle mode terminal by a base station in a broadband wireless access system. The base station transmits a paging message configured to transmit uplink information to an idle mode terminal, and the uplink information is transmitted within a predetermined time. Check whether it is received from the terminal and update the list of valid idle mode terminals. If the uplink information is received within a predefined time, the base station updates the validity of the terminal to the idle mode terminal list, and if not received, deletes the terminal from the valid idle mode terminal list.

Validation of terminal, paging message, terminal list update, broadband wireless access system

Description

Validation method of idle mode terminal in broadband wireless access system {METHOD FOR IDENTIFYING AVAILABILITY OF IDLE MODE TERMINAL IN BROADCAST WIRELESS ACCESS SUYSTEM}

1 is a view showing a method of checking the validity of the idle mode terminal on the basis of a paging period in a broadband wireless access system according to the present invention.

2 is a view showing a method of checking the validity of the idle mode terminal using a timer in a broadband wireless access system according to the present invention.

3 is a diagram illustrating an embodiment of a paging group.

4 is a diagram illustrating an embodiment of a broadband wireless access system having a paging controller.

5 is a flowchart illustrating a procedure for managing base stations belonging to a paging group in a broadband wireless access system equipped with a paging controller.

FIG. 6 is a flowchart illustrating a procedure for checking validity of an idle mode terminal using a paging period and a paging retry count in a broadband wireless access system equipped with a paging controller. FIG.

The present invention relates to a broadband wireless access system, and more particularly, to a method for checking validity of an idle mode terminal for minimizing power consumption of a terminal.

In general, a broadband wireless access system supports idle mode in order to minimize power consumption of a mobile terminal. During the idle mode, the mobile terminal does not need to perform a handoff procedure when moving between base stations included in the same paging zone. Accordingly, the mobile terminal does not need to transmit uplink information for the handoff procedure, thereby reducing power consumption.

In a broadband wireless access system, a paging area is defined as an entire area that is handled by a plurality of base stations called paging groups. Base stations included in the same paging area have the same paging period (Paging_Cycle) and paging offset (Paging_Offset).

The terminal may request the base station to switch to the idle mode, and the base station transfers its paging area ID (paging-group ID), the paging period and paging offset thereof to the terminal, thereby switching to the idle mode. During the idle mode, the terminal may determine whether to continuously maintain or terminate the idle mode through paging delivered from the base station in a broadcast form at every paging period.

If there is traffic to be transmitted by the terminal in the idle mode, the terminal may terminate the idle mode at any time. When traffic to be delivered to the terminal in the idle mode occurs, the base station causes the terminal to idle through paging. You can exit the mode. In addition, when the terminal in the idle mode does not receive the paging at a predetermined time due to moving to another paging area or losing synchronization, the terminal terminates the idle mode.

Therefore, the terminal entering the idle mode receives regular paging as long as there is no information to be received or transmitted, so that free movement in the same paging area can be guaranteed without performing a handoff procedure.

Afterwards, the procedure for switching the terminal to idle mode will be described in more detail.

First, the terminal transmits an idle mode request message to the serving base station in order to switch to the idle mode.

The service base station transmits a paging group ID, a paging period, and a paging offset value to the terminal through an idle mode response message, and then releases connection information with the terminal and radio resources allocated to the terminal. In addition, the serving base station informs the base stations of the paging group to which the terminal to switch to the idle mode, so that each base station can page the terminal in the same paging period.

Therefore, the terminal that is permitted to switch to the idle mode through the idle mode response message should perform ranging (Ranging) whether there is downlink traffic delivered to itself through the paging message of the broadcast type delivered from the base station according to the paging cycle. Determine whether or not to remain idle.

Table 1 shows an example of a paging message that an idle mode terminal receives from base stations in a paging group at regular intervals.

Syntax Size Notes MOB-PAG-ADV Message Format () {  Management Message type = ?? 8bits  Num-Paging Group IDs 8bits Number of paging group IDs in a message  For (i = 0; i <Num-Paging-Group-ID; i ++)  Paging Group ID 8bits   }  For (j = 0; j <Num-Macs; j ++) { The number of terminal MAC addresses in the message can be determined from the length of the message (found in the unique MAC header).   MSS MAC address hash 24bits Hash is obtained by calculating CRC24 at MSS 48-bit MAC address. The polynomial theorem for calculation is 0x864CFB.   Action code 2 bits Instruction for paging operation to MSS 00 = Action Required 01 = Ranging to establish location and response message 10 = Enter Network 11 = Reserved   Reserved 6bits   }  }

If the downlink traffic is received through the paging message, the terminal terminates the idle mode and re-registers with the network to receive the downlink data traffic. When the terminal is requested to perform ranging through the paging message, the terminal performs ranging so that the base station updates the terminal list of the terminal and the valid idle mode. In addition, if the paging message is received so as not to perform any action, the terminal keeps the idle mode without any action.

Subsequently, when uplink or downlink traffic occurs or the paging group moves to another base station and the terminal exits the idle mode, the base station notifies the base stations belonging to the same paging group to the fact that the terminal is selected from the idle mode terminal list. Allow to delete.

In general, the terminal in the idle mode is characterized by no uplink traffic. Therefore, in order to determine whether the idle mode terminal is still valid, the base station must transmit a paging message to the terminal so that the terminal can perform ranging. That is, the base station can confirm the validity of the terminal only after receiving the uplink information through the ranging request from the terminal.

However, when the idle mode terminal is turned off or the idle mode terminal is in a poor channel environment, the base station sets a paging message (for example, "0x01" (perform ranging) or "0X02" (as an operation code). There is a possibility that the terminal may not receive the paging message even if it transmits the Enter network, in which case, the base station that has delivered the paging message may not receive the ranging request message from the terminal.

In this way, if the terminal cannot operate normally, the base station determines that the idle mode terminal is no longer valid and releases all the administrators (such as MAC address for paging) for the terminal, and to the base stations of the same paging group It is necessary to delete the corresponding terminal from the idle mode terminal list.

However, the validity check for the terminal in the normal operation state is performed by using a predefined timer (the base station allocates an uplink resource for periodically transmitting the ranging request message to the normal operation terminals having no uplink data). Updating is possible by performing the gong, but since the management connection to the terminal is all released in the idle mode, it is impossible to update the idle mode terminal list through the timer. Therefore, although a criterion for checking the validity of the idle mode terminal is required, specific criteria for checking the validity of the idle mode terminal are not defined.

Accordingly, an object of the present invention is to provide a method for checking the validity of a terminal in an idle mode. Another object of the present invention is to provide a method for updating a list of valid idle mode terminals at a base station using a paging message delivered to idle mode terminals.

The present invention is implemented in a broadband wireless access system. However, the present invention can also be applied to a wireless communication system operating according to other standards. Hereinafter, preferred embodiments of the present invention will be described in detail.

In the present invention, the procedure for the UE to switch to the idle mode is the same as the conventional technology described above. In the present invention, the base station can check the validity of the idle mode terminal using two parameters defined as follows.

* Paging Retries

* Waiting time for receiving uplink information (or waiting time for ranging request message)

In the present invention, both of the above parameters may be used, or the validity of the idle mode terminal can be determined using only the upstream information reception wait time. Preferably, the uplink information reception waiting time is set equal to a paging period or determined by a timer.

In general, if the terminal in the idle mode loses synchronization of a paging message periodically transmitted from the base station, and receives the terminal, the terminal reenters the network or performs a procedure for location update. Therefore, even though the base station generally causes the idle mode terminal to transmit the uplink information or reenters the network through the paging message, if the base station does not receive the uplink information from the terminal, the base station may determine that the terminal is invalid. Can be.

Upon receiving the paging message configured to deliver the ranging request to the base station, the mobile station in idle mode transmits the ranging request to the base station through a contention-based uplink ranging channel in the same manner as the initial ranging request. If the base station does not receive the ranging request message from the terminal after the waiting time for receiving the ranging request message after delivering the paging message requesting the ranging of the terminal, it is determined that the ranging has failed.

1 is a view showing a method of confirming the validity of the idle mode terminal on the basis of the paging period in the broadband wireless access system according to the present invention.

As shown in FIG. 1, the procedure of the terminal switching to the idle mode is the same as in the related art. That is, the terminal MSS transmits a request for registration (DREG-REQ) message to the serving base station (BS) to switch to the idle mode. The service base station (BS) transmits a paging group ID (PG-ID), a paging cycle (PG-CYC) and a paging offset value (PG-OFFSET) to the MSS through a registration command (DREG-CMD) Releases connection information with the terminal and radio resources allocated to the terminal.

Subsequently, the service base station BS informs the base stations of the paging group to which the MAC address of the terminal MSS which switches to the idle mode belongs, so that each base station transmits a paging broadcast message (MOB_PAG) to the corresponding terminal with the same paging period and paging offset. -ADV).

 Accordingly, the MSS, which is permitted to switch to the idle mode through the deregistration command DREG-CMD, transmits downlink traffic transmitted to itself through a paging message of a broadcast type transmitted from the base station BS according to a paging period. It is determined whether there is, whether to perform ranging or to keep the idle mode.

The present invention uses the paging cycle and the number of paging retries in FIG. 1 to confirm the validity of the idle mode terminal.

During the paging period, the base station transmits a paging message (MOB-PAG-ADV) (action code = paging or network entry) to the terminal to request ranging, when the ranging request message is received from the terminal. Wait until If the paging period is expired and the base station does not receive the uplink information from the terminal until the time to deliver the next paging message is considered a ranging failure. At this time, when checking the validity of the idle mode terminal only through the upstream information waiting time, the base station determines that the idle mode terminal is invalid, and deletes the terminal from the idle mode terminal list.

The number of paging retries indicates the number of times a base station retries paging after transmitting a paging message (MOB-PAG-ADV) and not receiving a ranging request from the terminal. The base station delivers a paging message (MOB-PAG-ADV) (action code = paging or network entry) to the idle mode terminal by a predefined number of paging retries. If the ranging request is not received from the idle mode terminal even after delivering the paging message as many times as the paging retries, the base station determines that the terminal is invalid and deletes the terminal from the idle mode terminal list. Therefore, the present invention confirms the validity of the idle mode terminal through the two parameters (paging cycle and paging retry count).

If the ranging request is received from the idle mode terminal, the base station updates the validity of the terminal through the idle mode terminal list and updates the idle mode list by notifying the base stations belonging to the same paging group through a backbone message. do.

On the other hand, if the ranging request is not received from the corresponding idle mode terminal within a predetermined time through the setting of the paging period and the paging retry, the base station deletes the terminal from the list of valid idle mode terminal, all managers associated with the terminal Release circles and information. At the same time, the base station uses the backbone message to inform the base stations belonging to the same paging group to delete the corresponding terminal from the idle mode terminal list.

2 is a view showing a method of checking the validity of the idle mode terminal using a timer in a broadband wireless access system according to the present invention. The present invention uses the timer and the number of paging retries to check the validity of the idle mode terminal in FIG.

While the timer is running, the base station transmits a paging message (MOB-PAG-ADV) (action code = paging or network entry) to the terminal to request ranging, and then a ranging request message is received from the terminal. Wait until If the timer expires and the base station does not receive the uplink information from the terminal until the time to deliver the next paging message is considered as a ranging failure. At this time, when checking the validity of the idle mode terminal only through the upstream information waiting time, the base station determines that the idle mode terminal is invalid, and deletes the terminal from the idle mode terminal list.

The base station delivers a paging message (MOB-PAG-ADV) (action code = paging or network entry) to the idle mode terminal by a predefined number of paging retries. If the ranging request is not received from the idle mode terminal even after delivering the paging message as many times as the paging retries, the base station determines that the terminal is invalid and deletes the terminal from the idle mode terminal list.

The present invention checks the validity of the idle mode terminal through the two parameters (timer and paging retries), and the validity of the terminal according to each parameter setting is determined as follows.

If the operation period of the timer is greater than the paging period, the base station determines the validity of the idle mode terminal through the number of paging retries. In addition, the present invention may not use a timer when updating the validity of the terminal through the number of paging retries. That is, if the UE does not receive the uplink information from the terminal until the next paging period after delivering the paging message (MOB-PAG-ADV), the base station may determine the ranging failure and may perform paging retry.

In addition, when the timer expires after delivering a paging message for requesting initial ranging when the paging retry count is set to 0, the base station determines that the terminal is invalid.

When the terminal requests a ranging through a contention-based ranging channel (when performing the same procedure as the initial ranging), the terminal waits up to 200 ms after waiting for the ranging response message after transmitting the ranging request message to the base station. After receiving the ranging response message from the base station, the UE waits for delivering the next ranging request message at a maximum of 2 seconds, and when the terminal does not receive the ranging response message and retransmits the next ranging request message. Also applies. And, the number of ranging request retry of the terminal is at least 16 times. Accordingly, when the two waiting times and the ranging request retry are combined, as shown in FIG. 2, the ranging request waiting time of the base station by the timer is determined, and the time is at least 33 seconds.

In addition, when the base station pre-allocates an uplink channel for ranging to the terminal through a paging message (MOB-PAG-ADV), it is unreasonable for all base stations belonging to the paging group to allocate the uplink ranging channel to the terminal for a long time. Therefore, it is necessary to check the validity of the terminal through the timer. In this case, the timer can be set in units of frames. If there is no ranging request from the terminal within the set frame, the base station releases the uplink channel allocated to the terminal and deletes the terminal from the idle mode list.

When the ranging request is received from the idle mode terminal, the base station updates the validity of the terminal through the idle mode terminal list and updates the idle mode list by notifying the base stations belonging to the same paging group through a backbone message. do.

On the other hand, if the ranging request is not received from the idle mode terminal within a predetermined time through the setting of the timer and paging retry, the base station deletes the terminal from the list of valid idle mode terminal, all the administrators associated with the terminal Release circles and information. At the same time, the base station uses the backbone message to inform the base stations belonging to the same paging group to delete the corresponding terminal from the idle mode terminal list.

3 is a diagram illustrating an embodiment of a paging group. As shown in FIG. 3, at least one base station may form a paging group. Base stations belonging to the same paging group transmit and receive information necessary to provide an idle mode through a backbone message. Meanwhile, information required for providing an idle mode may be transmitted and received between base stations belonging to different paging groups through a backbone message.

4 is a diagram illustrating an embodiment of a broadband wireless access system having a paging controller. Referring to FIG. 4, the paging controller transmits and receives information necessary for idle mode support with base stations belonging to at least one paging group, thereby performing idle mode control for a terminal in each base station region through the base station. That is, transmission and reception of information necessary for providing an idle mode may be performed between the base stations through the paging controller. The paging controller may be provided in a specific base station or may be provided separately from the base station.

5 is a flowchart illustrating a procedure for managing base stations belonging to a paging group in a broadband wireless access system equipped with a paging controller. As shown in FIG. 5, the paging controller may control base stations belonging to each paging group using a backbone message. For example, using an action code of a paging-group-action request backbone message, assign a paging group to the base station (Action Code = 0000), or remove it from a particular paging group (Action Code = 0001). ), It may request paging information of the corresponding base station (Action Code = 0010) or may inform paging information of another base station (Action Code = 0011) (S51). Table 2 shows an example of a paging group operation request message.

Field Size Notes Message Type = 8 bits Sender ID 48 bits Identifier of Paging Controller or BS sending this message Receiver ID 48 bits Identifier of Base Station receiving this message Time stamp 32 bits Action code 4 bits 0000: Assign Target BS to paging groups 0001: Remove Target BS from paging groups 0010: Query (Paging Information of Receiver BS) 0011: Information (Paging Information of Queried BS) 0100 1111: reserved If (Action Code == 0000 or 0001) {  Num records 4 bits Number of Paging Group IDs associated with Receiver  For (i = 0; i <Num Records; i ++) {   Paging Information 32 bits 0-7: Paging Group ID, 8-23: Paging Cycle, 24-31: Paging Offset   }  }    Else If (Action Code == 0010) {    reserved 4 bits Shall be set to zero   }    Else If (Action Code == 0011) {    Num BSs 4 bits Number of BSs Queried.    For (j = 0; j <Num BSs; j ++) {    Queried BS ID 48 bits Identifier of Base Station of which Paging Information is included.    Num records 4 bits Number of Paging Group IDs associated with Queried BS    For (k = 0; k <Num Records; k ++) {    Paging Information 32 bits 0-7: Paging Group ID, 8-23: Paging Cycle, 24-31: Paging Offset    }   }  } Security field TBD A means to authenticate this message.

The base station may transmit information necessary for providing an idle mode by using an operation code of a paging-group-action response message transmitted to the paging controller by the base station (S52). For example, a paging controller may send a response to a paging group action request message sent to add or remove a paging group (Action Code = 0000), provide its own paging information (Action Code = 0001), Paging information of another base station may be requested (Action Code = 0010). Table 3 shows an example of a paging group operation response message.

Field Size Notes Message Type = 8 bits Sender ID 48 bits Identifier of Base Station sending this message. Receiver ID 48 bits Identifier of Paging Controller receiving this message Time stamp 32 bits Action code 4 bits 0000: Confirm the assignment to or removal from paging groups 0001: Information (Paging Information of Sender BS) 0010: Query (Paging Information of another BS) 0100 1111: reserved If (Action Code == 0000) {  reserved 4 bits Shall be set to zero  } Else If (Action Code == 0001) {  Num records 4 bits Number of Paging Group IDs associated with Sender BS.  For (i = 0; i <Num Records; i ++) {   Paging Information 32 bits 0-7: Paging Group ID, 8-23: Paging Cycle, 24-31: Paging Offset   }  } Else If (Action Code == 0010) {  Num BSs 4 bits Number of BSs of which Paging Information Sender BS wants to know   For (j = 0; j <Num BSs; j ++) {   Queried BS ID 48 bits Identifier of Base Station of which Paging Information is included.   }  } Security field TBD A means to authenticate this message.

FIG. 6 is a flowchart illustrating a procedure for checking validity of an idle mode terminal using a paging period and a paging retry count in a broadband wireless access system equipped with a paging controller.

As shown in FIG. 6, when a mobile subscriber station (MSS) wants to switch to an idle mode, the mobile subscriber station (MSS) transmits an idle mode switch request (DREG-REQ) message to a base station (first base station) to which it belongs to idle. Request mode switching (S61). The DREG-REQ message includes information for requesting deregistration from a base station to which it belongs (De-registration Request Code) and TLV-encoded information (for example, paging cycle request TLV, idle mode maintenance information TLV, and MAC hash hash limit value). TLV).

Upon receiving the idle mode switch request message, the base station transmits an idle mode information request message (Idle-Info-REQ) for notifying information of the mobile station requesting to switch to idle mode (S62). Table 4 shows an example of an idle mode information request message.

Field Size Notes Idle-Info-REQ message format () {  Global Message Header 12 bits  For (i = 0; i <Num Records; i ++) {   MSS MAC Address 48 bits   Action code 4 bits 0000: Idle Mode Initiation Request 0001: DL Traffic has arrived to MSS 0010: MSS session information 0011: MSS re-entry complete 0100: MSS has transitioned to another paging group 0101: Location Update Request 0110-1111: reserved   reserved 4 bits   TLV encoded information variable   Num_SFID_Records 8 bits   For (i = 1; i <Num_SFID_Records; i ++) {    SFID 32 bits    Num_QoS_Records 8 bits    For (i = 1; i <Num_QoS_Records; i ++)     TLV encoded information variable 11.13 Service flow management encodings.    }   }  }  Security field TBD A means to authenticate this message  }

Name Type Length Value Paging Information 4 0-7: Paging Group ID 8-23: Paging Cycle 24-31: Paging Offset Paging Controller ID 6 Logical network identifier for the serving BS or other network entity retatining MSS Service and operational information and / or administering paging activity for the MSS while in Idle Mode. Idle Mode Retain Information variable The first 8 bits of this item indicates Idle Mode Retain Information included in DREG-CMD message, and the rests are MSS service and operational information associated with Idle Mode Retain Information. This item may be included in Idle-Info-REQ message with Action Code = 0000. MAC Hash Skip Threshold One Maximum number that BS is allowed to skip MSS MAC address hash of an MSS in successive MOB_PAG-ADV messages when an Action Code for the MSS is 00, 'No Action Required'. The unit is the number of MOB_PAG-ADV message transmissions. HO Optimization flag One This item may be included Idle-Info-REQ message with Action Code = 0011.

As shown in Table 4, the idle mode information request message includes information indicating that a specific terminal requests to switch to idle mode, MAC address of the terminal, service flow information of the terminal, and TLV encoded information (for example, idle mode maintenance information TLV). , MAC Hash Omit Limit Value TLV).

The paging controller receiving the idle mode information request message transmits an idle mode information response (Idle-Info-RSP) message to the base station which has transmitted the idle mode information request message (S63).

Table 5 shows an example of an idle mode information response (Idle-Info-RSP) message.

Field Size Notes Idle-Info-RSP message format ()  Global Message Header 152 bits  For (i = 0; i <Num Records; i ++)  MSS MAC Address 48 bits  Action code 4 bits 0000: MSS enters Idle Mode 0001: MSS exits Idle Mode 0010: MSS session information 0011: Deliver DL Traffic to Current Attachment BS 0100: Location Update Success 0101: Location Update Failure 0110-1111: reserved  reserved 4 bits  TLV encoded information variable  For (i = 1; i <Num_SFID_Records; i ++)   SFID 32 bits   Num_QoS_Records 8 bits   For (i = 1; i <Num_QoS_Records; i ++)    TLV encoded information variable 11.13 Service flow management encodings    }   }  }  Security field TBD A means to authenticate this message  }

Name Type Length Value Paging Information 4 0-7: Paging Group ID 8-23: Paging Cycle 24-31: Paging Offset Paging Controller ID 6 Local network identifier for serving BS or other network entity retaining MSS Service and operational information and / or administering paging activity for the MSS while in Idle Mode. Idle Mode Retain Information One The first 8 bits of this item indicates Idle Mode Retain Information included in DREG-CMD message, and the rest bits are MSS service and operational information associated with Idle Mode Retain Information. This item may be included in Paging-announce message with Action Code is 0011. Current Attachment BS ID 6 BS ID to which MSS in Idle Mode attempts to re-enter network. This item may be included in Idle-Info-RSP message if Action Code is 0011. Last Attachment BS ID 6 BS ID in which MSS enters Idle Mode. Last Attachment BS can be updated after successful Location Update. This item may be included in Idle-Info-RSP message if Action Code is 0010. MAC Hash Skip Threshod One Maximum number that BS is allowed to skip MSS MAC address hash of an MSS in successive MOB_PAG-ADV message when an Action Code for the MSS is 00, 'No Action Required'. The unit is the number of MOB_PAG-ADV message transmissions. HO Optimization flag One This item may be included in Idle-Info-RSP message with Action Code = 0011, MSS re-entry complete

As shown in Table 5, the idle mode information response (Idle-Info-RSP) message indicates that the terminal has switched to the idle mode, the MAC address of the terminal, service flow information of the terminal, and TLV encoded information (for example, , Paging information TLV, paging controller ID TLV, idle mode maintenance information TLV, MAC hash skip limit value TLV).

The base station receiving the idle mode information response (Idle-Info-RSP) message transmits an idle mode indication message (DREG-CMD) to the terminal requesting the idle mode switch (S64). The idle mode indication message may include information indicative of idle mode switching and TLV encoded information (for example, paging information TLV, paging controller ID TLV, idle mode maintenance information TLV, and MAC hash skip limit value TLV). Can be.

The paging controller transmits a paging-announce message to all base stations in the paging group to which the base station (the first base station) which allows the terminal to switch to the idle mode is checked to see if the idle mode terminal is valid. The paging controller instructs each base station to transmit a paging advertisement (MOB-PAG-ADV) message through the paging notification message (S65).

Table 6 shows an example of a paging notification message.

Field Size Notes Paging-announce message format ()  Global Message Header 152 bits  For (i = 0; i <Num Records; i ++) {   MSS MAC Address 48 bits   Action code 4 bits 0000: MSS shall be paged to re-enter network 0001: MSS shall be paged to perform ranging 0010-1111: reserved   reserved 4 bits  } Security field TBD A means to authenticate this message }

Each base station receiving the paging notification message transmits a paging advertisement message including information instructing the terminal to perform ranging to a terminal in each base station area in a broadcast form (S66).

If the paging controller does not receive an idle mode information request message including information indicating that it has received a ranging message from the terminal until the next paging interval, the paging controller decreases the paging retry count by 1 and enters the idle mode of the terminal. A paging-announce message is transmitted again to all base stations in the paging group to which the base station (first base station) to which the switching is allowed is performed (S67). Each base station receiving the paging notification message transmits a paging advertisement message including information instructing the terminal to perform ranging to the terminals in each base station area (S68).

The terminal receiving the paging advertisement message transmits a ranging request message (RNG-REQ) to the base station (second base station) to which the current terminal belongs (S69). The second base station notifies the paging controller through the idle mode information request message that the terminal has transmitted a ranging request message for location update (S70). The paging controller resets the paging retry coefficient for the terminal to an initial value. When the terminal performs the location update procedure (S71), the second base station transmits the ranging response message (RNG-RSP) to the terminal (S72).

On the other hand, when the idle mode information request message including the information that the terminal has sent a ranging request message for location update until the paging retry count is 0, the paging controller is no longer idle for the terminal. It is considered invalid in mode.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention allows the base station to check the validity of the idle mode terminals, thereby preventing the terminal from turning off the power or deteriorating the channel condition to receive a periodic paging message.

In addition, the present invention has an effect of preventing the base station of the same paging group from transmitting the paging message to the invalid terminal by transmitting the validity update information of the idle mode terminal to the base stations of the same paging group through the backbone message.

In addition, when the uplink ranging channel is reserved / assigned for the idle mode terminal, when the uplink ranging information is not received from the terminal within a predetermined time, the base station allocates the uplink channel and the management resource associated with the terminal. By releasing, there is an effect of preventing waste of resources and efficiently updating the idle mode terminal list.

On the other hand, there is an effect that it is possible to more efficiently check the validity of the idle mode terminal using the paging controller.

Claims (22)

In a broadband wireless access system The idle mode terminal checks the validity of the idle mode terminal, characterized in that the base station updates the list of valid idle mode terminal using a paging message configured to deliver the uplink information to the base station. The method of claim 1, wherein the base station And checking whether the specific uplink information is received from the terminal through which the paging message is delivered within the time determined by the paging period or the timer, and confirming the validity of the idle mode terminal. The method of claim 2, wherein the base station If the upstream information is received within a predefined time, the validity method for the idle mode terminal, characterized in that for updating the validity for the terminal in the idle mode terminal list. The method of claim 2, wherein the base station If the uplink information is not received within a predefined time, the corresponding terminal is deleted from the idle mode list, the manager member associated with the terminal is released, and the base station of the same paging group is informed to the base stations of the same paging group through the backbone message. Validation method of the terminal, characterized in that for updating the. The method of claim 2, wherein the base station And retransmitting the paging message during a next paging cycle if uplink information is not received within a predefined time period. The method of claim 1, wherein the base station If a specific uplink information is not received from the corresponding idle mode terminal until the next paging cycle after the paging message is delivered, the paging message having the same content is transmitted to the terminal for each paging cycle by a predetermined number of paging retries. Validation method of the idle mode terminal. The method of claim 6, wherein the base station If the upstream information is received from the idle mode terminal before the end of the paging retries, validity of the terminal, characterized in that for updating the idle mode terminal list. The method of claim 6, wherein the base station If the upstream information is not received from the idle mode terminal until the number of paging retries ends, the corresponding terminal is deleted from the idle mode terminal list and the administrator member associated with the terminal is released, and the base station of the same paging group as the one through the backbone message is deleted. The method of verifying validity of a terminal, characterized by updating the idle mode list. In a broadband wireless access system The base station transmits a paging message configured for the idle mode terminal to transmit the uplink information to the idle mode terminal, and checks the validity of the idle mode terminal by checking whether the uplink information is received from the terminal within a predetermined time. How to validate The method of claim 9, wherein the base station If the upstream information is received within a predetermined time by a timer or a paging period, the validity method of the idle mode terminal, characterized in that for updating the validity for the terminal in the idle mode terminal list. The method of claim 9, wherein the base station If the uplink information is not received within a predetermined time by a timer or a paging period, the method for checking the validity of the idle mode terminal, characterized in that for retransmitting the paging message in the next paging period. The method of claim 9, wherein the base station If the upstream information is not received from the idle mode terminal until the next paging cycle after the paging message is delivered, the idle mode characterized in that for transmitting the paging message of the same content to the terminal for each paging cycle for a predefined number of paging retries How to check the validity of the terminal. Transmitting, by the base station, a paging message configured to transmit idle information to the idle mode terminal by the idle mode terminal; Checking the validity of the idle mode terminal by checking whether uplink information is received from the corresponding terminal within a predetermined time; And updating the validity of the idle terminal in the idle mode terminal list according to the checking result. The method of claim 13, wherein the predetermined time A method for verifying validity of a terminal in a broadband wireless access system, which is an uplink reception wait time and is determined by a timer or a paging period. The method of claim 13, wherein the base station If the upstream information is received within a predetermined time, the validity of the terminal is updated in the idle mode terminal list, characterized in that the terminal validity check method in a broadband wireless access system. The method of claim 13, wherein the base station If the uplink information is not received within a predetermined time, the corresponding terminal is deleted from the idle mode terminal list and the administrator member associated with the terminal is released, and the base station of the same paging group is informed to the base stations of the same paging group through the backbone message. A terminal validity verification method in a broadband wireless access system, characterized in that for updating. The method of claim 13, wherein the base station If the uplink information is not received within a predetermined time period, the terminal validity check method in the broadband wireless access system, characterized in that for retransmitting the paging message. The method of claim 13, wherein the base station If the upstream information is not received from the idle mode terminal until the next paging period after the paging message is delivered, the broadband wireless transmission of the paging message of the same content every paging period by a predefined number of paging retries Method of validating terminal in access system. 19. The method of claim 18, wherein the base station If upstream information is received from the idle mode terminal before the end of the paging retries, the terminal validity verification method in the broadband wireless access system, characterized in that for updating the validity for the terminal in the idle mode terminal list. 19. The method of claim 18, wherein the base station If the upstream information is not received from the idle mode terminal until the number of paging retries is completed, the corresponding terminal is deleted from the idle mode terminal list and the manager is associated with the terminal and the base station of the same paging group as the user is released through the backbone message. The terminal validation method of the broadband wireless access system, characterized in that for updating the idle mode list. Receiving a message requesting ranging from a paging controller to a terminal in a base station area; Transmitting a message instructing the ranging to be performed to idle mode terminals in the area; Receiving a ranging request message from a terminal; And Transmitting a message indicating that a ranging request message has been received from the terminal to the paging controller; Validation method of the idle mode terminal comprising a. The method of claim 22, Performing a location update procedure of the terminal; And Transmitting a ranging response message to the terminal; Validation method of the idle mode terminal further comprises.

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