KR101608092B1 - Method and Apparatus for paging that consider carrier aggregation environment in mobile communication system - Google Patents

Abstract

In this paper, we propose a paging method and a device considering frequency group environment in a mobile communication system. A paging method of a terminal according to an embodiment of the present invention selects a unit frequency set for each unit frequency communication unit, selects a unit frequency set for the terminal, receives a paging message including a unit frequency set from the base station, And if the received unit frequency set is different from the unit frequency set of the terminal, if the received unit frequency set is different from the unit frequency set of the terminal, The set is changed to the received unit frequency set, and the connection is established with the base station through the changed unit frequency set.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paging method considering a frequency group environment in a mobile communication system,

The present invention relates to a paging procedure, and more particularly, to a paging method and apparatus in a carrier aggregation environment of a mobile communication system.

The present invention has been derived from research conducted as part of the IT growth engine technology development project of the Ministry of Knowledge Economy and the Korea IT Industry Promotion Agency. [Assignment number: 2006-S-003-04, .

In a conventional mobile communication system, for example, a 3GPP LTE system, a high-speed mobile communication service can be supported using a maximum bandwidth of 20 MHz. However, as the type of service and the transmission request speed are diversified, a faster mobile communication system is required. To this end, the IMT-Advanced system supports a wider bandwidth (up to 100 MHz) than the conventional 3GPP LTE Release-8. Generally, a frequency in a mobile communication uses a contiguous spectrum, but a non-contiguous spectrum is required in consideration of a complexity problem of a UE (User Element). In addition, reuse of frequencies used in existing mobile communication systems is also required. The bandwidth expansion of 20 MHz or more required in this way is performed through a Carrier Aggregation (CA). A wider frequency band can be secured through the integration of the component carriers (CCs), and each CC can appear as an LTE frequency to the LTE UE, thus maintaining compatibility with the previous system.

In the conventional mobile communication service, since the method for the discontinuous band is not considered, it is difficult to provide an efficient communication method using the newly required unit frequency of the non-continuous band. In the case of paging for the incoming call connection to the terminal, there may occur a case where the CC waiting for the terminal and the CC for the terminal determined by the base station are different from each other, so that smooth scheduling of the base station becomes difficult, Additional procedures such as overloading may be performed. If the base station can not control the CC of the terminal, the load balancing for efficient use of resources between the CCs may not occur properly, which may cause congestion of the specific CC, and additional procedures after the call establishment may cause inefficient call processing And may cause deterioration of user service quality due to an increase in procedures.

An embodiment of the present invention provides a paging method and apparatus for considering a frequency group environment in a mobile communication system.

An embodiment of the present invention provides a paging procedure in a mobile communication system using unit frequencies of a discontinuous band.

A method of paging a terminal in a frequency aggregation environment according to an embodiment of the present invention includes selecting a unit frequency set by selecting a unit frequency for each unit frequency communication unit, the method comprising the steps of: receiving a paging message from a base station; checking a received unit frequency set included in the paging message; comparing the received unit frequency set and the unit frequency set of the terminal; And if the received unit frequency set is equal to the unit frequency set of the terminal or includes all the unit frequencies in the received unit frequency set, a connection with the base station is established through the unit frequency set of the terminal .

A paging method of a base station in a frequency aggregation environment according to an embodiment of the present invention includes: receiving a paging request; setting a unit frequency set of a corresponding terminal for the paging request; Generating a paging message, transmitting the paging message to the corresponding terminal through all the unit frequencies of the base station, and performing a random access to the corresponding terminal through a main unit frequency included in the unit frequency set .

The terminal for paging in a frequency aggregation environment according to an embodiment of the present invention includes at least two or more unit frequency communication units communicating with a base station using different unit frequencies, A control unit for selecting a unit frequency set of the paging message and controlling the cell to be camped on through a unit frequency selected by the unit frequency communication unit, and a control unit for receiving a paging message from the base station, And comparing the received unit frequency set and the unit frequency set of the terminal. If the received unit frequency set is equal to the unit frequency set of the terminal or all the unit frequencies are included in the received unit frequency set , The terminal Through a unit of frequency set and a paging processing unit to establish a connection with the access point.

The base station for paging in a frequency aggregation environment according to an embodiment of the present invention includes a network communication unit for receiving a paging request, at least two or more unit frequency communication units for communicating using different unit frequencies, A call processing unit for setting a unit frequency set of a terminal and a paging message including information of the unit frequency set and transmitting the paging message to the corresponding terminal through all the unit frequency communication units, And a paging processor for performing a random access with the corresponding terminal through a main unit frequency.

The present invention relates to a paging method and apparatus in a mobile communication system using unit frequencies of a non-continuous band, and it is possible to control the unit frequency selection of a terminal by adjusting a load when paging by a base station of a mobile communication system Congestion of the unit frequency can be reduced, and the utilization efficiency of resources can be increased.

1 is a diagram illustrating a configuration of a mobile communication system for paging in consideration of a frequency group environment according to an embodiment of the present invention;
FIG. 2 is a flowchart illustrating a process of paging in a terminal according to an embodiment of the present invention;
FIG. 3 is a flowchart illustrating a process of paging by a base station according to an embodiment of the present invention;
4 is a flowchart illustrating a process of setting a unit frequency set in a base station according to an embodiment of the present invention.
5 is a flowchart illustrating a process of generating a paging message in a base station according to an embodiment of the present invention.
6 is a diagram illustrating a paging procedure in a case where a unit frequency set selected by a terminal and a base station are different from each other according to an embodiment of the present invention;
7 is a diagram illustrating a paging procedure when the unit frequency sets selected by the terminal and the base station according to the embodiment of the present invention are equal to each other,
8 is a diagram illustrating a paging procedure when sub-unit frequencies are the same among a unit frequency set selected by a terminal and a base station according to an embodiment of the present invention,
9 is a diagram illustrating a paging procedure in the case where the unit frequency sets selected by the terminal and the base station match according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which refer to a paging method and apparatus in a mobile communication system using unit frequencies of a discontinuous band

1 is a diagram illustrating a configuration of a mobile communication system for paging in consideration of a frequency group environment according to an embodiment of the present invention.

Referring to FIG. 1, a mobile communication system for paging in consideration of a frequency aggregation environment includes a terminal 110 and a base station 120.

The terminal 110 includes a control unit 111, a paging processing unit 112, a first unit frequency communication unit (CCE) 113 and an n-th unit frequency communication unit 114.

At this time, the first unit frequency communication unit 113 and the nth unit frequency communication unit 114 communicate with the base station 120 using different unit frequencies (CC).

The control unit 111 controls the overall operation of the terminal 110 and selects a CC for each of the CCEs 113 and 114 to select a unit carrier set And camped on the cell through the CC selected for each of the CCEs 113 and 114.

Upon receiving the paging message from the base station 120, the paging processor 112 checks the received CC set included in the paging message, and compares the received CC set with the CC set of the terminal 110. [ If the received CC set is the same as the CC set of the terminal 110 or all the CCs are included in the received CC set, the paging processor 112 sets a connection through the CC set of the terminal 110 .

If the received CC set is different from the CC set of the terminal 110, the paging processor 112 changes the CC set of the terminal 110 to the received CC set, Establish a connection.

Next, the base station 120 includes a control unit 121, a call processing unit 122, a paging processing unit 123, a first unit frequency communication unit 124, a second unit frequency communication unit 125, 126, an m-th unit frequency communication unit 127, and a network communication unit 128.

The network communication unit 128 receives the paging request via the external network.

The unit frequency communication units 124, 125, 126, and 127 communicate with the terminal through m CCs used by the base station 120.

The call processing unit 122 sets the CC set of the corresponding terminal 110 for the paging request.

The paging processor 123 generates a paging message including the CC set information and transmits a paging message to the corresponding terminal 110 through all of the unit frequency communication units 124, 125, 126, and 127, And performs random access to the terminal 100 through the primary CC.

The base station 120 includes CC information by the maximum number of CCs that the terminal 110 can access according to a result of call admission control (CAC) / load balancing (LB). When all the CCs can access the terminal 110, a paging message is configured including CC information by the number of CCEs of the base station 120.

The base station 120 may generate a paging message by allocating a dedicated preamble for each terminal 110, but may not include the dedicated preamble information in the paging message depending on the situation. At this time, the terminal 110 receiving the paging message must perform the random access procedure using the random preamble.

The control unit 121 controls the overall operation of the base station 120 and transmits a MIB (Master Information Base) and a SIB (System Information Block) through the unit frequency communication units 124, 125, 126 and 127 at predetermined time intervals .

Hereinafter, a paging method considering the frequency group environment in the mobile communication system according to the present invention will be described with reference to the drawings.

2 is a flowchart illustrating a process of paging in a terminal according to an embodiment of the present invention.

Referring to FIG. 2, in step 210, the terminal 110 searches for a CC accessible for each CCE.

In step 212, the terminal 110 receives the SIB from the base station 120, selects a CC for each CCE, and selects a CC set of the terminal 110. [ At this time, different CCs must be selected in the CCEs of the respective terminals 110. [ In this case, when a CC selection request is requested from the upper layer of the terminal 110, CCs for each CCE (using the CC stored for each CCE or the preferred CC information for each CCE at the last end) are separately informed, It can be done in a way that informs. Or to select another cell in an upper layer of the terminal 110 using CC information selected for each CCE.

In step 214, the terminal 110 camped on the cell through the CC selected for each CCE. In step 216, the terminal 110 operates in a standby state (idle state, idle state).

When the terminal 110 receives the paging message from the base station 120 in step 218, the terminal 110 checks the received CC set included in the paging message in step 220.

The terminal 110 compares the CC set received in step 222 with the CC set of the terminal 110 to determine whether they are the same.

If it is determined in step 222 that the received CC set is the same as the CC set of the terminal 110 or all of the CCs are included in the received CC set, the terminal 110 proceeds to step 226.

If it is determined in step 222 that the received CC set is different from the CC set of the terminal 110, the terminal 110 changes the CC set of the terminal 110 to the received CC set in step 224. At this time, the change indicates that the primary CC and the secondary CC included in the CC set of the terminal 100 are changed to be the same as the primary CC and the secondary CC included in the received set.

In step 226, the terminal 110 performs a random access through the main CC included in the CC set of the terminal 100. [ At this time, if the received CC set includes a dedicated preamble of the main CC, the terminal 110 performs a random access through the main CC using a dedicated preamble.

In step 228, the terminal 110 acquires the uplink synchronization of the ancillary CC included in the CC set of the terminal 100. At this time, the uplink synchronization of the ancillary CC may be obtained by performing a random access through the ancillary CC, or may be acquired by receiving synchronization information (TA: Timing Alignment) of the ancillary CC. Here, the synchronization information of the Auxiliary CC may be received from the base station 120 when performing a random access through the primary CC. On the other hand, when random access is performed through the primary CC, when a dedicated preamble of the secondary CC is received, when random access is performed through the secondary CC to obtain the uplink synchronization of the secondary CC, Can be used to perform the random access of the secondary CC.

When the connection setup of the CC set is completed in step 230, the terminal 110 transmits a connection setup completion message to the base station 120 indicating that connection setup is completed.

3 is a flowchart illustrating a process of paging by a base station according to an embodiment of the present invention.

Referring to FIG. 3, in step 310, the BS 120 broadcasts MIB and SIB through all the CCs of the BS 120. FIG. If the paging request is received from the network in step 312, the base station 120 sets a CC set of the corresponding terminal 110 in response to the paging request from the network in step 314. When setting the CC set of the corresponding terminal 110, the base station 120 sets the CC set of the corresponding terminal 110 by adjusting the load so that the traffic is not concentrated on the specific CC among the CCs used in the base station 120.

In step 316, the BS 120 generates a paging message including CC set information. In step 318, the base station 120 transmits a paging message to the corresponding terminal 110 through all the CCs of the base station 120.

In step 320, the BS 120 performs a random access to the terminal 110 through the CC of the CC set.

In step 322, the BS 120 may perform a random access procedure through the CC of the CC set. In step 332, when transmitting the CC set including the synchronization information (TA: Timing Alignment) of the auxiliary CC in the CC set, the terminal 110 may acquire the uplink synchronization using the TA without random access Can be omitted.

In step 324, the BS 120 receives a connection setup completion message indicating that the connection setup of the CC set has been completed from the terminal 110.

4 is a flowchart illustrating a process of setting a unit frequency set in a base station according to an embodiment of the present invention. 4 is an example of setting the CC set in step 314 of the base station 120. [

Referring to FIG. 4, in step 410, the BS 120 initializes a parameter m, which is a parameter for identifying a CC used in the BS 120,

In step 412, the BS 120 determines whether the available traffic volume of the CCm is larger than the average traffic volume requested by the MS.

If it is determined in step 412 that the available traffic volume of the CCm is larger than the average traffic volume of the terminal 110, the base station 120 determines in step 414 whether the traffic volume of the CCm is smaller than the average CC volume.

If it is determined in step 414 that the traffic volume of the CCm is smaller than the traffic volume of the average CC, the base station 120 adds CCm to the CC set allocated to the terminal in step 416.

In step 418, the BS 120 increments the parameter m by 1, and proceeds to step 420 to check if all CCs of the BS 120 have been checked.

If it is determined in step 420 that all CCs of the BS 120 have not been checked, the BS 120 returns to step 412 and performs the process up to step 420. When all the CCs of the BS 120 are checked .

If it is determined in step 420 that all the CCs of the BS 120 have been checked, the BS 120 proceeds to step 316.

On the other hand, if it is determined in step 412 that the available traffic amount of the CCm is not greater than the average traffic amount of the terminal 110 or if the traffic amount of the CCm is smaller than the traffic amount of the average CC in step 414, Go ahead.

5 is a flowchart illustrating a process of generating a paging message in a base station according to an embodiment of the present invention.

Referring to FIG. 5, in step 510, the BS 120 determines whether a dedicated preamble is allocated to the UE 110. FIG. At this time, whether or not the dedicated preamble is allocated can be determined using at least one of a predetermined user class of the terminal 110, a plan in use, and an emergency situation.

If it is determined in step 510 that the dedicated preamble is not allocated to the UE 110, the BS 120 generates a paging message including the CC set information to which the dedicated preamble is not allocated in step 518.

If it is determined in step 510 that the dedicated preamble is allocated to the UE 110, the Node B 120 notifies all of the CCs of the Node B 120 to the CC set to be allocated to the UE 110 determined in step 416 .

If it is determined in step 512 that all the CCs of the BS 120 are included in the CC set to be allocated to the MS 110, the BS 120 allocates a dedicated preamble corresponding to each CC of the CC set to be allocated in step 514 .

If it is determined in step 512 that all the CCs of the BS 120 are not included in the CC set to be allocated to the MS 110, the BS 120 allocates a dedicated preamble for the CC in the CC set in step 516.

In step 518, the BS 120 generates a paging message including the CC set information to which the dedicated preamble is allocated.

Hereinafter, an example of the paging procedure considering the frequency group environment will be described with reference to FIG. 6 to FIG. 6 to FIG. 9, the BS 120 operates four CCs (CC-a, CC-b, CC-c and CC-d) and the terminal 110 transmits two CCEs a case where the terminal 110 selects two CCs (CC-a and CC-c) and performs a call connection establishment procedure according to the paging of the base station 120 while the terminal 110 is in the idle state Respectively.

6 is a diagram illustrating a paging procedure when a unit frequency set selected by a terminal and a base station are different from each other according to an exemplary embodiment of the present invention.

6, the BS 120 broadcasts the MIB and the SIB through the CC (CC-a, CC-b, CC-c, and CC-d) at predetermined time intervals in step 610.

When power is applied to the terminal 110, the terminal 110 searches for CCs accessible through the CCEs (CCE-a and CCE-b) in step 612 according to the request of the upper layer, System Information) to select CCs (CC-a, CC-c).

In step 614, the terminal 110 selects the main CCE among the CCEs (CCE-a and CCE-b) as CCE-a.

The terminal 110 then camps on the cell using different CCs CC-a and CC-c selected in the CCEs CCE-a and CCE-b, State, idle state). That is, the terminal 110 waits for an outgoing call of a user of the terminal 110 or an incoming call of another terminal user.

If a paging request to the terminal 110 is received in step 616, the BS 120 performs call admission control (CAC) / load control (LB) procedures considering the resource status and radio conditions of each CC in step 618, Selects a CC to which the terminal 110 can connect, and determines a CC set to which the terminal 110 should connect. At this time, the CAC / LB prevents the traffic from being concentrated on a specific unit frequency among the CCs used by the base station 120.

The base station 120 transmits the CC set information determined in step 620 to the terminal 110 by including the paging message in the paging message. At this time, since the base station 120 does not know the CC that the terminal 110 is waiting to receive, the base station 120 transmits the same paging message to all the CCs.

Upon receiving the paging message of the base station 120, the terminal 110 confirms that the paging message indicates itself, and performs the call connection procedure using the received CC set information.

6, when the CC set that the terminal 110 is waiting to receive and the CC set that the base station 120 informs via the paging message are different, the terminal 110 changes to the CC set informed by the base station 120 in step 622 do. In step 624, the terminal 110 selects the main CCE from the CCE (CCE-a, CCE-b) as CCE-b and changes it to be the same as the main CC in the base station.

When the terminal 110 receives the random access request from the upper layer in step 626, the terminal 110 performs a random access to the base station 120 and the primary CC (CC-d) in step 628. [

Meanwhile, the base station 120 may generate a paging message by allocating a dedicated preamble used in a LAN connection procedure in the main CC by using user information (user class, fee, emergency status, etc.) to be paged. In this case, the back-off time due to the collision can be reduced, and the call setup time of the terminal 110 can be shortened.

If the dedicated preamble for the CC is included in the received paging message, the terminal 110 may perform the random access procedure in step 628 using the dedicated preamble. If the dedicated preamble information is not included in the paging message, the terminal 110 arbitrarily selects and uses one of the preamble sets of the corresponding CC (CC-d) received in the broadcast message.

The terminal 110 receives the random preamble randomly selected by the base station 120 when the random preamble is not used in another terminal (if no collision occurs) or transmits a dedicated preamble transmitted from the terminal 110 to the base station 120 The base station 120 transmits a random access response message (Message 2) to the terminal 110. The terminal 110 acquires the uplink synchronization through the lander connection response message. Then, the terminal 110 is allocated an uplink resource which can transmit a message for transmission setup in an upper layer. Then, the terminal 110 transmits a connection setup request message (Message 3) including the number of CCEs of the terminal 110 and the selected CC information to the base station 120.

After receiving the connection setup request message of the terminal 110, the base station 120 may omit the CAC / LB procedure using the ID information of the terminal 110 stored at the time of paging, or may perform the CAC / LB procedure And transmits a connection setup acceptance message to the terminal 110. [

The connection setup acceptance message may include dedicated preamble information for another CCE included in the UE 110. [ In this case, the UE 110 can quickly perform the uplink synchronization acquisition procedure through the random access in step 632.

When the terminal 110 receives the random access request from the upper layer for uplink synchronization in step 630, it acquires the uplink synchronization through the random access in step 632.

On the other hand, if the uplink synchronization information of another CC can be calculated by using the uplink synchronization information of a specific CC, such as a CC using a continuous band, the connection establishment acceptance message may include synchronization information (TA: Timing Alignment). In this case, the terminal 110 may omit the random access in step 632 and acquire synchronization.

When the connection establishment of the CCE (CCE-a, CCE-b) is completed in step 634, the terminal 110 transmits a connection establishment completion message indicating completion of connection establishment to the base station 120 through CC-d in step 636 do.

7 is a diagram illustrating a paging procedure when the unit frequency sets selected by the terminal and the base station according to the embodiment of the present invention are equal to each other.

Referring to FIG. 7, in step 710, the BS 120 broadcasts MIBs and SIBs through CCs (CC-a, CC-b, CC-c, and CC-d) at predetermined time intervals.

When power is applied to the terminal 110, the terminal 110 searches for CCs accessible through the CCEs (CCE-a and CCE-b) in step 712 according to the request of the upper layer, System Information) to select CCs (CC-a, CC-c).

In step 714, the terminal 110 selects the main CCE among the CCEs (CCE-a and CCE-b) as CCE-a.

The terminal 110 then camps on the cell using different CCs CC-a and CC-c selected in the CCEs CCE-a and CCE-b, State, idle state). That is, the terminal 110 waits for an outgoing call of a user of the terminal 110 or an incoming call of another terminal user.

If a paging request to the terminal 110 is received in step 716, the base station 120 performs call admission control (CAC) / load control (LB) procedures considering the resource status and radio conditions of each CC in step 718, Selects a CC to which the terminal 110 can connect, and determines a CC set to which the terminal 110 should connect. At this time, the CAC / LB prevents the traffic from being concentrated on a specific unit frequency among the CCs used by the base station 120.

The base station 120 transmits the CC set information determined in step 720 to the terminal 110 in the paging message. At this time, since the base station 120 does not know the CC that the terminal 110 is waiting to receive, the base station 120 transmits the same paging message to all the CCs.

Upon receiving the paging message of the base station 120, the terminal 110 confirms that the paging message indicates itself, and performs the call connection procedure using the received CC set information.

7, if the CC set selected by the base station 120 as the CAC / LB result matches the primary CC of the CC set that the terminal 110 is waiting to receive, the terminal 110 transmits a random access request The terminal 110 performs a random access connection between the base station 120 and the main CC (CC-a) in step 726. In step 726, At this time, the random access procedure performs the random access procedure using the dedicated preamble received by the CC selected by the corresponding CCE or the selected random preamble.

In step 726, the terminal 110 changes the auxiliary CC to another CC (CC-b, CCE-b) requested by the base station 120 in step 724.

When the UE 110 receives the random access request from the upper layer for uplink synchronization in step 728, it acquires uplink synchronization through the random access in step 730.

On the other hand, if the uplink synchronization information of another CC can be calculated by using the uplink synchronization information of a specific CC, such as a CC using a continuous band, the connection establishment acceptance message may include synchronization information (TA: Timing Alignment). In this case, the terminal 110 may skip the random access in step 730 and acquire synchronization.

When the connection establishment of the CCE (CCE-a, CCE-c) is completed in step 732, the terminal 110 transmits a connection setup completion message to the base station 120 via the CC-a do.

8 is a diagram illustrating a paging procedure in a case where sub-unit frequencies are the same among a unit frequency set selected by a terminal and a base station according to an embodiment of the present invention.

8, the BS 120 broadcasts the MIB and the SIB through CCs (CC-a, CC-b, CC-c, and CC-d) at predetermined time intervals in step 810.

When power is applied to the terminal 110, the terminal 110 searches for CCs accessible through the CCEs (CCE-a and CCE-b) in step 812 according to the request of the upper layer, System Information) to select CCs (CC-a, CC-c).

In step 814, the terminal 110 selects the main CCE among the CCEs (CCE-a and CCE-b) as CCE-a.

The terminal 110 then camps on the cell using different CCs CC-a and CC-c selected in the CCEs CCE-a and CCE-b, State, idle state). That is, the terminal 110 waits for an outgoing call of a user of the terminal 110 or an incoming call of another terminal user.

If the paging request to the terminal 110 is received in step 816, the base station 120 performs call admission control (CAC) / load control (LB) procedures considering the resource status and radio conditions of each CC in step 818, Selects a CC to which the terminal 110 can connect, and determines a CC set to which the terminal 110 should connect. At this time, the CAC / LB prevents the traffic from being concentrated on a specific unit frequency among the CCs used by the base station 120.

The base station 120 transmits the CC set information determined in step 820 to the terminal 110 by including it in the paging message. At this time, since the base station 120 does not know the CC that the terminal 110 is waiting to receive, the base station 120 transmits the same paging message to all the CCs.

Upon receiving the paging message of the base station 120, the terminal 110 confirms that the paging message indicates itself, and performs the call connection procedure using the received CC set information.

The CC set selected by the base station 120 as the CAC / LB result does not match the CC set that the terminal 110 is waiting to receive, but the CC set by the base station 120 is set to the CC set of the terminal 110 The terminal 110 changes the main CC of the main CC terminal included in the CC set of the base station 120 in step 822. [ Then, the terminal starts the call setup procedure according to the information included in the paging message.

When the UE 110 receives the random access request from the upper layer in step 824, the UE 110 performs a random access to the CC 120 with the CC 120 in step 826. At this time, the random access procedure performs the random access procedure using the dedicated preamble received by the CC selected by the corresponding CCE or the selected random preamble.

In step 826, the UE 110 changes the Auxiliary CC to another CC (CC-a, CCE-b) requested by the BSS 120 in step 828.

When the terminal 110 receives the random access request from the upper layer for uplink synchronization in step 830, the terminal 110 acquires the uplink synchronization through the random access in step 832.

On the other hand, if the uplink synchronization information of another CC can be calculated by using the uplink synchronization information of a specific CC, such as a CC using a continuous band, the connection establishment acceptance message may include synchronization information (TA: Timing Alignment). In this case, the terminal 110 may omit the random access in step 832 and acquire synchronization.

The terminal 110 transmits a connection setup completion message to the base station 120 through the CC-a in step 836, indicating that the connection setup is completed, in step 834, when connection establishment of the CCE (CCE-a, CCE- do.

9 is a diagram illustrating a paging procedure in the case where the unit frequency sets selected by the terminal and the base station match according to the embodiment of the present invention.

Referring to FIG. 9, the BS 120 broadcasts MIB and SIB through CCs (CC-a, CC-b, CC-c, and CC-d)

When power is applied to the terminal 110, the terminal 110 searches for CCs accessible through the CCEs (CCE-a and CCE-b) in step 912 according to the request of the upper layer, System Information) to select CCs (CC-a, CC-c).

In step 914, the terminal 110 selects the main CCE among the CCEs (CCE-a and CCE-b) as CCE-a.

The terminal 110 then camps on the cell using different CCs CC-a and CC-c selected in the CCEs CCE-a and CCE-b, State, idle state). That is, the terminal 110 waits for an outgoing call of a user of the terminal 110 or an incoming call of another terminal user.

If a paging request to the terminal 110 is received in step 916, the base station 120 performs call admission control (CAC) / load control (LB) procedures considering the resource status and radio conditions of each CC in step 918, Selects a CC to which the terminal 110 can connect, and determines a CC set to which the terminal 110 should connect. At this time, the CAC / LB prevents the traffic from being concentrated on a specific unit frequency among the CCs used by the base station 120.

The base station 120 transmits the CC set information determined in step 920 to the terminal 110 by including the paging message in the paging message. At this time, since the base station 120 does not know the CC that the terminal 110 is waiting to receive, the base station 120 transmits the same paging message to all the CCs.

Upon receiving the paging message of the base station 120, the terminal 110 confirms that the paging message indicates itself, and performs the call connection procedure using the received CC set information.

As shown in FIG. 9, when the CC set selected by the base station 120 as a result of CAC / LB matches the CC set to be received by the terminal 110, the terminal 110 performs the call connection procedure without changing the CC of the CCE.

When the UE 110 receives the random access request from the upper layer in step 922, the UE 110 performs a random access to the CC 120 in step 924 with the primary CC (CC-a). At this time, the random access procedure performs the random access procedure using the dedicated preamble received by the CC selected by the corresponding CCE or the selected random preamble.

On the other hand, when the terminal access to all the CCs constituting the cell is possible as a result of the CAC / LB of the base station 120, all CC information may be included in the paging message. At this time, the BS 120 may assign a dedicated preamble to all CCs.

The base station 120 receives the message 1 (random access preamble) of the UE 110 and acquires the Primary CC information of the UE 110 when transmitting a paging message with a dedicated preamble allocated to all CCs, The dedicated preamble assigned to the other CC shall be released.

After receiving the random access request from the upper layer for the uplink synchronization in step 928, the terminal 110 acquires the uplink synchronization through the random access in step 930.

On the other hand, if the uplink synchronization information of another CC can be calculated by using the uplink synchronization information of a specific CC, such as a CC using a continuous band, the connection establishment acceptance message may include synchronization information (TA: Timing Alignment). In this case, the terminal 110 may omit the random access in step 930 and acquire synchronization.

The terminal 110 transmits a connection setup completion message to the base station 120 through the CC-a in step 934, indicating that the connection setup is completed, in step 932. Upon completion of connection establishment of the CCE (CCE-a, CCE- do.

The methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

110; A terminal 111; The control unit
112; A paging processor 113; The first unit frequency communication section
114; N-th unit frequency communication unit 120; Base station
121; A control unit 122; The call processing section
123; A paging processor 124; The first unit frequency communication section
125; A second unit frequency communication unit 126; The third unit frequency communication unit
127; An m-th unit frequency communication unit 128; Network communication section

Claims (19)

Selecting a unit frequency set for each unit frequency communication unit and selecting a unit frequency set for the terminal;
Camping on a cell through a unit frequency selected for each unit frequency communication unit;
Receiving a paging message from a base station;
Confirming a received unit frequency set included in the paging message;
Comparing the received unit frequency set and the unit frequency set of the terminal; And
Establishing a connection with the base station through a set of unit frequencies of the terminal if the received unit frequency set is equal to the unit frequency set of the terminal or includes all the unit frequencies in the received unit frequency set, Included
A method of paging a terminal in a frequency aggregation environment.
The method according to claim 1,
Further comprising the step of transmitting a connection setup completion message to the base station indicating that the connection setup is completed when connection setup with the base station is completed for all the unit frequencies included in the unit frequency set of the terminal
A method of paging a terminal in a frequency aggregation environment.
The method according to claim 1,
Changing a unit frequency set of the terminal to the received unit frequency set if the received unit frequency set is different from the unit frequency set of the terminal; And
And establishing a connection with the base station through a set of unit frequencies of the terminal
A method of paging a terminal in a frequency aggregation environment.
The method of claim 3,
Wherein the step of changing the unit frequency set of the terminal to the received unit frequency set comprises:
Wherein the main unit frequency and the auxiliary unit frequency included in the unit frequency set of the terminal are changed to be equal to the main unit frequency and the auxiliary unit frequency included in the received unit frequency set,
A method of paging a terminal in a frequency aggregation environment.
The method according to claim 1,
The step of establishing a connection through a set of unit frequencies of the terminal comprises:
Performing a random access based on a main unit frequency included in the unit frequency set of the terminal; And
And acquiring uplink synchronization of an auxiliary unit frequency included in a unit frequency set of the terminal
A method of paging a terminal in a frequency aggregation environment.
6. The method of claim 5,
Wherein the step of performing the random access based on the main unit frequency comprises:
And the random access of the main unit frequency is performed using the dedicated preamble when the received unit frequency set includes the dedicated preamble of the main unit frequency.
A method of paging a terminal in a frequency aggregation environment.
6. The method of claim 5,
Wherein the step of acquiring uplink synchronization of the auxiliary unit frequency comprises:
And acquires the uplink synchronization by performing random access through the auxiliary unit frequency
A method of paging a terminal in a frequency aggregation environment.
8. The method of claim 7,
The random access through the auxiliary unit frequency may be performed by,
Wherein the random access is performed using the dedicated preamble when receiving a dedicated preamble of the auxiliary unit frequency when performing random access through the main unit frequency,
A method of paging a terminal in a frequency aggregation environment.
6. The method of claim 5,
Wherein the step of acquiring uplink synchronization of the auxiliary unit frequency comprises:
When receiving the TA (Timing Alignment) of the auxiliary unit frequency when performing the random access through the main unit frequency, acquiring the uplink synchronization of the auxiliary unit frequency using the synchronization information Featured
A method of paging a terminal in a frequency aggregation environment.
Receiving a paging request;
Setting a unit frequency set of the terminal for the paging request;
Generating a paging message including information of the unit frequency set;
Transmitting the paging message to the corresponding terminal through all the unit frequencies of the base station; And
And performing a random access with the corresponding terminal through a main unit frequency included in the unit frequency set
A method of paging a base station in a frequency aggregation environment.
11. The method of claim 10,
And performing a random access with the corresponding terminal through an auxiliary unit frequency included in the unit frequency set
A method of paging a base station in a frequency aggregation environment.
11. The method of claim 10,
Wherein the setting of the unit frequency set of the corresponding terminal for the paging request comprises:
And sets a unit frequency set of the corresponding terminal by adjusting load so that traffic is not concentrated on a specific unit frequency among unit frequencies used by the base station
A method of paging a base station in a frequency aggregation environment.
11. The method of claim 10,
Wherein the generating of the paging message comprises:
Determining whether to allocate a dedicated preamble to the corresponding terminal; And
And allocating the dedicated preamble to the main unit frequency among the unit frequency sets of the corresponding terminal if it is determined to allocate the dedicated preamble
A method of paging a base station in a frequency aggregation environment.
14. The method of claim 13,
And allocating a dedicated preamble corresponding to all the unit frequencies included in the unit frequency set of the corresponding terminal when the unit frequency set of the base station is allocated to all the unit frequencies of the base station Further comprising the step of assigning
A method of paging a base station in a frequency aggregation environment.
15. The method of claim 14,
Further comprising the step of releasing all of the dedicated preambles allocated to the remaining unit frequencies except for the main unit frequency among all the unit frequencies when a random access of the main unit frequency is requested from the corresponding terminal through the dedicated preamble
A method of paging a base station in a frequency aggregation environment.
14. The method of claim 13,
Wherein the step of determining whether to allocate a dedicated preamble to the corresponding terminal comprises:
And determining whether the terminal is in charge of the terminal based on at least one of a predetermined user class, a charging plan in use, and an emergency situation.
A method of paging a base station in a frequency aggregation environment.
At least two unit frequency communication units communicating with the base station using different unit frequencies;
A controller for selecting a unit frequency set for each of the unit frequency communication units to select a unit frequency set for the terminal and camping-on the cell through a unit frequency selected for each unit frequency communication unit; And
Receiving a paging message from the base station, checking a received unit frequency set included in the paging message, comparing the received unit frequency set with a unit frequency set of the terminal, And a paging processor configured to establish a connection with the base station through a unit frequency set of the terminal when the unit frequency set is the same as the unit frequency set of the terminal or includes all the unit frequencies in the received unit frequency set
A terminal that paging in a frequency aggregation environment.
18. The method of claim 17,
The paging processing unit,
If the received unit frequency set is different from the unit frequency set of the terminal, the unit frequency set of the terminal is changed to the received unit frequency set, and the connection with the base station is established through the unit frequency set of the terminal Characterized by
A terminal that paging in a frequency aggregation environment.
A network communication unit for receiving a paging request;
At least two or more unit frequency communication units communicating with each other using different unit frequencies;
A call processing unit for setting a unit frequency set of the terminal for the paging request; And
Generating a paging message including information of the unit frequency set, transmitting the paging message to all the unit frequency communication units, transmitting the paging message to the corresponding terminal through the main unit frequency included in the unit frequency set, And a paging processor for performing a connection
A base station paging in a frequency aggregation environment.

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