KR101600450B1 - Communication system and method for updating system information - Google Patents

Abstract

The present invention relates to a method for updating system information using a bandwidth extension technique and a communication system for performing the same, and a method for transmitting a system information update message for an elementary carrier on which system information is updated is transmitted to a terminal through a downlink anchor carrier, , The UE verifies the elementary carrier in the elementary carrier system information update field included in the system information update message, and the terminal updates the updated system information of the identified elementary carrier transmitted from the cell And a receiving process. Through this process, the UE can recognize the system information update of the element carrier in the extended bandwidth, and can update the system information without increasing the blind decoding.

Terminal, system information, paging information, element carrier

Description

Technical Field [0001] The present invention relates to a system information updating method,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for updating system information and a communication system for performing the same, and more particularly, to an LTE (Long Term Evolution) -A communication system to which a bandwidth extension technique for increasing data transmission amount is applied, ≪ / RTI >

In a LTE (Long Term Evolution) system, a UE must acquire system information of a corresponding cell after a cell search procedure. At this time, the system information includes downlink and uplink bandwidth, uplink / downlink subframe configuration (UL / DL configuration) for TDD (Time Division Duplex), related parameters for random access, and uplink power adjustment information. The system information is transmitted on the basis of two transport channels. Also, the MIB (Master Information Block), which is limited system information, is transmitted using a BCH (Broadcast Channel), and includes a DL bandwidth indication, a Physical HyiARQ Indicator Channel (PHICH) configuration, and a system frame number.

A system information block (SIB) including most system information is transmitted through a down-link shared channel (DL-SCH). Whether or not the system information exists on the DL-SCH can be known through transmission of a Physical Down-link Control Channel (PDCCH) masked with a System Information Radio Network Temporary Identity (SI-RNTI).

In LTE system, SIB is defined as 8 kinds of SIB1 ~ SIB8. SIB1 contains system information change information about whether the system information is valid at the modification period. SIB1 is transmitted in subframe # 5 of the radio frame in 80ms cycle, and the same information is repeated every 20ms in subframe # 5.

The modification period means a period in which system information is not changed. Here, the modification period can be expressed by an equation. That is, the modification priod can be defined as modificationPeriodCoeff * defaultPagingCycle, and the modificationPeriodCoeff can be defined as 2, 4, 8, 16, and defaultPagingCycle = 32 or 64 radio frames.

The system information change information is represented by a system information value tag (systemInfoValueTag) and has a value from 0 to 31. If the system information value tag is different from the previous value, the terminal can know that the system information currently held is not valid and that the system information should be newly received. A method for updating system information using the system information block in the terminal will be described with reference to FIG.

1 is a diagram illustrating an update procedure of system information using a system information block according to the prior art.

Referring to FIG. 1, the terminal receives SIB1, which is a system information block, in step 100, and determines whether a system information value tag (systemInfoValueTag) is equal to a previous value in step 110. FIG. If the system information value tag (systemInfoValueTag) is not equal to the previous value, the terminal recognizes that the system information is changed in the current modification period in step 120, and receives all the system information And ends the process. However, if the system information value tag (systemInfoValueTag) is equal to the previous value in step 110, the terminal recognizes that the system information is not changed in the modification period in step 130 and ends.

Next, in the LTE system, the UE may receive the update of the system information through a paging message. Generally, the paging message is used as a message for switching the terminal in the idle mode to the connected mode, but includes information on whether the system information is changed during the next modification period. At this time, information on whether or not the system information is changed expresses whether the system information changes in the next modification period according to whether the value of the systemInfoModification field included in the paging message is 1 or 0.

The paging message is transmitted using a DL-SCH, and whether a paging message exists on the DL-SCH can be known through transmission of a PDCCH masked with a Paging Radio Network Temporary Identity (P-RNTI). The procedure for updating the system information by the terminal using the paging message will be described with reference to FIG.

2 is a diagram illustrating a procedure for recognizing a system information update through a paging message according to the related art.

Referring to FIG. 2, in step 200, the terminal receives a paging message. The MS determines whether the value of the systemInfoModification field included in the paging message received in step 210 is '1'. If the value of the system information change field is 1, the terminal determines in step 220 that the system information will be changed in the next modification period and ends. On the other hand, if the value of the systemInfoModification field is not 1 in step 210, the terminal determines in step 230 that the system information is not changed in the next modification period and ends.

The procedures for changing the system information in the terminal described in FIGS. 1 and 2 are summarized as follows.

When the system information is changed, the cell informs the terminals through the paging message during the modification period that the system information is changed during the next modification period. Then, upon receipt of the system information change notification, the terminals acquire new system information immediately after the next modification period starts. In addition, the UEs can know whether the stored system information is valid during the modification period (systemInfoValueTag) of the SIB1. Accordingly, the UEs attempt to find a system information change (systemInfoModification) in the paging message at least during modification period and at least after a modification period, the UE stores the system information value stored in the system information value tag (systemInfoValueTag) Is valid.

In LTE-A (Long Term Evolution-Advanced), carrier aggregation, which is one of bandwidth extension techniques, is defined, and a plurality of element carriers exist. When using the procedure defined in the existing LTE specification to find out the change of the system information on the multiple element carrier, the paging message and SIB1 of all the element carrier supported by the LTE-A terminal should be decoded. Therefore, the number of blind decoding increases as compared with the LTE standard.

Also, if there is an element carrier that is defined as a PDCCH monitoring set and is not monitored, it is necessary to know that the system information of the elementary carrier that is not monitored changes. In order to know that the system information of the non-monitored element carrier changes, the terminal detects system information of the corresponding element carrier currently monitoring the PDCCH and a system information change of the other element carrier through a CI (Carrier Indication) field indicating the element carrier Should be. Therefore, the UE must decode DCI format 1C or 1A of different sizes, and thus the number of blind decodings of the LTE-A terminal increases. Also, when the system information of the corresponding elementary carrier monitoring the PDCCH is changed, the LTE terminal connected to the elementary carrier must also know the system information change. In this case, in order to notify the terminal that the system information of the corresponding element carrier has been changed, the LTE-A system transmits the existing Rel. 8 DCI format conforming to the LTE standard 1C or 1A and DCI format 1C or 1A with the CI field added for the LTE-A terminal shall be transmitted separately. Therefore, scheduling becomes complicated and resources are wasted. In consideration of these problems, other new procedures and methods are needed to confirm system changes.

In order to solve the above problems, the present invention proposes a system information update method and a communication system for performing the system information update method.

According to another aspect of the present invention, there is provided a method for updating system information, the method comprising: transmitting a system information update message for an elementary carrier whose system information is updated to a terminal through a downlink anchor carrier; The terminal checks the element carrier in the element carrier information update field included in the system information update message. The terminal receives the updated system information of the identified element carrier transmitted from the cell at the change period ≪ / RTI >

Also, in the system information updating method according to the embodiment of the present invention, the system information update message is either a paging message or a system information block.

In the method of updating system information according to an embodiment of the present invention, the UE checks the element carrier to be updated with the system information through the element carrier system information update field included in the paging message, And receiving the system information.

Also, in the system information updating method according to an embodiment of the present invention, the UE checks the element carrier to update the system information through the element carrier system information update field included in the system information block, and updates the element carrier And receiving the system information.

Next, in the system information updating method according to the embodiment of the present invention, the element carrier system information update field is defined as bits corresponding to the number of element carriers included in the set of downlink carriers.

In the system information update method according to the embodiment of the present invention, the elementary carrier system information update field is defined as the number of ceiling bits by applying a binary logarithm to the number of element carriers included in the set of downlink carriers .

In order to achieve the above object, a system information update communication system according to an exemplary embodiment of the present invention transmits a system information update message for an elementary carrier whose system information is updated through a downlink anchor carrier, And a terminal for checking the element carrier in the element carrier system information update field included in the system information update message received from the cell and updating the system information of the element carrier at a change period do.

According to the present invention, when carrier aggregation technology is applied in the LTE-A system, the LTE-A terminal can recognize whether system information is updated on each element carrier. In addition, the LTE-A terminal can update the system information for each element carrier.

A bandwidth extension technique called bandwidth extension or carrier aggregation in a 3GPP (Long Term Evolution Advenced) system of 3GPP (Third Generation Partnership Project) is a technique for increasing bandwidth by extending bandwidth. With this technique, the amount of data transmitted over one band can be increased by the extended bandwidth. Each of the extended bandwidths through the bandwidth extension technique is called an " component carrier ", and in the LTE system, the terminal is defined to have one elementary carrier. Where the element carriers may be continuous in frequency or discontinuous.

The carrier wave that can be applied in the LTE-A system can be defined as follows.

- Backward compatible carrier: A carrier capable of being connected to an LTE terminal

Non-backward compatible carrier: A carrier capable of being connected only to an LTE-A (Long Term Evolution Advenced)

- Extension carrier: Carrier that can not operate in a single operation and is only available for data transmission.

- DL CC set (Downlink Component Carrier set): A set of downlink carriers

UL CC set (Up Link Component Carrier set): A set of uplink carriers

- Carrier Indicator Field (CIF): When it is difficult to send a Physical Down-link Control Channel (PDCCH) on a specific element carrier, the PDCCH is transmitted on the other element carrier and the corresponding PDCCH is transmitted on a PDSCH Shared Channel) or PUSCH (Physical Up-link Shared Channel). It is decided to add three bits to the Down-link Control Information (DCI) format to indicate the other component carrier.

- PDCCH monitoring set: A set of carriers of a carrier included in the DL CC set, which defines that the terminal decodes the PDCCH only in the corresponding set.

In addition to the PDCCH monitoring set, a downlink anchor carrier (hereinafter referred to as a DL anchor carrier) or an uplink anchor carrier (UL anchor CC) may be included in addition to the carrier wave. have.

In the LTE-A system in which carrier aggregation is applied in the present invention, a cell transmits a system information update message for indicating a component carrier whose system information is updated to a downlink anchor carrier (DL anchor carrier) To the terminal. At this time, the system information update message may be a paging message or a system information block, and each paging message or system information block includes an element carrier system information update field.

Then, the UE confirms the element carrier updated with the system information through the received system information update message, and receives the system information of the element carrier confirmed in the change period from the cell.

In other words, the UE can determine whether to change the system information of the elementary carrier through the field indicating the system information update of the other element carrier included in the paging message transmitted through the downlink anchor carrier. Then, the UE can receive the updated system information of the corresponding element carrier from the cell in the next change period. Alternatively, the UE can determine whether the system information of the other element carrier is changed through the field indicating whether or not the system information of the element carrier included in the SIB1 of the downlink anchor carrier is updated. The UE can receive the updated system information of the corresponding element carrier from the cell in the current modification period.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

A description will be given of a method of receiving a DL CC set, a PDCCH monitoring set, and a DL anchor carrier having a downlink element carrier before the terminal updates the system information.

The DL CC set is a set of downlink carriers defined according to a cell.

The PDCCH monitoring set is a set of some of the carriers included in the DL CC set. The UE can decode the PDCCH only in the PDCCH monitoring set, and the PDCCH monitoring set is defined for each UE.

The DL anchor carrier means a specific one of the carrier waves included in the DL CC set. The terminal can first decode the signal transmitted through the DL anchor carrier, and the DL anchor carrier is defined for each terminal.

The relationship between the DL CC set and the PDCCH monitoring set can be described as follows.

The PDCCH monitoring set is included in the DL CC set as shown in Equation (1).

DL CC set ⊇ PDCCH monitoring set

For example, it is assumed that DL CC set = {1, 2, 3, 4, 5}, and each number means an element carrier having a bandwidth of 20 MHz. Then, the cell sets the maximum number of carriers that can be allocated among the carriers included in the DL CC set according to the capability of the UE. Then, the cell is set to PDCCH monitoring set = {1, 3, 4} so as to decode the PDCCH to a specific UE only on a specific element carrier. Here, it is assumed that the bandwidths of all the element carriers included in the DL CC set are the same, but the present invention can be applied even when the bandwidth is different for each element carrier.

The DL CC set and the PDCCH monitoring set have been described above. It should be noted that the DL CC set and PDCCH monitoring sets, which designate the element carrier sets referred to herein, may vary in the process of creating the specification. Next, the DL CC set and the PDCCH monitoring set, which are the element carrier sets, are described to the UE.

3 is a diagram illustrating a procedure in which an elementary carrier set according to the present invention is known to a UE.

Referring to FIG. 3, in step 300, the terminal searches for an initial cell. When the cell search is completed, the UE receives system information including DL CC set, which is a set of downlink carriers defined for each cell, in step 310. In step 320, the terminal performs random access. In step 330, the terminal performs an RRC connection setup (RRC connection setup). At this time, the UE can receive the PDCCH monitoring set and the DL anchor CC defined according to the UE through the RRC connection set up.

In the present invention, the UE can update the system information for each element carrier through the paging message, which is a system information update message received via the DL anchor carrier, or the element carrier system information update field defined in the system information block. A method for updating system information through the element carrier system information update field defined in the paging message or the system information block will be described with reference to Figs.

4 is a diagram illustrating an element carrier system information update field defined in a paging message according to the present invention. And FIG. 5 is a diagram illustrating a procedure for updating system information of element carriers using a page message according to the present invention.

Referring to FIG. 4, a paging message field newly defined according to the present invention is composed of a paging message field 400 and an element carrier system information update field 410. Here, the element carrier system information update field 410 is a field for indicating an element carrier to which system information is to be updated.

Although various methods can be used as a method of defining the element carrier system information update field 410, two methods are assumed here.

First, the element carrier system information update field 410 is defined as bits corresponding to the number of element carriers defined in the DL CC set. For example, if the number of element carriers of the DL CC set is 5, the element carrier system information update field 410 is set to 5 bits, 00000. At this time, each bit indicates the order of the element carrier whose system information is updated in the next modification period. For example, if the system information of the second elementary carrier in the DL CC set is updated in the next modification period, the elementary carrier system information update field 410 may be defined as 01000. When a plurality of elementary carrier system information is updated, for example, when the system information of the third elementary carrier and the fourth elementary carrier are updated in a next modification period, the elementary carrier system information update field 410 0.0 > 00110. ≪ / RTI > Here, the modification period may be set to be the same for each element carrier and may be set differently for each element carrier.

Second, the element carrier system information update field 410 is defined as the number of bits ceiling by applying a binary log to the number of element carriers of the DL CC set. For example, if the number of element carriers defined in the DL CC set is 5, the element carrier system information update field 410 is defined as 3 bits, 000, using 2.xxx, which is a value of log ₂ 5. At this time, in the element carrier system information update field 410, the first element carrier is set to 000, the second element carrier is set to 001, the third element carrier is set to 010, the fourth element carrier is set to 011, and the fifth element carrier is set to 100. The element carrier system information update field 410 defined in this manner is preferably used when one element carrier system information is updated in the next modification period.

Next, a description will be made of a procedure for updating the system information for each element carrier using page messages using FIG.

Referring to FIG. 5, in step 500, the terminal receives a paging message through a DL anchor carrier defined according to the terminal. In step 510, the UE determines whether the value of the systemInfoModification field included in the paging message is 1 or not.

If the value of the system information change field is 1 in step 510, the terminal recognizes that the system information of the DL anchor carrier is changed in the next modification period (step 520). If the value of the system information change field is not 1 in step 510, the terminal determines in step 530 that the system information of the DL anchor carrier is not changed in the next modification period.

In step 540, the UE confirms whether the system information of the DL anchor carrier is updated. In step 540, the UE confirms the element carrier to be updated in the next modification period from the element carrier system information update field 410 described in FIG. As illustrated in the detailed description of FIG. 4, if the number of element carriers of the DL CC set is 5, if 01000 is written in the element carrier system information update field 410, which is a 5-bit bit field, It can be determined that the system information of the second elementary carrier of the mobile station is updated in the next modification period. In step 550, the terminal that has confirmed the elementary carrier whose system information is to be updated receives the updated system information of the corresponding elementary carrier in a next modification period.

Up to now, a method of updating the system information of the element carrier using the element carrier system information update field included in the paging message has been described with reference to FIG. 4 to FIG. Next, a method for updating the system information of the element carrier using the system information block will be described with reference to FIGS. 6 to 7. FIG.

6 is a diagram illustrating a system information update field of element carriers included in a system information block according to the present invention. And FIG. 7 is a diagram illustrating a procedure for updating system information of element carriers using a system information block according to the present invention.

Referring to FIG. 6, an information field of a newly defined SIB1 in the system information block according to the present invention includes an SIB1 (600) field and an element carrier system information update field 610. FIG.

Although various methods can be used as a method of defining the element carrier system information update field 610, two methods are assumed here.

First, the element carrier system information update field 610 is defined as bits corresponding to the number of element carriers included in the DL CC set. For example, if the number of element carriers of the DL CC set is three, the element carrier system information update field 610 is set to three bits, 000. In this case, each bit indicates the order of the element carrier in which the system information is updated in the current modification period (modification period). If the system information is updated in the current modification period of the third element carrier in the DL CC set, the element carrier system information update field 610 may be defined as 001. For example, when the system information of the first element carrier wave and the third element carrier is updated in the current modification period, the element carrier system information update field 610 is updated, Lt; RTI ID = 0.0 > 101. Here, the modification period may be set to be the same for each element carrier and may be set differently for each element carrier.

Second, the element carrier system information update field 610 is defined as the number of ceiling bits by applying a binary log to the number of carriers included in the DL CC set. For example, if the number of element carriers defined in the DL CC set is 5, the element carrier system information update field 610 is defined as a 3-bit bit field 000 using 2.xxx, which is a value of log ₂ 5. At this time, in the element carrier system information update field 610, the first element carrier is set to 000, the second element carrier is set to 001, the third element carrier is set to 010, the fourth element carrier is set to 011, and the fifth element carrier is set to 100. The element carrier system information update field 610 defined in this manner is preferably used when one element carrier system information is updated in the current modification period.

Next, a procedure for updating the system information of the element carrier using the system information block described with reference to FIG. 6 will be described with reference to FIG.

Referring to FIG. 7, in step 700, the terminal receives the SIB1 through the DL anchor carrier defined according to the UE. In step 710, the terminal receiving the SIB1 determines whether the value of the system information value tag (systemInfoValueTag) is equal to the previous value. If the value of the system information value tag (systemInfoValueTag) is different from the previous value in step 710, the terminal recognizes that the system information of the DL anchor carrier is changed in the current modification period in step 720 , And receives and updates all the system information from the cell. However, if the system information value tag (systemInfoValueTag) is equal to the previous value in step 710, the terminal determines in step 730 that the system information of the DL anchor carrier is not changed in the current modification period do.

Next, in step 740, the UE checks an element carrier to update the system information in the current modification period from the element carrier system information update field 610, as shown in FIG. 6, if the number of element carriers of the DL CC set is 3, and 010 is defined in the element carrier system information update field 610, which is a 3-bit bit field, It can be seen that the system information of the second element carrier is updated in the current modification period. In step 750, the terminal having confirmed the elementary carrier for updating the system information updates all system information of the corresponding elementary carrier and terminates the operation.

In the above description, the method of updating the system information of the element carrier using the value of the element carrier system information update field included in the paging message or the system information block received via the DL anchor carrier in the terminal has been described. Next, a schematic configuration of a terminal for updating system information of an element carrier and a schematic configuration of a cell for transmitting a DL anchor carrier will be described with reference to FIGS. 8 to 9. FIG.

8 is a diagram schematically showing a configuration of a terminal according to the present invention.

The UE may have one receiver structure or a plurality of receiver structures depending on whether the frequency band of the constituent carriers constituting the DL CC set is continuous or discontinuous. In this case, a terminal having two receivers for each elementary carrier is described in case of two element carriers constituting the DL CC set and a non-continuous band.

8, the UE may comprise a receiver 810 for a DL anchor carrier, a controller 820, and a receiver 830 for a specific element carrier.

The signal received through the first receiver 811 of the receiver 810 for the DL anchor carrier is transmitted through the first PDCCH decoder 815 and the first PDSCH decoder 817 via the first demultiplexer 813 to the SIB / RTI > The decoded SIB is stored in the first system information storage 819. The controller 820 uses the element carrier system information update field for updating the system information of the elementary carrier among the decoded signals through the first PDCCH decoder 815 and the first PDSCH decoder 817, It is determined whether or not the system information is updated.

If the system information of the particular element carrier is changed, the updated system information of the element carrier is received via the receiver 830 for the element carrier. In more detail, the signal received at the modification period through the second receiver 831 for the elementary carrier is separated through the second demultiplexer 833 and transmitted to the second PDCCH receiver 835 and the second PDSCH receiver 837 And stores the received SIB in the second system information storage 839.

A method of updating system information of an elementary carrier using a paging message in a terminal having such a configuration will now be described.

The signals received by the first receiver 810 are separated through the first demultiplexer 813 and decoded into SIB through the first PDCCH decoder 815 and the first PDSCH decoder 817, (819). The controller 820 uses the decoded paging message through the first PDCCH decoder 815 and the eleventh PDSCH decoder 817 to identify an element carrier whose system information is changed in the next modification period.

If there is an elementary carrier whose system information is changed, the system information is updated with the signal received through the second receiver 831 for receiving the elementary carrier. More specifically, the signal received at the next modification period through the second receiver 831 is separated via the second demultiplexer 833. [ And stores the decoded system information through the second PDCCH decoder 835 and the second PDSCH decoder 837 in the system information storage 839.

Next, a method for updating the system information using the SIB1 in the terminal will be described. The signal received by the first receiver 811 is separated through the first demultiplexer 813 and decoded into SIB through the first PDCCH decoder 815 and the first PDSCH decoder 817. The decoded SIB is stored in the system information storage 819. Then, the controller 820 checks the elementary carrier system information update field included in the SIB1 of the SIB to identify a specific element carrier whose system information is changed in the current modification period.

If there is an elementary carrier whose system information is changed, the updated elementary carrier information is received using the corresponding elementary carrier receiver 830. More specifically, the signal received at the current modification period through the second receiver 831 for the elementary carrier is separated through the second demultiplexer 833 and transmitted to the second PDCCH decoder 835, 2 PDSCH decoder 837 to the SIB. The decoded SIB is stored in the system information storage 839.

Next, a structure of a cell for transmitting the element carrier wave whose system information has been updated will be described with reference to FIG.

9 shows a cell device structure according to the present invention.

Here, the transmitter of the cell may be composed of one or more depending on whether the frequency band of the element carriers in the DL CC set is continuous or non-continuous. In this case, the transmitter of the cell is assumed to be a discontinuous band in which two element carriers are present, and the case of separately configured for each element carrier will be described.

9, the cell comprises a scheduler 900, a controller 910, a transmitter 920 for transmitting the DL anchor carrier, and a transmitter 930 for the element carrier.

Here, the scheduler 900 and the controller 910 of the cell generate a system information update message for an elementary carrier whose system information is updated. The generated system information update message is multiplexed through the first PDCCH generator 921, the first PDSCH generator 922 and the first multiplexer 923 of the transmitter 920 for the DL anchor carrier and transmitted through the first transmitter And transmitted to the terminal. Here, the system information update message may be a paging message or a system information block, and each paging message or system information block includes an element carrier system information update field for indicating an element carrier to which system information is to be updated.

The controller 910 transmits the second PDCCH generator 931, the second PDSCH generator 932 and the second multiplexer 933 of the transmitter 930 for the specific element carrier according to the system information update message transmitted to the UE And transmits the system information of the multiplexed element carrier to the terminal through the second transmitter 934.

A method of transmitting a paging message, which is a system information update message, in each configuration of a cell is as follows. The scheduler 900 and the controller 910 transmit the multiplexed paging message through the first PDCCH generator 921, the first PDSCH generator 922 and the first multiplexer 923 of the transmitter 920 for the DL anchor carrier And transmits it to the terminal through the first transmitter 924. At this time, the paging message includes an element carrier system information update field for indicating an element carrier whose system information is updated.

Next, the controller 910 transmits the paging message to the UE through the second PDCCH generator 931, the second PDSCH generator 932, and the second multiplexer 933 of the transmitter 930 for the specific element carrier And transmits the system information of the multiplexed element carrier to the terminal through the second transmitter 934.

A method of transmitting the system information update message SIB1 in each configuration of the cell is as follows. The scheduler 900 and the controller 910 may transmit the multiplexed SIB1 through the first PDCCH generator 921, the first PDSCH generator 922 and the first multiplexer 923 of the transmitter 920 for the DL anchor carrier. 1 transmitter 924 to the terminal. At this time, SIB1 includes an element carrier system information update field for indicating an element carrier whose system information is updated.

The controller 910 multiplexes the multiplexed data through the second PDCCH generator 931, the second PDSCH generator 932 and the second multiplexer 933 of the transmitter 930 for the specific element carrier according to SIB1 transmitted to the UE And transmits the system information of the element carrier to the terminal through the second transmitter 934.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

FIG. 1 is a diagram illustrating a procedure of updating system information using a system information block according to the prior art.

2 is a diagram illustrating a procedure for recognizing a system information update through a paging message according to the related art.

3 is a diagram illustrating a procedure in which an elementary carrier set according to the present invention is known to a UE.

4 is a diagram illustrating an element carrier system information update field defined in a paging message according to the present invention.

5 is a diagram illustrating a procedure for updating system information of element carriers using a page message according to the present invention.

6 is a diagram illustrating a system information update field of element carriers included in a system information block according to the present invention.

7 is a diagram illustrating a procedure for updating system information of element carriers using a system information block according to the present invention.

8 is a diagram schematically showing a configuration of a terminal according to the present invention.

9 shows a cell device structure according to the present invention.

Claims (16)

A method of updating system information of a terminal in a communication system using a bandwidth extension technique extended by at least one element carrier, Receiving a system information update message for an elementary carrier whose system information is updated from a cell through a downlink anchor carrier; Confirming the element carrier in an element carrier system information update field included in the system information update message; And receiving updated system information of the identified elementary carrier transmitted from the cell at the change period. The system according to claim 1, wherein the system information update message A paging message, or a system information block. 3. The method of claim 2, Further comprising the step of confirming an element carrier to be updated with the system information through the element carrier system information update field included in the paging message and receiving the updated system information of the element carrier in the next change period Information update method. 3. The method of claim 2, Confirming an element carrier to update the system information through the element carrier system information update field included in the system information block and receiving the updated system information of the element carrier at the current modification period How to update system information. 2. The method of claim 1, wherein the element carrier system information update field Wherein the bits are defined by bits corresponding to the number of element carriers included in the set of downlink carriers. 2. The method of claim 1, wherein the element carrier system information update field Wherein a binary log is applied to the number of element carriers included in the set of downlink carriers to define a number of ceiling bits. A terminal of a communication system to which a bandwidth extension technique extended by at least one element carrier is applied, A transmitting and receiving unit for transmitting and receiving signals; And Receiving a system information update message for an elementary carrier whose system information has been updated from a cell through a downlink anchor carrier, A controller for checking the element carrier in the element carrier information update field included in the system information update message and receiving and updating system information of the identified element carrier transmitted from the cell at the change period; . 8. The method of claim 7, wherein the system information update message A paging message, or a system information block. 9. The method of claim 8, Confirms an element carrier to update the system information through the element carrier system information update field included in the paging message, and receives and updates the system information of the element carrier at a next change period. 9. The method of claim 8, Wherein the system control unit checks an element carrier to update the system information through the element carrier system information update field included in the system information block and receives and updates the system information of the element carrier at the current change period. 8. The method of claim 7, wherein the element carrier < RTI ID = 0.0 > Wherein the bits are defined as bits corresponding to the number of element carriers included in the set of downlink carriers. 8. The method of claim 7, wherein the element carrier < RTI ID = 0.0 > Wherein a binary log is applied to the number of element carriers included in the set of downlink carriers to define a number of ceiling bits. A method of transmitting a system information update message of a base station, Confirming whether the system information is updated in each cell; Generating a system information update message including information indicating an element carrier whose system information is updated through the downlink anchor carrier when the system information is updated; And Transmitting the system information update message to a terminal; ≪ / RTI > 14. The method of claim 13, Wherein the system information update message is one of a paging message and a system information block. In the base station, A transmitting and receiving unit for transmitting and receiving signals; And Generates a system information update message including information indicating whether the system information is updated in each cell and indicates the element carrier whose system information has been updated via the downlink anchor carrier when the system information is updated, A control unit for controlling the transceiver to transmit a system information update message to a terminal; / RTI > 16. The method of claim 15, Wherein the system information update message is one of a paging message and a system information block.

Images