KR20110133395A - Method and apparatus for transmitting and receiving paging using band information in wireless communication system - Google Patents

Abstract

PURPOSE: A paging transmission and reception method using band information in a wireless communication system and apparatus thereof are provided to prevent the update of an unnecessary procedure by assuring the reception of a paging message in a band. CONSTITUTION: A control unit(701) creates a paging control message including paging carrier information and paging group information about a paging group. The control unit determines the paging carrier in order to transmit a paging message among the paging carriers of a band. The paging carrier information selects one or more paging carriers including the driving band of a base station. A transmission and reception apparatus transmits the paging control message to an idle mode. The transmission and reception apparatus transmits the paging message through the determined paging carrier.

Description

Method and apparatus for paging transmission and reception using band information in wireless communication system {METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING PAGING USING BAND INFORMATION IN WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a wireless communication system, and more particularly, to a method and apparatus for transmitting and receiving a paging message in a wireless communication system (hereinafter referred to as a frequency overlay communication system) using a frequency overlay (Frequency Overlay) method. .

As the communication system develops, the types of services provided are also diversified, and the necessity of research and development on broadband communication systems for providing these various kinds of services through broadband is on the rise. Frequency resources in a broadband communication system are limited. That is, since the usable frequency band is limited and backward compatibility with already installed communication systems must also be considered, broadband communication systems have a difficult design.

Existing broadband communication systems are designed under the basic assumption that different frequency bands are allocated and used to provide various kinds of broadband services. As communication technology advances, an increasing demand for frequency bands for broadband services is inevitable, thereby increasing the license cost for the use of the frequency band. Therefore, due to the increase in the license cost for the frequency band, various methods proposed for providing the actual broadband service are not served and are delayed.

Therefore, there is a need for a scheme for smoothly providing broadband services while overcoming the limitation of the frequency band, that is, solving the problem of increasing the license cost for the frequency band. One such scheme is a broadband communication system overlaid in a specific frequency band with an existing communication system, for example, code division multiple access 2000 3x (CDMA2000 3x) communication system and overlay orthogonal frequency division. Orthogonal Division Multiple Access (hereinafter referred to as "OFDM") communication systems and the like have been considered. In this case, a new definition is required for the transmission and reception of a paging message transmitted and received between a mobile station (MS) and each base station (BS) of a broadband communication system overlaid on a specific frequency band.

The present invention provides a method and apparatus for transmitting and receiving a paging message in a frequency overlay broadband communication system.

The present invention provides a method and apparatus for transmitting a paging message according to a band supported by a terminal.

The present invention provides a method and apparatus for determining a paging carrier using band information on a band supported by a terminal.

According to a preferred embodiment of the present invention, a method for transmitting paging by a base station operating a plurality of frequency bands in a wireless communication system,

Transmitting a paging control message including paging group information on a paging group to which the base station belongs and paging carrier information for each band indicating at least one paging carrier included in a band operated by the base station, to a terminal in an idle mode; And determining a paging carrier to transmit a paging message among paging carriers of a band supported by the terminal, and transmitting the paging message for the terminal through the determined paging carrier.

According to another embodiment of the present invention, a method for receiving paging from a base station operating a plurality of frequency bands in a wireless communication system,

Receiving a paging control message including paging group information about a paging group to which the base station belongs and paging carrier information for each band indicating at least one paging carrier included in a band operated by the base station; Determining a paging carrier to be monitored to receive a paging message among paging carriers in a band, and receiving the paging message for the terminal from the base station through the determined paging carrier.

An apparatus according to an embodiment of the present invention is a device in a base station which operates a plurality of frequency bands in a wireless communication system and transmits paging for an idle mode terminal.

A paging control message including paging group information about a paging group to which a base station belongs and paging carrier information for each band indicating at least one paging carrier included in a band operated by the base station; A controller for determining a paging carrier to transmit a paging message among the paging carriers, and a transceiver for transmitting the paging control message to the terminal in the idle mode, and transmits the paging message for the terminal through the determined paging carrier.

An apparatus according to another embodiment of the present invention is a device in a terminal for receiving paging from a base station operating a plurality of frequency bands in a wireless communication system,

A transceiver for receiving a paging control message and a paging message from a base station, and band-by-band indicating paging group information for a paging group to which the base station belongs and at least one paging carrier included in a band operated by the base station from the paging control message. And a controller for acquiring paging carrier information, determining a paging carrier to be monitored to receive the paging message among paging carriers of a band supported by the terminal, and controlling the transceiver to monitor the determined paging carrier.

The present invention can prevent the overhead caused by using a band class that the terminal does not support, and can effectively distribute the paging load between carriers in the base station. In addition, while providing the effect of reducing the paging message overhead according to the operation of the paging carrier, it is possible to prevent the unnecessary location update procedure by ensuring the reception of the paging message in the band supported by the terminal.

1 is a diagram schematically illustrating an allocation structure of bands and carriers in a frequency overlay communication system.
2 is a message flow diagram illustrating an operation of a terminal selecting a paging carrier in a frequency overlay communication system.
3 is a message flow diagram illustrating an operation of transmitting band information of a terminal during an idle mode entry procedure according to an embodiment of the present invention.
4 is a message flow diagram illustrating an operation of transmitting a paging indication during a paging listening interval according to an embodiment of the present invention.
5 is a message flow diagram illustrating an operation of a terminal selecting a paging carrier and receiving a paging message in a paging listening interval according to an embodiment of the present invention.
6A and 6B are flowcharts illustrating an operation of a base station transmitting a paging message using band information of a terminal according to an embodiment of the present invention.
7 is a block diagram briefly illustrating a configuration of a base station according to an embodiment of the present invention.

Hereinafter, exemplary 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 of the present invention will be described, and other background art will be omitted so as not to distract from the gist of the present invention.

In this specification, in describing a paging transmission / reception operation in a wireless communication system, reference will be made to a communication standard based on IEEE 802.16e and 16m. However, the paging operation according to the present invention is not limited to a specific communication protocol or system configuration, and various modifications are possible within the scope without departing from the gist of the present invention, which will be apparent to those skilled in the art. Im sure.

1 is a diagram schematically illustrating an allocation structure of a band and a carrier in a frequency overlay communication system.

Referring to FIG. 1, a communication system operates in two frequency bands, namely band A 100 and band B 103. As an example, band A 100 may have a center frequency of 2.5 GHz, and band B 103 may have a center frequency of 3.5 GHz. The communication system includes a base station 1 (111) and a base station 2 (151), the base station 1 (111) is a carrier belonging to the band A (100) C1 113, C2 (115), C3 (117) and the band Carriers C4 119, C5 121, C6 123, and C7 125 belonging to B 103 are operated. Base station 2 151 is a carrier belonging to the band A (100), C1 (153), C2 (155), C3 (157) and carriers belonging to the band B (103) C4 (159), C5 (161), C6 163, C7 (165).

Each base station operates some pre-scheduled carriers as paging carriers in order to alleviate the burden on the terminal in idle mode to monitor all carriers for reception of a paging message. In the example shown, base station 1 111 uses C1 113, C3 117, C4 119, C5 121, and C6 123 as paging carriers, and base station 2 151 uses C1 ( 153, C2 155, C3 157, C4 159, and C7 165 are used as paging carriers. Base station 1 111 or base station 2 151 transmits a paging message only through paging carriers when paging is requested from a higher system. These paging carriers have been introduced to prevent duplicate paging messages from being transmitted in all carriers of base stations. Among the paging carriers, a paging carrier to which the terminal receives its paging message is selected through a predetermined operation.

2 is a message flow diagram illustrating an operation of a terminal selecting a paging carrier in a wireless communication system.

Referring to FIG. 2, the terminal 201 is in an idle mode, and the base station 251 operates carriers C1, C2, C3, C4, C5, C6, and C7, among which C1 and C3. , C4, C5, C6 are used as paging carriers.

In step 211, the base station 251, at a predetermined position in a paging listening interval according to a paging cycle, paging control message for advertising the paging group supported by the base station 251, that is, A paging group information (PGID_Info) message is transmitted to the terminals in the idle mode. The PGID_Info message may be transmitted on all carriers configured in the base station 251, all paging carriers, or carriers indicated by an upper system. In particular, the PGID_Info message includes information on at least one paging carrier operated by the base station, that is, paging carrier information. As an example, the PGID_Info message may include a number of PGIDs included in the PGID_Info message, a paging group identifier of a paging group to which the base station transmitting the PGID_Info message, and a paging carrier indication bit indicating whether each carrier in the base station is a paging carrier. Contains a map. The paging carrier indication bitmap has the same size as the number of carriers operable in the base station, and the bits in the bitmap correspond to the operable carriers, respectively. The number of paging carriers is equal to the number of bits set to '1' in the bitmap.

In step 213, the terminal 201 in the idle mode obtains paging carrier information of the base station 251 for identifying a paging carrier to receive a paging advertisement (PAG-ADV) message from the PGID_Info message. The paging carrier information includes, for example, a paging carrier indication bitmap indicating at least one carrier to be used as a paging carrier among carriers of the base station 251. In the illustrated example, paging carrier information indicates C1, C3, C4, C5, C6 of carriers C1 to C7.

In step 215, the terminal 201 determines a paging carrier to monitor the paging message during the paging listening interval, according to a predetermined equation. As an example, the equation used to determine the paging carrier is shown in Equation 1 below.

Here, the DID (Deregistration Identifier) is a deregistration identifier uniquely assigned to identify the UE in the idle mode, N denotes the number of paging carriers operated by the base station, and 'mod' denotes a modulo operation. The DID is allocated when the terminal enters the idle mode, that is, upon deregistration, and N is obtained from the paging carrier information of the PGID_Info message.

For example, when the DID of the terminal 201 is '237', since the number of paging carriers operated by the base station 251 is five, the paging carrier of the terminal 201 is determined as C4.

In step 217, the terminal 201 receives a paging message, that is, a paging advertisement (PAG-ADV) message, for paging the terminal 201 at the determined paging carrier C4. As an example, the PAG-ADV message is transmitted according to an Advanced Air Interface (AAI) according to IEEE 802.16m. The PAG-ADV message includes paged MS Info indicating whether each of the terminals of the paging group has been paged. For example, the paged terminal information includes a DID and an action code, and the terminal performs network reentry or ranging for location update by the action code. Instruct it to do it.

Since the PAG-ADV message is transmitted through only one carrier, unlike the PGID_Info message, the terminal 201 selects and monitors one of all paging carriers operated by the base station 251 as described above.

However, if the base station 251 operates band A and band B having different band characteristics, and the terminal 201 does not support both band A and band B and supports only one band, for example, band A, Even if C4 is selected by the above equation, the terminal 201 cannot perform the transmission / reception operation in C4. Therefore, the terminal 201 does not receive a paging message for itself. In this case, the terminal 201 should perform a location update procedure at the base station 251 to inform the base station 1 251 and the higher system, that is, the paging control station, of the paging carrier preferred by the terminal 201. The paging message for the terminal 201 is then sent over the preferred paging carrier.

As described above, when there is a restriction on the band to which the terminal can access, overhead for performing a location update procedure occurs, and as shown in the structure of FIG. Problems can occur that do not distribute properly.

In order to solve this problem, in the following embodiment, the paging carrier is determined using band information on a band supported by the terminal. The band information of the terminal is stored and managed by the paging control station when the terminal enters the idle mode. The idle mode entry procedure may be performed in an MS-initiated or BS-initiated manner.

3 is a message flow diagram illustrating an operation of transmitting band information of a terminal during an idle mode entry procedure according to an embodiment of the present invention. Here, it is assumed that the terminal 301 supports band A managed by the base station 331.

Referring to FIG. 3, in step 311, the terminal 301 completes transmission and reception of data through the C1 of the base station 331 and transmits a Deregistration Request (DREG-REQ) message for entering the idle mode. In step 313, the base station 331 transmits a state change request (State Change REQ) message for requesting an idle mode entry (IM Entry) of the terminal 301 to the paging control station 341. The state change request message includes band information supported by the terminal 301. In the illustrated example, the band information indicates band A, which is a band in which the terminal 301 performs an idle mode entry. In another embodiment, the state change request message may indicate all bands supported by the terminal 301. That is, when the terminal 301 supports band C in addition to band A, information of band A and band C may be included in the terminal state change request message.

In step 315, the paging control station 341 transmits a State Change RSP message to the base station 331 in response to the state change request message. The state change response message may include band information of the terminal 301 transmitted through the state change request message.

In step 317, the base station 331 transmits a Deregistration Response (DREG-RSP) message to the terminal 301 to indicate that the idle mode entry procedure is completed. In step 319, the terminal 301 responds to the deregistration response. Follow the prompts to transition to Idle mode. In step 321, the base station 1 331 transmits a state change acknowledgment message to the paging control station 341. In operation 323, the paging control station 341 may include paging information of the terminal 301, for example, a paging cycle, a paging offset, a DID, a paging group, and context information. band information is managed together with the " The band information is stored in the paging control station 341 to be utilized when paging the terminal 301.

In FIG. 3, the UE-initiated idle mode entry procedure will be described. However, the BS-initiated idle mode entry procedure can also be exchanged between the base station and the paging control station through a similar operation. That is, the base station exchanges band information indicating a band supported by the terminal with the paging control station before transmitting the deregistration response (DREG-RSP) message for entering the idle mode to the terminal.

Subsequently, when paging of the terminal is required, the base station refers to the band information of the terminal obtained from the paging control station, and indicates a paging carrier per band indicating a paging carrier belonging to a band supported by the terminal, not all bands operated by the base station. Information is provided to the terminal in advance. The paging message for the terminal is then transmitted on the paging carrier selected in the band supported by the terminal. The paging carrier information for each band is transmitted through a paging control message, for example, a PGID_Info message, before transmission of a paging message.

4 is a diagram illustrating a signal flow for transmitting a paging instruction for a terminal in a paging listening interval according to an embodiment of the present invention. Here, it is assumed that the terminal 401 supports the band A operated by the base station 1 431 and the base station 2 435, and the base station 3 432 operates a band other than the band A.

Referring to FIG. 4, in step 411, 413, and 415, the paging control station 441 sends a paging announce message to notify the terminal 401 in idle mode to transmit a paging advertisement (PAG-ADV) message. 441 transmits to base station 1 431, base station 2 433, and base station 3 435. In particular, the paging indication message includes band information on a band in which the paging advertisement message is transmitted. The band information included in the paging instruction message is the same as the band information managed by the paging control station 441 for the terminal 401. For example, the band information may be stored in the paging control station 441 by the procedure of FIG. 3.

When a paging control station 441 is requested for paging for the terminal 401, the paging control station 441 retrieves the stored band information for the terminal 401, generates the paging instruction message including the band information, and generates the generated paging instruction The message is transmitted to base stations belonging to the paging group managed by the user. If there is no band information stored for the terminal 401, the paging control station 441 acquires by querying the band information to another paging control station that stores the band information for the terminal 401. do.

The base station 1 431, the base station 2 433, and the base station 3 435 have a PGID_Info message and a PAG-ADV message according to the information of the terminal 401 indicated by the paging instruction message and the band information to which the terminal 401 belongs. Configure That is, each base station 431, 433, 435 selects a band supported by the terminal 401 from at least one band operated by the base station 431, and selects a carrier to be used as a paging carrier among carriers belonging to the selected band. Thereafter, in step 417, 419, 421, a PGID_Info message including paging group information of each base station and paging carrier information for each band is transmitted from each base station to the terminal 401.

For example, the paging carrier information for each band may include a number of bands operated by a base station, a number of carriers included in each band operated by the base station, and a bitmap indicating a paging carrier among carriers in each band. It can be composed of). Accordingly, there are as many bitmaps as there are bands in operation, and the size of each bitmap is the same as the number of carriers included in the corresponding band, and the bit set to '1' indicates a paging carrier among carriers included in the corresponding band. it means.

As another example, the PGID_Info message may include only paging carrier information of the same band, that is, a band to which a carrier to which the PGID_Info message is transmitted belongs. The paging carrier information is composed of a bitmap (Bitmap_Band) indicating a paging carrier among the carriers in the band, the size of the bitmap is the same as the number of carriers included in the band, the bit set to '1' It means a paging carrier among the carriers included in the band. At this time, the base station individually configures a PGID_Info message for each band and transmits a PGID_Info message corresponding to the band from carriers in the band. The terminal receives the PGID_Info message from a carrier belonging to a band supported by the terminal, and the PGID_Info message includes only paging carrier information belonging to the band. That is, the PGID_Info message includes paging carrier information of a band through which the PGID_Info message is transmitted, that is, a band supported by the terminal.

In this case, since the terminal 401 supports a band operated by the base station 1 431 and the base station 3 435, the terminal 401 receives the PGID_Info message transmitted from the base station 1 431 or the base station 3 435. . As another embodiment, the base station 2 433 may determine from the band information that the terminal 401 does not support the band operated by the base station, and may decide not to transmit the PGID_Info message and the PAG-ADV message.

After the PGID_Info message is transmitted, in step 423, 425, and 427, the base station 1 431, the base station 2 433, and the base station 3 435 transmit a PAG-ADV message on each of the selected paging carriers. The PAG-ADV message includes only information of the terminal 401 determined to receive the PAG-ADV message on each selected paging carrier. In this case, since the terminal 401 supports a band operated by the base station 1 431 and the base station 3 435, the terminal 401 receives the PAG-ADV message from the paging carrier selected by the base station 1 431 or the base station 3 435. .

5 is a message flow diagram illustrating an operation of a terminal selecting a paging carrier and receiving a paging message in a paging listening interval according to an embodiment of the present invention. Here, the base station 531 operates two bands, band A and band B, band A includes carriers C1, C2, and C3, and band B includes carriers C4, C5, C6, and C7. In addition, carriers C1 and C3 belonging to band A are used as paging carriers of band A, and carriers C4, C5 and C6 belonging to band B are used as paging carriers of band B.

Referring to FIG. 5, in step 511, the paging control station 541 transmits a paging indication message to the base station 531 instructing the terminal 501 to transmit a paging message, that is, a PAG-ADV message. As described above, the paging instruction message includes a band index indicating a band supported by the terminal 501, for example, band A.

In step 513, the base station 531 recognizes that the terminal 501 supports band A through the paging indication message. Then, the base station 531 determines the paging carrier of the terminal 501 according to a predetermined equation. As an example, the equation used to determine the paging carrier is shown in Equation 2 below.

Here, the DID is an identifier uniquely assigned to identify the UE in the idle mode, and N_Band means the number of paging carriers of the corresponding band. The terminal 501 may recognize N_Band from paging carrier information of each band of a band supported by the terminal 501. For example, when the DID of the terminal 501 is '237', since the number of paging carriers of the band A supported by the terminal 501 is two, the paging carrier of the terminal 501 is determined to be C3.

In step 515, the base station 531 transmits a paging control message, that is, a PGID_Info message. The PGID_Info message includes paging group information of the base station 531 and paging carrier information for each band. As an example, the paging carrier information for each band includes a bitmap '101' for band A and a bitmap '1110' for band B. As another example, the PGID_Info message may include paging carrier information of the same band. That is, the paging carrier information for each band of the PGID_Info message transmitted by the carrier belonging to the band A includes a bitmap '101' for the band A, and the paging carrier information for each band of the PGID_Info message transmitted by the carrier belonging to the band B Includes a bitmap '1110' for the band B. The terminal 501 may receive the PGID_Info message through a carrier belonging to a band to which it is connected, that is, C1.

In step 517, the terminal 501 obtains information of paging carriers C1 and C3 operated by the base station 531 in band A supported by the terminal 501 from band-specific paging carrier information included in the PGID_Info message. In step 519, the terminal 501 determines a paging carrier C3 to receive a paging message by using the same pre-expression equation used in the base station 531, for example, Equation 2, and determines the determined paging carrier. Monitor. In step 521, the terminal 501 receives a paging message transmitted from the base station 531, that is, a PAG-ADV message, on the paging carrier C3.

6A and 6B are flowcharts illustrating operations of a base station transmitting a paging message using band information of a terminal according to an embodiment of the present invention.

Referring to FIG. 6A, the base station performs a network entry procedure with the terminal in step 601 and obtains band information about a band supported by the terminal in step 603. The base station performs data transmission and reception with the terminal in step 605, and determines in step 607 whether the terminal performs an idle mode entry procedure for transitioning to the idle mode. The idle mode entry procedure includes a process of exchanging a deregistration request (DREG-REQ) message and a deregistration response (DREG-RSP) message between the terminal and the base station. If it is determined that the terminal performs the idle mode entry procedure, in step 609, the base station transmits paging information and band information of the terminal to the paging control station. The paging information and band information are transmitted in a state change request / response / acknowledge message exchanged between the base station and the paging control station. After the terminal is deregistered, the base station performs a general base station operation such as transmitting and receiving data with another terminal in the active mode in step 611.

Thereafter, in step 613 of FIG. 6B, the base station determines whether a paging instruction message is received from the paging control station while performing a normal base station operation. The paging indication message includes paging information and band information of a terminal to which the base station transmits a paging message. In this case, the terminal to which the paging message is to be transmitted may be the same terminal or a different terminal as the terminal that performed the idle mode entry procedure in step 607.

When the paging instruction message is received, the base station acquires band information of the terminal from the paging instruction message in step 615. Therefore, even if the terminal indicated by the paging has not performed the idle mode entry procedure in the base station, the base station may receive the band information of the terminal from the paging control station. In step 617, the base station determines whether the terminal supports a band operated by the base station. If the terminal supports a band operated by the base station, in step 619, the base station determines at least one paging carrier to be used in the band, and the terminal monitors for the reception of the paging message by using a predetermined equation. Determine the paging carrier. Thereafter, the base station transmits paging carrier information for each band indicating at least one paging carrier determined for the band in a paging control message to the terminal in step 621, and transmits the paging carrier message to the terminal through the paging carrier determined for the terminal in step 623. Send a paging message.

Operations according to the embodiment of the present invention described above can be realized by having a memory device storing a corresponding program code in a base station and a terminal. That is, the base station and the terminal read and execute the program codes stored in the memory device by a controller configured by a processor or a central processing unit (CPU), and execute the above-described operation by transmitting and receiving necessary information to and from each other through a transceiver.

In a specific embodiment, the base station may include a controller (which may be composed of a processor or a central processor unit (CPU)) for generating a paging control message and a paging message and interpreting a paging indication message; At least one band transceiver for transmitting a paging message. Similarly, the terminal interprets the paging control message and the paging message and checks whether or not it is paged (can be configured as a processor or a CPU) and at least one band for receiving the paging control message and the paging message according to the control of the controller. It includes a transceiver.

7 is a block diagram briefly illustrating a configuration of a base station according to an embodiment of the present invention.

Referring to FIG. 7, the controller 701 receives a paging instruction message from a paging control station, which is an upper system, obtains terminal information and band information included in the paging instruction message, and stores the terminal information and band information in the memory 703. And generates a paging control message and a paging message for the terminal according to the band information. In addition, the controller 701 determines a paging carrier to transmit a paging message for the terminal in a band supported by the terminal according to the band information. The paging control message is transmitted through band transceivers 705 and 709 operated by a base station, and the paging message is transmitted through a paging carrier for the terminal selected by the controller 701 after the paging control message is transmitted.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (20)

A method for transmitting paging by a base station operating a plurality of frequency bands in a wireless communication system,
Transmitting a paging control message including paging group information on a paging group to which the base station belongs and paging carrier information for each band indicating at least one paging carrier included in a band operated by the base station, to a terminal in an idle mode;
Determining a paging carrier to transmit a paging message among paging carriers of a band supported by the terminal;
And transmitting the paging message for the terminal through the determined paging carrier.
The method of claim 1, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers included in a band operated by the base station.
The method of claim 1, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers belonging to a band to which the paging control message is transmitted among a plurality of bands operated by the base station.
The method of claim 1, wherein the determining
The result of performing a modulo operation on the deregistration identifier (DID) for identifying the terminal with the number of paging carriers (N_Band) of the band supported by the terminal is used as a paging carrier index of the paging carrier to which the paging message is to be transmitted. Determining a paging transmission method.
The paging transmission method of claim 1, further comprising, before transmitting the paging control message, receiving band information indicating a band supported by the terminal from a paging control station.
The method of claim 1,
Obtaining band information indicating a band supported by the terminal when the terminal enters a network;
And transmitting the band information to the paging control station through a state change request message so that the paging control station stores the band information when entering the idle mode of the terminal.
A method for receiving paging from a base station operating a plurality of frequency bands in a wireless communication system,
Receiving a paging control message including paging group information on a paging group to which the base station belongs and band-specific paging carrier information indicating at least one paging carrier included in a band operated by the base station;
Determining a paging carrier to be monitored for receiving a paging message among paging carriers of a band supported by the terminal;
And receiving the paging message for the terminal from the base station through the determined paging carrier.
The method of claim 7, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers included in a band operated by the base station.
The method of claim 7, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers belonging to a band to which the paging control message is transmitted among a plurality of bands operated by the base station.
The method of claim 7, wherein the determining process,
The result of performing a modulo operation on the deregistration identifier (DID) for identifying the terminal with the number of paging carriers (N_Band) of the band supported by the terminal is used as a paging carrier index of the paging carrier to which the paging message is to be transmitted. Determining the paging reception method.
An apparatus in a base station operating a plurality of frequency bands in a wireless communication system and transmitting paging for a terminal in idle mode,
A paging control message including paging group information about a paging group to which a base station belongs and paging carrier information for each band indicating at least one paging carrier included in a band operated by the base station; A controller for determining a paging carrier to transmit a paging message among the paging carriers;
And a transceiver for transmitting the paging control message to an idle mode terminal and transmitting the paging message for the terminal through the determined paging carrier.
The method of claim 11, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers included in a band operated by the base station.
The method of claim 11, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers belonging to a band to which the paging control message is transmitted among a plurality of bands operated by the base station.
The method of claim 11, wherein the controller,
The result of performing a modulo operation on the deregistration identifier (DID) for identifying the terminal with the number of paging carriers (N_Band) of the band supported by the terminal is used as a paging carrier index of the paging carrier to which the paging message is to be transmitted. Determining the paging transmission device.
The method of claim 11, wherein the transceiver,
And a band information indicating a band supported by the terminal from a paging control station before transmitting the paging control message.
The method of claim 11, wherein the controller,
In order to obtain band information indicating a band supported by the terminal when the terminal enters the network, and to allow a paging control station to store the band information when entering the idle mode of the terminal, the band information is transmitted through a state change request message. And a paging transmission apparatus, transmitting to the paging control station.
An apparatus in a terminal for receiving paging from a base station operating a plurality of frequency bands in a wireless communication system,
A transceiver for receiving a paging control message and a paging message from a base station;
From the paging control message, to obtain the paging group information for the paging group to which the base station belongs and the paging carrier information for each band indicating at least one paging carrier included in the band operated by the base station, the band of the band supported by the terminal And a controller for determining a paging carrier to be monitored for receiving the paging message among the paging carriers and controlling the transceiver to monitor the determined paging carrier.
The method of claim 17, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers included in a band operated by the base station.
The method of claim 17, wherein the paging carrier information for each band,
And a bitmap indicating at least one paging carrier among carriers belonging to a band through which the paging control message is transmitted among a plurality of bands operated by the base station.
The method of claim 17, wherein the controller,
The result of performing a modulo operation on the deregistration identifier (DID) for identifying the terminal with the number of paging carriers (N_Band) of the band supported by the terminal is used as a paging carrier index of the paging carrier to which the paging message is to be transmitted. Determining the paging receiving device.

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