KR20110032981A - Method and apparatus for supporting short messaging service of mobile station during idle mode in wireless communicaion system - Google Patents

Abstract

PURPOSE: A method and an apparatus for transmitting an SMS message regardless of a ranging procedure in an idle mode terminal are provided to transmit data regardless of unnecessary state transition between an idle mode and a connection mode. CONSTITUTION: A terminal transits to the paging listening interval of an idle mode(201,205). A base station transmits a paging message including terminal information(207). The terminal transmits a ranging code(209). The terminal receives a ranging code response message(211). The terminal transmits a ranging request message including a pointer(213). The pointer informs location update registration performance.

Description

TECHNICAL AND APPARATUS FOR SUPPORTING SHORT MESSAGING SERVICE OF MOBILE STATION DURING IDLE MODE IN WIRELESS COMMUNICAION SYSTEM}

The present invention relates to a wireless communication system, and more particularly, to a method and apparatus for transmitting a short message in a wireless communication system supporting an idle mode terminal.

In the 4th Generation (hereinafter referred to as '4G') communication system, which is the next generation communication system, research and commercialization are being conducted to provide various services to users with a transmission speed of about 100 Mbps or more. In particular, current 4G communication systems include mobility in a broadband wireless access (BWA) communication system such as a wireless local area network (LAN) system and a wireless metropolitan area network (MAN) system. Research is being conducted to support high-speed services while guaranteeing quality of service (QoS) and quality of service (QoS), and the representative communication system is IEEE (Institute of Electrical and Electronics Engineers) 802.16 communication system.

According to the IEEE 802.16 communication system standard, when there is no traffic to transmit and receive for a predetermined time, the mobile station operates in an idle mode to minimize power consumption. The terminal wakes up during a paging listening interval in an idle mode and receives a paging message. Since the paging message has downlink data to be transmitted to the terminal in the idle mode, the paging message instructs the network re-entry operation to transition from the idle mode to the connected state, or updates the location registration to the terminal in the idle mode. location information), and so on. The downlink data includes short message information to be transmitted to the idle mode terminal. When the short message of the terminal is waiting, the base station should instruct the terminal to perform network re-entry operation using a paging message.

Meanwhile, in the IEEE 802.16m communication system, when a short message needs to be transmitted to the terminal in the idle mode, the terminal may receive the short message without a transition procedure from the idle mode to the connected mode. A procedure for supporting a short message transmission to the idle mode terminal defined in the IEEE 802.16m communication system will be described with reference to FIG. 1.

1 illustrates a short message transmission from a base station to an idle mode terminal in a wireless communication system.

Referring to FIG. 1, while the terminal 100 is performing the paging non-listening interval operation in the idle mode (step 101), the short message to the terminal 100 arrives at the base station 150 (step 103). . In step 105, the paging listening interval operation of the terminal 100 is performed, and in step 107, the base station 150 transmits a paging message including the terminal 100 information. The paging message of step 107 includes information instructing the terminal 100 to perform a location registration update procedure. Upon receiving the paging message including the location registration update procedure execution instruction information in step 107, the terminal 100 transmits a ranging code to the base station (step 109). The terminal 100 receives a response message for the ranging code transmitted in step 109 from the base station 150 (step 111). The terminal 100 transmits a ranging request message including an indicator indicating that the location update registration procedure is performed to the base station 150 (step 113). After receiving the ranging request message from the terminal 100 in step 113, the base station 150 transmits a ranging response message including the short message information (step 115).

In the IEEE 802.16m described with reference to FIG. 1, a method of transmitting a short message to an idle mode terminal utilizes a ranging message used in the ranging procedure, but a method of combining the ranging procedure and the short message may include: There is a need for a method for transmitting a short message to the idle mode terminal regardless of the ranging procedure in terms of complicated processing of the idle mode terminal.

An object of the present invention is to provide a method for processing a short message transmission of a terminal in an idle mode.

According to a first aspect of the present invention for achieving the above object, in a method of operating a base station for providing a Short Message Service (SMS) in a wireless communication system, the paging listening interval of the terminal in the idle mode; Requesting the terminal to perform a location registration update procedure for receiving a short message, informing the terminal of the short message transmission during the location registration update procedure, and after the location registration update procedure, transmitting the short message to the terminal. It characterized in that it comprises a process of transmitting to.

According to a second aspect of the present invention for achieving the above objects, a method of operating a terminal in an idle mode for providing a short message service (SMS) in a wireless communication system, the short message from the base station to the paging listening section; Receiving a request to perform a location registration update procedure for receiving a message, receiving a short message transmission from the base station during the location registration update procedure, and after the location registration update procedure, receiving the short message from the base station. It characterized in that it comprises a process of receiving.

According to a third aspect of the present invention for achieving the above object, in a method of operating a base station for providing a short message service (SMS) in a wireless communication system, the short message from a terminal to transmit a short message Receiving a request for a location registration update procedure for receiving, receiving the short message from the terminal after the location registration update procedure, and transmitting an ACK message for receiving the short message to the terminal. It is characterized by.

According to a fourth aspect of the present invention for achieving the above objects, in a terminal operation method for providing a short message service (SMS) in a wireless communication system, when a short message transmission event occurs, Requesting a location registration update procedure for transmitting the short message, transmitting the short message to the base station after the location registration update procedure, and receiving an ACK message for the transmitted short message from the base station It characterized in that it comprises a process.

According to a fifth aspect of the present invention for achieving the above objects, a base station apparatus for providing a short message service (SMS) in a wireless communication system, the paging listening interval of the terminal in the idle mode; Requesting the terminal to perform a location registration update procedure for receiving a short message, and during the location registration update procedure, a control unit for notifying the terminal of the short message transmission, and after the location registration update procedure, transmitting the short message to the terminal. And a transmitter.

According to a sixth aspect of the present invention for achieving the above objects, in a terminal device in an idle mode for providing a short message service (SMS) in a wireless communication system, a short message is transmitted from a base station to a paging listening section. A control unit is required to perform a location registration update procedure for reception, and receives a short message from the base station during the location registration update procedure, and a receiving unit receives the short message from the base station after the location registration update procedure. Characterized in that it comprises a.

According to a seventh aspect of the present invention for achieving the above objects, in a base station apparatus for providing a short message service (SMS) in a wireless communication system, receiving a short message from a terminal to transmit a short message Receiving a request for a location registration update procedure for a message, and receiving the short message from the terminal after the location registration update procedure, and a transmitter for transmitting an ACK message for receiving the short message to the terminal. do.

According to an eighth aspect of the present invention for achieving the above objects, in a base station apparatus for providing a short message service (SMS) in a wireless communication system, receiving a short message from a terminal to transmit a short message Receiving a request for a location registration update procedure for a message, and receiving the short message from the terminal after the location registration update procedure, and a transmitter for transmitting an ACK message for receiving the short message to the terminal. do.

According to a ninth aspect of the present invention for achieving the above objects, in a method for operating a terminal for processing a short message service (SMS) in a wireless communication system, a short message is received through a ranging response message. When the timer is driven, while the timer is being driven, whether the uplink resource is allocated for transmitting the ACK message for the short message, and when the uplink resource is allocated for the ACK message transmission; Stopping the timer and transmitting the ACK message.

According to a tenth aspect of the present invention for achieving the above objects, in a method of operating a base station for processing a Short Message Service (SMS) in a wireless communication system, a short message is transmitted through a ranging response message. And driving a timer, allocating an uplink resource for transmitting an ACK message for the short message, and receiving and processing an ACK message for the short message while driving the timer. do.

According to an eleventh aspect of the present invention for achieving the above objects, in a terminal operating method for processing a short message service (SMS) in a wireless communication system, when a short message to be transmitted in an idle mode occurs, Driving a timer and receiving an uplink resource allocation necessary for transmitting the short message; transmitting a short message using the allocated uplink resource; and receiving an ACK message for the short message. Characterized in that.

According to a twelfth aspect of the present invention for achieving the above objects, in a base station operation method for processing a short message service (SMS) in a wireless communication system, uplink resource allocation required for short message transmission And driving a timer, checking whether the short message is received while driving the timer, and stopping the timer and transmitting an ACK message for the short message when receiving the short message. Characterized in that it comprises a.

According to a thirteenth aspect of the present invention for achieving the above objects, in a terminal apparatus for processing a short message service (SMS) in a wireless communication system, upon receiving a short message through a ranging response message, A timer for driving a timer, and during operation of the timer, a controller for confirming whether to allocate an uplink resource for transmitting an ACK message for the short message, and stopping the timer when receiving an uplink resource for transmitting the ACK message; It characterized in that it comprises a transmitter for transmitting the ACK message.

According to a fourteenth aspect of the present invention for achieving the above objects, in a base station apparatus for processing a short message service (SMS) in a wireless communication system, when transmitting a short message through a ranging response message, And a controller for driving a timer, allocating an uplink resource for transmitting an ACK message for the short message, and a receiver for receiving and processing an ACK message for the short message while driving the timer.

According to a fifteenth aspect of the present invention for achieving the above objects, in a terminal apparatus for processing a short message service (SMS) in a wireless communication system, when a short message to be transmitted in an idle mode occurs, a timer A control unit for driving an uplink resource allocation for transmitting the short message, a transmitter for transmitting a short message using the allocated uplink resource, and a receiver for receiving an ACK message for the short message. Characterized in that.

According to a sixteenth aspect of the present invention for achieving the above objects, in a base station apparatus for processing a short message service (SMS) in a wireless communication system, uplink resource allocation required for short message transmission, A timer for driving a timer, and during operation of the timer, a controller for checking whether the short message is received and a transmitter for stopping the timer and transmitting an ACK message for the short message when receiving the short message. It features.

As described above, the present invention provides a method for transmitting a short message to an idle mode terminal and a method for transmitting a short message from an idle mode terminal in a wireless communication system, thereby transmitting data without unnecessary state transition between idle mode and connected mode. There is an advantage to this.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, a method and apparatus for supporting a short message transmission to an idle mode terminal and a short message transmission from an idle mode terminal in a wireless communication system (eg, an IEEE 802.16m system) will be described.

2 illustrates a signal flow between a base station and a terminal when a short message is transmitted to an idle mode terminal in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the terminal 200 performs an idle mode paging listening operation in step 201, and then transitions to an idle mode paging listening period in step 205. Meanwhile, the base station 250 recognizes generation of a short message service (SMS) to be transmitted to the terminal 200 in the idle mode in step 203, and performs the paging listening interval operation in step 207. The paging message including the information of the 200) is transmitted. The paging message includes information instructing the terminal 200 to perform a location registration update procedure. Here, the instruction for performing the location registration update procedure corresponds to the instruction information for performing a general location registration update procedure. However, when the instruction information for separately performing the location registration update procedure for receiving a short message is defined separately, such instruction information is indicated. It may be included in the paging message of step 207.

The terminal 200 transmits a ranging code to the base station 250 in step 209, and receives a ranging code response message from the base station 250 in step 209. In step 213, the terminal 200 transmits a ranging request message including an indicator indicating that the location update registration procedure is performed to the base station 250. On the other hand, if the terminal 200 already knows the short message transmission information through the paging message of step 207, the indicator indicating that the location update registration procedure for the short message information to the ranging request message transmitted in step 213 It may include.

The indicator indicating that the location update registration procedure is performed for the short message information included in the ranging request message may use one bit of a Ranging purpose indicator which is a field of the ranging request message.

Ranging purpose indicator The presence of this item in the message indicates the following AMS action:
If Bit # 0 is set to 1, in combination with a serving BSID, it indicates that the AMS is currently attempting unprepared HO.
If Bit # 1 is set to 1, in combination with a paging controller ID, indicates that the AMS is attempting network reentry from idle mode to the ABS.
If Bit # 2 is set to 1, it indicates that the AMS is currently attempting prepared HO.
If Bit # 3 is set to 1, it indicates that the AMS is initiating the idle mode location update process.
Bit # 4: ranging request for emergency call setup. When this bit is set to 1, it indicates AMS action of Emergency Call process.
Bit # 5 is set to 1, it indicates that the AMS is initiating the idle mode location update process for short message service.

When bit # 0 of the "Ranging Purpose Indicator" is set to 1, the BSID indicates that the UE is currently attempting HO by combining with the serving BSID. When bit # 1 is set to 1, the UE combines with the Paging Controller ID. Indicates an attempt to reenter the network to the base station in idle mode, and if bit # 2 is set to 1, it indicates that the UE is currently attempting a ready handover, and if Bit # 3 is set to 1, the MS Indicates that Idle Mode Location Update process is performed. When Bit # 4 is set to 1, it indicates a terminal operation of an emergency call process. Finally, if Bit # 5 is set to 1, it indicates that the Idle Mode Location Update process for short message service is starting.

In step 215, the terminal 200 receives a ranging response message as a response to the ranging request message from the base station 250. The ranging response message includes an indicator indicating to the terminal 200 that it is a location update registration procedure for short message information. An indicator indicating that the location update registration procedure for the short message information indicates that there is a short message to be received by the terminal 200 in response to the location registration update procedure performed by the terminal 200.

An indicator indicating a location update registration procedure for short message information included in the ranging response message may utilize one bit of a location update response which is a field of the ranging response message.

Location update response 0x00 = Success of Location Update
0x01 = Failure of Location Update
0x02 = Reserved
0x03 = Success of location update and DL traffic pending
0x04: Success of location update for short message service

In addition, the ranging response message includes a terminal identifier (STID) used by the terminal 200 to receive a short message.

In step 217, the terminal 200 receives an L2 transmission message including the short message information from the base station 250. The L2 transmission message is encoded using the STID information received in step 215, and the header of the L2 transmission message includes a FID (Flow IDentifier) corresponding to a primary connection. In step 219, the terminal 200 transmits an ACK message to the base station 250 after receiving the L2 transmission message including the short message information. In step 221, the terminal 200 performs an idle mode operation. After receiving the ACK message from the terminal 200, the base station 250 releases the STID assigned to the terminal 200 and the primary connection, and manages the terminal 200 as an idle mode terminal.

3 is a signal flow diagram between a base station and a terminal when an idle mode terminal transmits a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, while performing an idle mode operation in step 301, the terminal 300 recognizes that a short message to be transmitted to the uplink is in a buffer in step 303. In step 305, the terminal 300 transmits a ranging code for access to the base station 350 to transmit the short message. In step 307, the terminal 300 receives a ranging code response message for the ranging code transmitted from the base station 350. In step 309, the terminal 300 transmits a ranging request message to the base station 350. The ranging request message includes an indicator indicating that a location update procedure for transmitting a short message is performed, and the indicator included in the ranging request message may be represented as shown in Table 1 below. Upon receiving the ranging request message including an indicator indicating that the location update procedure for transmitting the short message is performed, the base station 350 transmits the ranging response message to the terminal 300 in step 311. The ranging response message transmitted in step 311 includes an indicator for performing a location update procedure for transmitting a short message having a structure as shown in Table 2. The indicator for notifying the location update procedure is performed in response to the indicator indicating that the location update procedure is performed, and the base station 350 informs the terminal that it is ready to receive a short message to be transmitted.

In addition, the terminal 300 transmits a STID (terminal identifier) to be used for transmitting the short message through the ranging response message. In step 313, the terminal 300 transmits an L2 transmission message including the short message information to the base station 350. When the terminal 300 transmits the L2 transmission message, the terminal 300 uses the STID received in step 311 and the FID corresponding to the primary connection. In addition, in order to transmit the L2 transmission message, the terminal 300 should be allocated an uplink band from the base station 350. In this case, the STID and the FID corresponding to the primary connection are used. The base station 350 receives the L2 transmission message including the short message information from the terminal 300 and transmits an ACK message to the terminal 300 in step 315. After receiving the ACK message, the terminal 300 proceeds to step 317 to continuously perform an idle mode operation. In step 317, the base station 350 releases the STID allocated for the short message transmission of the terminal 300 and the FID corresponding to the primary connection, and then continues to manage the terminal 300 as an idle mode terminal.

4 illustrates an operation of a terminal receiving a short message in an idle mode in a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 4, the terminal is present in the paging non-listening interval of the idle mode in step 401. In step 403, the terminal determines whether it is time to transition to the paging listening section. If the terminal transitions to the paging listening section, the terminal proceeds to step 405 to receive a paging message in the paging listening section. As a result of the determination in step 403, if the time does not transition to the paging listening section, the paging non-listening section of step 401 is maintained.

In step 407, the terminal determines whether the corresponding information is included in the paging message. If the corresponding information is not included in the paging message, the terminal proceeds to step 401. In step 407, when the paging message includes the terminal information, the terminal proceeds to step 409 and determines whether the terminal information is a network re-entry instruction. If the network re-entry instruction is received in step 409, the terminal performs a network re-entry procedure in step 411, and terminates the idle mode in step 413. The network re-entry procedure performed in step 411 starts with the terminal performing a ranging procedure with the base station, and the network re-entry procedure is not related to the present invention, and thus a detailed description thereof will be omitted.

On the contrary, when the network reentry instruction is not received, the terminal determines whether the terminal information instructs to perform location registration update in step 415. When instructing the terminal to perform the location registration update procedure in step 415, the terminal performs a code-based ranging procedure to the base station in step 417. The ranging procedure corresponds to steps 209 to 211 of FIG. 2. In step 419, the terminal transmits a ranging request message to the base station, and the ranging request message includes information indicating that the terminal performs a location registration update procedure. In this case, the information of Table 1 may be included. In step 421, the terminal receives the ranging response message from the base station. In step 423, the terminal determines whether the short message indication information is included in the ranging response message. The short message indication information of step 423 is a location registration update execution indicator for transmitting the short message, and corresponds to the information of <Table 2>.

If the determination result of step 423 includes an indicator indicating that the short message is transmitted to the terminal, the ranging response message of step 421 includes STID information necessary for the terminal to receive the short message. In addition, the terminal recognizes that a primary connection has been established to receive the short message, and that a FID corresponding to the primary connection can be used.

In step 425, the terminal receives an L2 transmission message including the short message information. The L2 transmission message may be decoded using the STID and the FID corresponding to the primary connection. The terminal transmits an ACK message to the base station in step 427, and proceeds to step 401 to continue the idle mode operation.

As a result of the determination in step 423, if the short message information indicator is not included, the terminal proceeds to step 401 to continue the idle mode operation.

As a result of the determination in step 415, when the terminal does not instruct to perform the location registration update procedure, other defined procedures are performed (for example, step 401).

5 illustrates an operation of a base station transmitting a short message to a terminal in an idle mode in a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 5, in step 501, the base station recognizes that a short message to the terminal in the idle mode arrives in the message buffer. In step 503, the base station waits until a point corresponding to a paging listening period of the terminal. In step 505, the base station transmits a paging message instructing the terminal to perform a location registration update procedure in the paging listening interval of the terminal.

Thereafter, the base station waits for a location registration update procedure message (ranging request message) of the terminal in step 507 and determines whether a ranging request message including information indicating that the location registration update procedure is received from the terminal in step 509. . The ranging request message received from the terminal in step 509 may include the information of <Table 1>. The base station transmits a ranging response message in response to the ranging request message in step 511. The ranging response message includes an indicator (information in Table 2) indicating the transmission of a short message to the terminal and STID information of the terminal.

In step 513, the base station transmits an L2 transmission message including the short message information to the terminal. The base station receives an ACK message from the terminal in step 515, and recognizes that the terminal proceeds to the idle mode in step 517.

6 illustrates an operation of a terminal for transmitting a short message in an idle mode in a wireless communication system according to another embodiment of the present invention.

Referring to FIG. 6, the terminal stays in the idle mode in step 601 and determines whether a short message is generated in the buffer in step 603 (that is, when a short message is input by the user). If there is a short message to be transmitted by the terminal in step 603, the process proceeds to step 605 and the terminal performs a code-based ranging procedure to perform a location registration update procedure for transmitting the short message. Step 605 corresponds to steps 305 to 307 of FIG. 3. In step 607, the terminal transmits a ranging request message including indication information indicating that the location registration update procedure for transmitting the short message is performed. Instruction information indicating that the location registration update procedure for transmitting the short message corresponds to <Table 1>. The terminal receives a ranging response message from the base station in step 609. The ranging response message includes indication information indicating that the location registration update procedure for transmitting the short message corresponding to <Table 2> is included, and the STID information used by the terminal to transmit the short message. In step 611, the terminal transmits an L2 transmission message including the short message information. In this case, the terminal uses the STID and primary connection FID information included in the ranging response message of step 609 for an uplink band request / allocation procedure for transmitting the L2 transmission message. The terminal receives an ACK message from the base station in step 613, and proceeds to step 601 to continue the idle mode operation.

7 illustrates an operation of a base station for receiving a short message from a terminal in an idle mode in a wireless communication system according to another embodiment of the present invention.

Referring to FIG. 7, in step 701, the base station receives a ranging request message indicating that the location registration update procedure for short message transmission is performed. The ranging request message includes the information of <Table 1>. The base station recognizes that the terminal transmitting the ranging request message in step 703 is a terminal in the idle mode, and in step 705 a ranging response message including a location registration update procedure execution indicator for transmitting the short message to the terminal. Send. The indicator information corresponds to the information in Table 2. The base station transmits STID information to the ranging response message that the terminal uses for short message transmission. In addition, the base station is set by the primary connection for the terminal to send the short message information. In step 707, the base station receives an L2 transmission message including the short message information from the terminal. Before the step 707, the base station may perform an uplink band request / allocation procedure for the L2 transmission message transmitted by the terminal.

Thereafter, the base station transmits an ACK message to the terminal in step 709, and recognizes that the terminal continues to operate in the idle mode in step 711. In step 711, the base station releases the STID and primary connection allocated to the terminal in step 705.

In the above-described procedures of FIGS. 3, 6, and 7, it is assumed that an uplink band request and allocation procedure for transmitting an L2 transmission message including the short message information between the terminal and the base station is performed. Meanwhile, the base station can know in advance that the terminal will transmit an L2 transmission message including the short message information through a ranging request message transmitted by the terminal. In this case, the band allocation information for transmitting the L2 transmission message may be transmitted together with the ranging response message without the separate uplink band request and allocation procedure.

Meanwhile, when a short message and general downlink data to be transmitted to the idle mode terminal exist in the base station, the base station transmits a paging message indicating network re-entry in the paging listening interval of the idle mode terminal. After the network reentry procedure with the terminal is completed, the base station delivers the short message and general downlink data to the terminal. On the contrary, if there is a short message and general uplink data to be transmitted by the idle mode terminal, the terminal performs a network re-entry procedure to the base station, and then transmits the short message and general uplink data. The operation described above is not different from the transition operation to the connected state in the normal idle mode, and follows the network re-entry procedure performed at the state transition.

8 illustrates an apparatus for transmitting and receiving a short message from a terminal in an idle mode in a wireless communication system according to an embodiment of the present invention. The apparatus may be a base station or a terminal.

Referring to FIG. 8, the apparatus includes an RF processor 801, an ADC 803, an OFDM demodulator 805, a decoder 807, a message processor 809, a controller 811, and a message generator 817. , An encoder 819, an OFDM modulator 821, a DAC (Digital to Analog Converter) 823, and an RF processor 825. The RF processor 801 and the RF processor 825 may operate in a time division duplex (TDD) or frequency division duplex (FDD) mode. For example, when operating in the TDD mode, the time controller 829 controls the switch 827 during the reception section to operate the RF processor 801, and controls the switch 827 during the transmission section to control the RF processor ( Let 825 operate.

The RF processor 401 converts a radio frequency (RF) signal received through an antenna into a baseband analog signal. The ADC 803 converts the analog signal from the RF processor 801 into sample data and outputs the sample data. The OFDM demodulator 805 converts the sample data output from the ADC 803 into fast fourier transform (FFT) into data of a frequency domain, and selects and outputs data of subcarriers to be actually received from the data of the frequency domain. . The decoder 807 demodulates and decodes the data from the OFDM demodulator 805 according to a predetermined modulation level (MCS level). The message processor 809 decomposes a control message input from the decoder 807 and provides the result to the controller 811. For example, the ranging request message, the ranging response message, the paging message, and the like are decomposed and the result is provided to the controller 811.

The controller 811 performs corresponding processing on the information from the message processor 809, and generates and transmits information to be transmitted to the message generator 817. The message generator 817 generates a message with various information provided from the controller 811 and outputs the message to the encoder 819 of the physical layer. For example, a ranging request message, a ranging response message, a paging message, and the like are generated and output to the encoder 819 of the physical layer.

The encoder 819 encodes and modulates the data from the message generator 817 according to a predetermined modulation level (MCS level). The OFDM modulator 821 outputs sample data (OFDM symbol) by performing IFFT (Inverse Fast Fourier Transform) on the data from the encoder 819. The DAC 823 converts the sample data into an analog signal and outputs the analog signal. The RF processor 825 converts an analog signal from the DAC 823 into a radio frequency (RF) signal and transmits the same through an antenna.

In the above configuration, the controller 811 is a protocol controller, and controls the message processor 809 and the message generator 817. That is, the controller 811 may perform the functions of the message processor 809 and the message generator 817. In the present invention, it is separately configured to describe each function separately. Therefore, in actual implementation, all of them may be configured to be processed by the controller 811, and only some of them may be configured to be processed by the controller 811. In addition, the controller 811 receives necessary information during protocol processing from the corresponding component of the physical layer or generates a control signal to the corresponding component of the physical layer.

Looking at the operation when the base station transmits a short message to the terminal, the control unit 811 of the terminal 200 performs the paging non-listening interval operation of the idle mode, and then transitions to the paging listening interval of the idle mode.

The controller 811 of the base station 250 recognizes the occurrence of a short message service (SMS) to be transmitted to the terminal 200 in the idle mode, and performs the paging listening section operation. Send a paging message that contains the information. The paging message includes information instructing the terminal 200 to perform a location registration update procedure.

The controller 811 of the terminal 200 transmits a ranging code to the base station 250 and receives a ranging code response message from the base station 250. The control unit 811 of the terminal 200 transmits a ranging request message including an indicator informing the base station 250 of performing the location update registration procedure. The indicator indicating that the location update registration procedure is performed for the short message information included in the ranging request message may use one bit of a Ranging purpose indicator which is a field of the ranging request message.

The controller 811 of the terminal 200 receives a ranging response message as a response to the ranging request message from the base station 250. The ranging response message includes an indicator indicating to the terminal 200 that it is a location update registration procedure for short message information. An indicator indicating that the location update registration procedure for the short message information indicates that there is a short message to be received by the terminal 200 in response to the location registration update procedure performed by the terminal 200.

The control unit 811 of the terminal 200 receives an L2 transmission message including the short message information from the base station 250. The L2 transmission message is encoded using the STID information received in step 215, and the header of the L2 transmission message includes a FID (Flow IDentifier) corresponding to a primary connection. The control unit 811 of the terminal 200 transmits an ACK message to the base station 250 after receiving the L2 transmission message including the short message information. The controller 811 of the terminal 200 performs an idle mode operation after transmitting an ACK message. The controller 811 of the base station 250 releases the STID and primary connection allocated to the terminal 200 after receiving the ACK message from the terminal 200 and manages the terminal 200 as an idle mode terminal. .

On the contrary, when the terminal transmits the short message to the base station, the controller 811 of the terminal 300 recognizes that the short message to be transmitted in the uplink is in a buffer while performing the idle mode operation. To transmit the ranging code for the access to the base station 350 to transmit. The control unit 811 of the terminal 300 receives a ranging code response message for the ranging code transmitted from the base station 350. The controller 811 of the terminal 300 transmits a ranging request message to the base station 350. The ranging request message includes an indicator indicating that a location update procedure for transmitting a short message is performed, and the indicator included in the ranging request message may be represented as shown in Table 1 below.

The controller 811 of the base station 350 transmits a ranging response message to the terminal 300. The ranging response message includes an indicator for performing a location update procedure for transmitting a short message having a structure as shown in Table 2. The indicator for notifying the location update procedure is performed in response to the indicator indicating that the location update procedure is performed, and the base station 350 informs the terminal that it is ready to receive a short message to be transmitted.

In addition, the controller 811 of the terminal 300 transmits a STID (terminal identifier) to be used for transmitting the short message through the ranging response message. The controller 811 of the terminal 300 transmits an L2 transmission message including the short message information to the base station 350. The control unit 811 of the terminal 300 uses the received STID and the FID corresponding to the primary connection when transmitting the L2 transmission message. In addition, in order to transmit the L2 transmission message, the control unit 811 of the terminal 300 needs to be allocated an uplink band from the base station 350. In this case, the STID and the FID corresponding to the primary connection are used. The control unit 811 of the base station 350 receives the L2 transmission message including the short message information from the terminal 300 and transmits an ACK message to the terminal 300. The controller 811 of the terminal 300 continuously performs an idle mode operation after receiving the ACK message.

Meanwhile, in the example of FIG. 2, when a short message is transmitted using an L2 transmission message, a STID and a FID are allocated to a terminal for receiving the short message and transmitting an ACK for the received short message. Explained. The STID and the FID are allocated when a connection is established between the base station and the terminal. In other words, in the example of FIG. 2, a bandwidth request operation based on a terminal identifier (STID) is required to use an L2 transmission message.

In another embodiment of FIG. 9 to FIG. 12, in order to transmit the short message of the L2 layer without allocating the STID and the FID to the terminal in the idle mode, the base station includes the ranging response message in step 215. It may include the short message. In this case, there is a need for a method for the UE to transmit a reception response to the short message included in the ranging response message. To this end, the base station and the terminal uses a reception response resource for a separate short message in a state of connectionless (connectionless) between. In other words, even when the UE has no resource request (unsolicited), the base station allocates an uplink resource for transmitting an ACK message.

9 is a flowchart illustrating an operation of a terminal processing a reception response to a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 9, when the terminal receives the ranging response message including the short message in step 901, the terminal drives the timer X in step 903. The ranging response message including the short message in step 901 corresponds to the ranging response message in step 215. While the timer X is running, the terminal determines whether an uplink resource for transmitting an ACK message for the short message is allocated from the base station in a disconnected state with the base station in step 905.

An identifier used for decoding the uplink resource for determining whether an uplink resource is allocated to the terminal is included in the ranging response message in step 901. Alternatively, the identifier may be configured based on a terminal identifier used by the terminal in the idle mode, and may be used to distinguish the terminal by combining information such as a paging period of the terminal. If the uplink resource for transmitting the ACK message is allocated to the UE as a result of step 905, the UE stops the timer X in step 909 and transmits an ACK message to the base station in step 911. The ACK message may be the same as the ACK message of step 219. In this case, the FID included in the MAC header of the ACK message is received from the base station through the ranging response message in step 901, or corresponds to a FID predefined for short message reception response. The terminal proceeds to the idle mode in step 913 after transmitting the ACK message. If the uplink resource for transmitting the ACK message is not allocated and the timer X expires in step 907, the terminal proceeds to the idle mode in step 913. On the other hand, if the uplink resource for transmitting the ACK message is not allocated and the timer X has not expired in step 907, the process proceeds to step 905 to wait for ACK message resource allocation.

10 is a flowchart illustrating an operation of a base station processing a reception response to a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 10, the base station transmits a short message to the terminal through a ranging response message in step 1001. The ranging response message corresponds to the ranging message in step 215. In this case, the base station may provide an identifier necessary for decoding uplink resources through which the terminal transmits an ACK message through the ranging response message. The base station allocates an uplink resource necessary for the terminal to transmit an ACK message in step 1003 and drives timer Y in step 1005. The base station determines whether an ACK message is received from the terminal in step 1007. When receiving the ACK message from the terminal, the base station stops the timer Y in step 1011, and processes the received ACK message in step 1013. Thereafter, the base station continues to manage the terminal in the idle mode in step 1015. Alternatively, in step 1009, when the ACK message is not received from the terminal, it is checked whether the timer Y has expired. If the timer Y has expired without receiving the ACK message from the terminal, the base station proceeds to step 1015 and continuously manages the terminal in the idle mode, and transmits the short message of step 1001 in the next paging listening interval of the terminal. Retry On the other hand, if the timer Y has not expired without receiving the ACK message from the terminal, the process proceeds to step 1007 and waits for the reception of the ACK message.

Meanwhile, in the embodiment of FIG. 3, the idle mode terminal has described a case where a short message is to be transmitted. In this case, the STID and the FID required for the short message transmission and the ACK message are allocated. Here, a method of transmitting a short message and receiving the ACK message by the idle mode terminal without allocating the STID and the FID will be described.

11 is a flowchart illustrating an operation of a terminal processing a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 11, when the short message to be transmitted is generated, the idle mode terminal performs a location update procedure for short message transmission as in the case of FIG. 3 (step 1101). The terminal receives a ranging response message from the base station in step 1103. The ranging response message in step 1103 corresponds to the ranging response message received in step 311 of FIG. 3. In step 1105, the terminal drives timer A and waits for the base station to allocate uplink resources necessary for short message transmission. In step 1107, the terminal checks whether an uplink resource required for the short message transmission has been allocated. If the uplink resource is allocated, the terminal stops the timer A in step 1111. Here, the identifier used for decoding uplink resources allocated to the terminal may be allocated by the base station through the ranging response message in step 1101. Or it corresponds to an identifier consisting of information that can distinguish the terminal, such as the paging period of the terminal based on the idle mode identifier of the terminal. In step 1113, the terminal transmits a short message using the allocated uplink resource. The short message transmitted in step 1113 corresponds to the L2 transmission message in step 313 or another L2 layer message (eg, a ranging request message). The FID included in the message header of the short message may be an FID assigned by the base station through a ranging response message in step 1101 or may be a predefined FID for transmitting the short message. Thereafter, in step 1115, the terminal receives the ACK message for the short message from the base station and proceeds to step 1117 to continue the idle mode operation. On the other hand, if it is determined in step 1109 that the uplink resource for short message transmission is not allocated until timer A expires, the terminal proceeds to step 1101 to perform the location update procedure for short message transmission again. On the other hand, when the terminal A does not expire in step 1109, the terminal proceeds to step 1107 and waits for uplink resource allocation required for transmitting the short message.

12 is a flowchart illustrating an operation of a base station for processing a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 12, the base station transmits a ranging response message to a terminal performing a location update procedure for transmitting a short message in step 1201. The ranging response message corresponds to the ranging response message in step 311. The base station allocates an uplink resource required for transmitting a short message to the terminal in step 1203 and drives timer B in step 1205. The uplink resource should be encoded with an identifier indicating the terminal to indicate allocation to the terminal, and the identifier is allocated by the base station and transmitted through the ranging response message in step 1201 or the idle mode of the terminal. It may be configured by combining a paging cycle of the terminal based on the identifier. The base station determines whether a short message is received from the terminal through the uplink resource allocated in step 1203 (step 1207). If the short message is received in step 1207, the base station stops the timer B in step 1211, and processes the short message in step 1213. The base station transmits an ACK message for the short message to the terminal in step 1215 and proceeds to step 1217 to continue to manage the terminal in the idle mode. If the timer B expires in step 1209, the base station proceeds to step 1217. In contrast, when the timer B does not expire in step 1209, the base station proceeds to step 1207 and waits for receiving the short message.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible 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.

1 is a diagram illustrating a short message transmission from a base station to an idle mode terminal in a wireless communication system;

2 is a signal flow diagram between a base station and a terminal when a short message is transmitted to an idle mode terminal in a wireless communication system according to an embodiment of the present invention;

3 is a signal flow diagram between a base station and a terminal when an idle mode terminal transmits a short message in a wireless communication system according to an embodiment of the present invention;

4 is an operation flowchart of a terminal receiving a short message in an idle mode in a wireless communication system according to an embodiment of the present invention;

5 is an operation flowchart of a base station for transmitting a short message to a terminal in an idle mode in a wireless communication system according to an embodiment of the present invention;

6 is an operation flowchart of a terminal for transmitting a short message in an idle mode in a wireless communication system according to an embodiment of the present invention;

7 is a flowchart illustrating an operation of a base station for receiving a short message from a terminal in an idle mode in a wireless communication system according to an embodiment of the present invention.

8 is an apparatus diagram for transmitting and receiving a short message from a terminal in an idle mode in a wireless communication system according to an embodiment of the present invention;

9 is an operation flowchart of a terminal processing a reception response to a short message in a wireless communication system according to an embodiment of the present invention;

10 is a flowchart illustrating an operation of a base station processing a reception response to a short message in a wireless communication system according to an embodiment of the present invention;

11 is an operation flowchart of a terminal processing a short message in a wireless communication system according to an embodiment of the present invention;

12 is a flowchart illustrating an operation of a base station for processing a short message in a wireless communication system according to an exemplary embodiment of the present invention.

Claims (70)

A method of operating a base station for providing a short message service (SMS) in a wireless communication system, Requesting to perform a location registration update procedure for receiving a short message to the terminal in a paging listening period of the terminal in the idle mode; Notifying the terminal of a short message transmission during the location registration update procedure; And after the location registration update procedure, sending the short message to the terminal. The method of claim 1, Informing the terminal of the short message transmission, Receiving a ranging code from the terminal; Transmitting a response to the ranging code to the terminal; Receiving a ranging request message including an indicator indicating that the location registration update procedure is performed from the terminal; And transmitting a ranging response message to the terminal, the ranging response message including an indicator for transmitting a short message to the ranging request message. 3. The method of claim 2, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. The method of claim 1, And receiving an ACK message for transmitting the short message from the terminal. A method for operating a terminal in an idle mode for providing a short message service (SMS) in a wireless communication system, Receiving a request for performing a location registration update procedure for receiving a short message from a base station to a paging listening period; Receiving the short message transmission from the base station in the location registration update procedure; And after the location registration update procedure, receiving the short message from the base station. The method of claim 5, The process of receiving the short message transmission from the base station, Transmitting a ranging code to the base station; Receiving a response to the ranging code from the base station; Transmitting a ranging request message including an indicator informing the base station of performing a location registration update procedure; And receiving a ranging response message from the base station, the ranging response message including an indicator for transmitting a short message to the ranging request message. The method of claim 6, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. The method of claim 5, And transmitting an ACK message for transmitting the short message to the base station. The method of claim 5, After the ACK message is transmitted for the short message transmission, disconnecting the short message transmission. The method of claim 5, And after the short message is received, transitioning to a paging non-listening interval. A method of operating a base station for providing a short message service (SMS) in a wireless communication system, Receiving a request for a location registration update procedure for receiving the short message from a terminal to which the short message is to be transmitted; Receiving the short message from the terminal after the location registration update procedure; And transmitting an ACK message for receiving the short message to the terminal. The method of claim 11, The process of receiving a request for updating the location registration for receiving the short message, Receiving a ranging code from the terminal; Transmitting a response to the ranging code to the terminal; Receiving a ranging request message including an indicator indicating that the location registration update procedure is performed from the terminal; And transmitting a ranging response message to the terminal in response to the ranging request message. The method of claim 12, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. A method of operating a terminal for providing a short message service (SMS) in a wireless communication system, Requesting a location registration update procedure for transmitting a short message to a base station when a short message transmission event occurs; Transmitting the short message to the base station after the location registration update procedure; Receiving an ACK message for the transmitted short message from the base station. 15. The method of claim 14, The process of requesting a location registration update procedure for transmitting the short message may include: Transmitting a ranging code to the base station; Receiving a response to the ranging code from the base station; Transmitting a ranging request message including an indicator informing the base station of performing a location registration update procedure; Receiving a ranging response message for the ranging request message from the base station. The method of claim 15, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. 15. The method of claim 14, Transmitting the short message to the base station, and then transitioning to an idle mode. A base station apparatus for providing a short message service (SMS) in a wireless communication system, A controller for requesting to perform a location registration update procedure for receiving a short message to the terminal in a paging listening section of the terminal in an idle mode, and informing the terminal to transmit a short message during the location registration update procedure; And transmitting the short message to the terminal after the location registration update procedure. The method of claim 18, The control unit, Receiving a ranging code from the terminal, Sends a response to the ranging code to the terminal, Receiving a ranging request message including an indicator indicating that the location registration update procedure is performed from the terminal, And a ranging response message including an indicator for transmitting a short message to the ranging request message to the terminal. The method of claim 19, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. The method of claim 18, The control unit Receiving an ACK message for the short message transmission from the terminal. In the terminal device in the idle mode for providing a short message service (SMS) in a wireless communication system, A controller configured to receive a location registration update procedure for receiving a short message from a base station and to receive the short message transmission from the base station during the location registration update procedure; And a receiving unit for receiving the short message from the base station after the location registration update procedure. 23. The method of claim 22, The control unit, Send a ranging code to the base station, Receiving a response to the ranging code from the base station, Transmitting a ranging request message including an indicator informing the base station of performing a location registration update procedure; And a ranging response message from the base station, the ranging response message including an indicator for transmitting a short message to the ranging request message. 24. The method of claim 23, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. 23. The method of claim 22, The control unit, characterized in that for transmitting the ACK message for the short message transmission to the base station. 23. The method of claim 22, The control unit And after the acknowledgment of the short message is transmitted, disconnecting the short message. 23. The method of claim 22, The control unit, And after the short message is received, transition to a paging non-listening interval. A base station apparatus for providing a short message service (SMS) in a wireless communication system, A controller for receiving a location registration update procedure for receiving the short message from a terminal to which the short message is to be transmitted, and receiving the short message from the terminal after the location registration update procedure; And a transmitter for transmitting an ACK message for receiving the short message to the terminal. The method of claim 28, The control unit, Receiving a ranging code from the terminal, Sends a response to the ranging code to the terminal, Receiving a ranging request message including an indicator indicating that the location registration update procedure is performed from the terminal, And transmitting a ranging response message to the terminal in response to the ranging request message. The method of claim 29, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. A terminal apparatus for providing a short message service (SMS) in a wireless communication system, A controller for requesting a location registration update procedure for transmitting the short message to a base station when the short message transmission event occurs, and transmitting the short message to the base station after the location registration update procedure; And a receiving unit which receives an ACK message for the transmitted short message from the base station. 32. The method of claim 31, The control unit, Send a ranging code to the base station, Receiving a response to the ranging code from the base station, Transmitting a ranging request message including an indicator informing the base station of performing a location registration update procedure; And a ranging response message for the ranging request message is received from the base station. 33. The method of claim 32, The ranging response message includes at least one of an identifier and a connection identifier of a terminal to receive a short message. 32. The method of claim 31, And transmitting the short message to the base station, and then transitioning to an idle mode. A method for operating a terminal for processing a short message service (SMS) in a wireless communication system, Driving a timer upon receiving a short message through a ranging response message; Determining whether to allocate an uplink resource for transmitting an ACK message for the short message while driving the timer; When receiving an uplink resource for transmitting the ACK message, stopping a timer and transmitting the ACK message. 36. The method of claim 35, The uplink resource allocation for transmitting the ACK message is characterized in that the allocation in the connectionless state between the base station and the terminal. 36. The method of claim 35, And an identifier for decoding the uplink resource allocation is included in the ranging response message. 36. The method of claim 35, And an identifier for decoding the uplink resource allocation is an identifier for identifying the terminal in combination with paging control information of the terminal. 36. The method of claim 35, The flow IDentifier (FID) included in the MAC header of the ACK message is received from a base station through a ranging response message, or a predefined FID for the short message reception response. A method of operating a base station for processing a short message service (SMS) in a wireless communication system, Driving a timer when the short message is transmitted through a ranging response message; Allocating an uplink resource for transmitting an ACK message for the short message; Receiving and processing an ACK message for the short message while the timer is running. The method of claim 40, The uplink resource allocation for transmitting the ACK message is characterized in that the allocation in the connectionless state between the base station and the terminal. The method of claim 40, And an identifier for decoding the uplink resource allocation is included in the ranging response message. The method of claim 40, And an identifier for decoding the uplink resource allocation is an identifier for identifying the terminal in combination with paging control information of the terminal. The method of claim 40, The flow IDentifier (FID) included in the MAC header of the ACK message is received from a base station through a ranging response message, or a predefined FID for the short message reception response. The method of claim 40, And managing the terminal in an idle mode when the timer expires without receiving the ACK message. A method for operating a terminal for processing a short message service (SMS) in a wireless communication system, When a short message to be transmitted in idle mode occurs, receiving a uplink resource allocation necessary for transmitting the short message; Transmitting a short message by using the allocated uplink resource; Receiving an ACK message for the short message. The method of claim 46, The identifier used for decoding uplink resources allocated to the terminal is an identifier capable of allocating through the ranging response message or identifying the terminal based on an idle mode identifier of the terminal. The method of claim 46, The flow IDentifier (FID) included in the message header of the short message is a FID allocated through a ranging response message or a predefined FID for short message transmission. The method of claim 46, If the uplink resource for the short message transmission is not allocated, the location update procedure for the short message transmission is performed again. A method of operating a base station for processing a short message service (SMS) in a wireless communication system, Allocating an uplink resource for transmitting a short message and driving a timer; Checking whether the short message is received while the timer is driven; When the short message is received, stopping the timer and transmitting an ACK message for the short message. 51. The method of claim 50, The uplink resource is encoded to an identifier indicating the terminal to indicate that the allocation to the terminal. The method of claim 51, The identifier may be configured by transmitting through a ranging response message or by combining a paging period of the terminal based on the idle mode identifier of the terminal. A terminal apparatus for processing a short message service (SMS) in a wireless communication system, When receiving a short message through a ranging response message, a timer is started. A controller for checking whether to allocate an uplink resource for transmitting an ACK message for the short message while the timer is driven; And a transmitter for stopping a timer and transmitting the ACK message when an uplink resource for transmitting the ACK message is allocated. The method of claim 53, The uplink resource allocation for transmitting the ACK message is characterized in that the allocation in the non-connection state between the base station and the terminal. The method of claim 53, And an identifier for decoding the uplink resource allocation is included in the ranging response message. The method of claim 53, And an identifier for decoding the uplink resource allocation is an identifier for identifying the terminal in combination with paging control information of the terminal. The method of claim 53, The flow IDentifier (FID) included in the MAC header of the ACK message is received from the base station through a ranging response message, or the device is characterized in that the predefined FID for the short message reception response. A base station apparatus for processing a short message service (SMS) in a wireless communication system, When sending a short message through a ranging response message, the timer is started. A control unit for allocating an uplink resource for transmitting an ACK message for the short message; And a receiver configured to receive and process an ACK message for the short message while driving the timer. The method of claim 57, The uplink resource allocation for transmitting the ACK message is characterized in that the allocation in the non-connection state between the base station and the terminal. The method of claim 57, And an identifier for decoding the uplink resource allocation is included in the ranging response message. The method of claim 57, And an identifier for decoding the uplink resource allocation is an identifier for identifying the terminal in combination with paging control information of the terminal. The method of claim 57, The flow IDentifier (FID) included in the MAC header of the ACK message is received from the base station through a ranging response message, or characterized in that the predefined FID for the short message reception response. The method of claim 57, And when the timer expires without receiving the ACK message, managing the terminal in an idle mode. A terminal apparatus for processing a short message service (SMS) in a wireless communication system, A controller for driving a timer and receiving an uplink resource allocation for transmitting the short message when an short message to be transmitted in an idle mode occurs; A transmitter for transmitting a short message using the allocated uplink resources; And a receiver configured to receive an ACK message for the short message. The method of claim 64, wherein And an identifier used for decoding uplink resources allocated to the terminal is an identifier capable of allocating through the ranging response message or distinguishing the terminal based on an idle mode identifier of the terminal. The method of claim 64, wherein And a flow IDentifier (FID) included in the message header of the short message is a FID allocated through a ranging response message or a predefined FID for short message transmission. The method of claim 64, wherein The control unit And if the uplink resource for the short message transmission is not allocated, performing a location update procedure for the short message transmission. A base station apparatus for processing a short message service (SMS) in a wireless communication system, Allocating uplink resources required for short message transmission, driving a timer, A controller for checking whether the short message is received while driving the timer; And a transmitter for stopping the timer and transmitting an ACK message for the short message when receiving the short message. The method of claim 68, wherein And the uplink resource is encoded with an identifier indicating the terminal to indicate allocation to the terminal. The method of claim 69, The identifier may be configured by transmitting a ranging response message or combining a paging period of the terminal based on the idle mode identifier of the terminal.

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