KR20160002327A - Methods for transmitting a paging message and apparatuses thereof - Google Patents

Abstract

The present invention relates to a paging method for a machine-type communication (MTC) terminal and a device thereof. More specifically, the method includes the following steps: receiving a control channel scrambled by an identifier pointing a paging message; enabling the control channel to check the identifier to confirm whether the identifier points to a paging message for the MTC terminal; and repeatedly receiving the paging message through multiple sub-frames based on the control channel.

Description

[0001] The present invention relates to a method and apparatus for transmitting a paging message,

The present invention relates to a paging method and apparatus for a MTC (Machine-Type Communications) terminal. More particularly, the present invention relates to a paging message transmission / reception method for a MTC terminal and a method and apparatus for distinguishing a paging message for a MTC terminal from a paging message for a general terminal.

Machine-type communications (MTC) refers to machine-to-machine communications and refers to machine-to-machine communications in which one or more entities do not necessarily require human interaction in one form of data communication. MTC, which does not require human interaction, refers to all communication methods in which communication is performed without human intervention in the communication process.

The MTC terminal can be installed in a place where the radio wave environment is worse than that of a general terminal. For example, the MTC terminal can be installed and operated inside a facility such as a basement meter or a dam. Therefore, the MTC terminal is highly likely to be installed in a place where it is difficult to transmit and receive radio waves. Due to such a problem, the MTC terminal may cause problems such as data loss or link loss when data is transmitted / received in a manner that a general terminal transmits / receives data.

Meanwhile, the paging procedure refers to a procedure in which a base station transmits a paging message to a mobile station and the mobile station receives the paging message. This is a basic function of the terminal, and the terminal must smoothly receive the paging message without loss.

However, in the case of the above-mentioned MTC terminal, it is difficult to transmit / receive data to / from the base station due to the installation position or the production cost savings of the MTC terminal. Accordingly, in the case of the MTC terminal, when a paging message is transmitted and received using a paging procedure of a general terminal, problems such as loss of a paging message may occur. In addition, when the paging message for the MTC terminal and the paging message for the general terminal are overlapped, an unnecessary paging message checking procedure may be performed in each terminal.

In addition, there is an increasing need to define a paging procedure so that a collision between a MTC terminal and a general terminal does not occur in a situation where the necessity of communication using the MTC terminal is increasing as in the Internet of things.

According to the above-mentioned requirements, the present invention proposes a concrete method and apparatus for distinguishing a paging procedure-related signal and a message of a MTC terminal from a general terminal.

In addition, the present invention proposes a method and apparatus for preventing unnecessary paging procedure of a general terminal, which occurs in duplication with a paging signal and a message for a general terminal, when a signal and a message for a paging procedure of the MTC terminal are repeatedly transmitted I want to.

According to an aspect of the present invention, there is provided a method of receiving a paging message by a MTC (Machine-Type Communication) terminal, the method comprising: receiving a scrambled control channel by an identifier indicating a paging message; Confirming whether or not to indicate a paging message for the MTC terminal, and repeatedly receiving a paging message through a plurality of subframes based on the control channel.

According to another aspect of the present invention, there is provided a method for transmitting a paging message, the method comprising: generating a scrambled control channel by an identifier indicating a paging message for a MTC (Machine-Type Communication) terminal; And repeatedly transmitting the paging message through a plurality of subframes.

In addition, the present invention provides a MTC (Machine-Type Communication) terminal for receiving a paging message, comprising: a receiver for receiving a control channel scrambled by an identifier indicating a paging message; The receiving unit repeatedly receives a paging message through a plurality of subframes based on a control channel to provide a terminal apparatus.

According to another aspect of the present invention, there is provided a base station for transmitting a paging message, the base station including: a control unit for generating a control channel scrambled by an identifier indicating a paging message for an MTC (Machine-Type Communication) And a transmitter for repeatedly transmitting through a plurality of subframes.

As described above, according to the present invention, the paging procedure related signals and messages of the MTC terminal are distinguished from the general terminal, thereby providing the effect of preventing the paging procedure for the MTC terminal from overlapping with the paging procedure for the general terminal.

In addition, the present invention provides an effect of solving a problem caused by overlapping with a paging signal for a general terminal when a signal for a paging procedure of the MTC terminal is repeatedly transmitted.

Also, the present invention provides an effect of preventing an unnecessary paging record check procedure of a general terminal by allowing a paging message to be distinguished for a terminal through a control channel transmitted from a base station.

1 is a diagram for explaining a paging procedure.
2 is a diagram illustrating an example of a paging opportunity subframe pattern in a radio frame in a Frequency Division Duplex (FDD) mode.
3 is a diagram illustrating an example of a paging opportunity subframe pattern in a radio frame in a TDD (Time Division Duplex) mode.
4 is a view for explaining the operation of the MTC terminal according to an embodiment of the present invention.
5 is a diagram illustrating an exemplary RNTI (Radio Network Temporary Identifier) value.
6 is a diagram showing paging-related information on system information (radio resource configuration common information).
7 is a diagram illustrating an exemplary paging information element.
FIG. 8 is an exemplary diagram illustrating an SA-Temporary Mobile Subscriber Identity (S-TMSI) information element.
FIG. 9 is a view for explaining an operation of a base station according to another embodiment of the present invention.
10 is a diagram illustrating a configuration of a MTC terminal according to another embodiment of the present invention.
11 is a diagram illustrating a configuration of a base station according to another embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Herein, the MTC terminal may mean a terminal supporting low cost (or low complexity) or a terminal supporting coverage enhancement. In this specification, the MTC terminal may mean a terminal supporting low cost (or low complexity) and coverage enhancement. Alternatively, the MTC terminal may refer to a terminal defined in a specific category for supporting low cost (or low complexity) and / or coverage enhancement.

In other words, the MTC terminal in this specification may mean a newly defined 3GPP Release-13 low cost (or low complexity) UE category / type for performing LTE-based MTC-related operations. Alternatively, the MTC terminal may support enhanced coverage over the existing LTE coverage or a UE category / type defined in the existing 3GPP Release-12 or lower that supports low power consumption, or a newly defined Release-13 low cost low complexity UE category / type.

The wireless communication system in the present invention is widely deployed to provide various communication services such as voice, packet data and the like. A wireless communication system includes a user equipment (UE) and a base station (BS, or eNB). The user terminal in this specification is a comprehensive concept of a terminal in wireless communication. It is a comprehensive concept which means a mobile station (MS), a user terminal (UT), an SS (User Equipment) (Subscriber Station), a wireless device, and the like.

A base station or a cell generally refers to a station that communicates with a user terminal and includes a Node-B, an evolved Node-B (eNB), a sector, a Site, a BTS A base transceiver system, an access point, a relay node, a remote radio head (RRH), a radio unit (RU), and a small cell.

That is, the base station or the cell in this specification is interpreted as a comprehensive meaning indicating a partial region or function covered by BSC (Base Station Controller) in CDMA, NodeB in WCDMA, eNB in LTE or sector (site) And covers various coverage areas such as megacell, macrocell, microcell, picocell, femtocell and relay node, RRH, RU, and small cell communication range.

Since the various cells listed above exist in the base station controlling each cell, the base station can be interpreted into two meanings. i) the device itself providing a megacell, macrocell, microcell, picocell, femtocell, small cell in relation to the wireless region, or ii) indicating the wireless region itself. i indicate to the base station all devices that are controlled by the same entity or that interact to configure the wireless region as a collaboration. An eNB, an RRH, an antenna, an RU, an LPN, a point, a transmission / reception point, a transmission point, a reception point, and the like are exemplary embodiments of a base station according to a configuration method of a radio area. ii) may indicate to the base station the wireless region itself that is to receive or transmit signals from the perspective of the user terminal or from a neighboring base station.

Therefore, a base station is collectively referred to as a base station, collectively referred to as a megacell, macrocell, microcell, picocell, femtocell, small cell, RRH, antenna, RU, low power node do.

Herein, the user terminal and the base station are used in a broad sense as the two transmitting and receiving subjects used to implement the technical or technical idea described in this specification, and are not limited by a specific term or word. The user terminal and the base station are used in a broad sense as two (uplink or downlink) transmitting and receiving subjects used to implement the technology or technical idea described in the present invention, and are not limited by a specific term or word. Here, an uplink (UL, or uplink) means a method of transmitting / receiving data to / from a base station by a user terminal, and a downlink (DL or downlink) .

There are no restrictions on multiple access schemes applied to wireless communication systems. Various multiple access schemes such as Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), OFDM-FDMA, Can be used. An embodiment of the present invention can be applied to asynchronous wireless communication that evolves into LTE and LTE-Advanced via GSM, WCDMA, and HSPA, and synchronous wireless communication that evolves into CDMA, CDMA-2000, and UMB. The present invention should not be construed as limited to or limited to a specific wireless communication field and should be construed as including all technical fields to which the idea of the present invention can be applied.

A TDD (Time Division Duplex) scheme in which uplink and downlink transmissions are transmitted using different time periods, or an FDD (Frequency Division Duplex) scheme in which they are transmitted using different frequencies can be used.

In systems such as LTE and LTE-Advanced, the uplink and downlink are configured on the basis of one carrier or carrier pair to form a standard. The uplink and the downlink are divided into a Physical Downlink Control Channel (PDCCH), a Physical Control Format Indicator CHannel (PCFICH), a Physical Hybrid ARQ Indicator CHannel, a Physical Uplink Control CHannel (PUCCH), an Enhanced Physical Downlink Control Channel (EPDCCH) Transmits control information through the same control channel, and is configured with data channels such as PDSCH (Physical Downlink Shared CHannel) and PUSCH (Physical Uplink Shared CHannel), and transmits data.

On the other hand, control information can also be transmitted using EPDCCH (enhanced PDCCH or extended PDCCH).

In this specification, a cell refers to a component carrier having a coverage of a signal transmitted from a transmission point or a transmission point or transmission / reception point of a signal transmitted from a transmission / reception point, and a transmission / reception point itself .

The wireless communication system to which the embodiments are applied may be a coordinated multi-point transmission / reception system (CoMP system) or a coordinated multi-point transmission / reception system in which two or more transmission / reception points cooperatively transmit signals. antenna transmission system, or a cooperative multi-cell communication system. A CoMP system may include at least two multipoint transmit and receive points and terminals.

The multi-point transmission / reception point includes a base station or a macro cell (hereinafter referred to as 'eNB'), and at least one mobile station having a high transmission power or a low transmission power in a macro cell area, Lt; / RTI >

Hereinafter, a downlink refers to a communication or communication path from a multipoint transmission / reception point to a terminal, and an uplink refers to a communication or communication path from a terminal to a multiple transmission / reception point. In the downlink, a transmitter may be a part of a multipoint transmission / reception point, and a receiver may be a part of a terminal. In the uplink, the transmitter may be a part of the terminal, and the receiver may be a part of multiple transmission / reception points.

Hereinafter, a state in which a signal is transmitted / received through a channel such as PUCCH, PUSCH, PDCCH, EPDCCH, and PDSCH is expressed as 'PUCCH, PUSCH, PDCCH, EPDCCH and PDSCH are transmitted and received'.

In the following description, an indication that a PDCCH is transmitted or received or a signal is transmitted or received via a PDCCH may be used to mean transmitting or receiving an EPDCCH or transmitting or receiving a signal through an EPDCCH.

That is, the physical downlink control channel described below may mean a PDCCH, an EPDCCH, or a PDCCH and an EPDCCH.

Also, for convenience of description, EPDCCH, which is an embodiment of the present invention, may be applied to the portion described with PDCCH, and EPDCCH may be applied to the portion described with EPDCCH according to an embodiment of the present invention.

Meanwhile, the High Layer Signaling described below includes RRC signaling for transmitting RRC information including RRC parameters.

The eNB performs downlink transmission to the UEs. The eNB includes a physical downlink shared channel (PDSCH) as a main physical channel for unicast transmission, downlink control information such as scheduling required for reception of a PDSCH, A physical downlink control channel (PDCCH) for transmitting scheduling grant information for transmission in a Physical Uplink Shared Channel (PUSCH). Hereinafter, the transmission / reception of a signal through each channel will be described in a form in which the corresponding channel is transmitted / received.

Low-cost MTC based on LTE

Most of the MTC traffic is delay tolerant and has low throughput characteristics. These MTC terminals have been developed at low cost and operated on the basis of GSM / GPRS. There is a need to improve the LTE coverage to 15 to 20 dB for a limited environment, such as when the MTC terminal is built deep inside the building. According to 3GPP TR 36.888, a technology report of the related research item, cost reduction techniques (e.g., 1 Rx antenna, downlink uplink maximum TBS size 1000 bits, reduced baseband downlink channel bandwidth for data channels, etc.) It is possible to reduce the material cost of the LTE terminal for MTC correspondingly to the GPRS modem. Also, according to the above-mentioned technical report, it is possible to achieve a coverage improvement of 15-20dB for both FDD and TDD compared with the normal / general LTE, but considering the terminal power consumption and spectral efficiency, a 15dB coverage improvement target is proposed for FDD have.

This is a method to provide coverage improvement (15dB for FDD) relative to general LTE coverage for LTE-based MTC terminals that are installed in a limited coverage area compared to a general terminal, repetition transmission may be considered. For example, the base station repeatedly transmits a PDCCH transmission, which is performed on a downlink subframe basis, through a plurality of downlink subframes, and the corresponding MTC terminal also combines PDCCHs received through a plurality of downlink subframes and perform decoding to enhance coverage. As another example, the MTC terminal may reduce the number of repetitions described above by using PSD boosting, compact DCI, higher aggregation level, or the like. The terminal may support only a narrowband operation in a technology using method for cost reduction compared to a general terminal. For example, it is possible to support only 1.4MHz bandwidth on the downlink and uplink.

Paging ( Paging )

1 is a diagram for explaining a paging procedure.

Referring to FIG. 1, paging may be used to transmit paging information to a terminal in the RRC IDLE state. Or paging may be used to inform the UE in the RRC IDLE state and the UE in the RRC CONNECTED state of the system information change. Or paging may be used to inform about the Earthquake and Tsunami Warning System (ETWS) notification. Or paging may be used to signal commercial Mobiel Alert System (CMAS) notifications. The paging in the present invention can be applied to each of the paging used in some or all of the above-mentioned situations.

The base station initiates the paging procedure by sending a paging message to the terminal's paging occasion specified in the 3GPP TS 36.304 document. The base station can address a plurality of terminals by including one paging record for each terminal in one paging message. Also, the base station may transmit a paging message to the plurality of terminals through the same subframe, and may transmit the paging message through another subframe as shown in FIG.

The UE in the RRC IDLE state can receive the paging message. If there is a paging record in the paging message, the UE checks whether the UE ID in the paging record matches one of the UE IDs assigned by the upper layers for each paging record. If the terminal identifier in the paging record matches the terminal identifiers assigned by the upper layers, the terminal transmits the corresponding terminal identifier and the core network domain (cN-Domain) to the upper layers.

Paging reception

One paging occasion (PO) means a subframe in which a Paging-Radio Network Temporary Identifier (P-RNTI) transmitted on a PDCCH indicating a paging message exists (One Paging Occasion (PO) is a subframe where there may be P-RNTI transmitted on PDCCH addressing the paging message. In addition, a paging frame (PF) is a radio frame that can include one or more paging opportunities (PF). One Paging Frame (PF) is one radio frame, which may contain one or multiple Paging Occasion (s)). Indicating a paging message is addressing a resource block including a paging message, and the indication information is transmitted through a PDCCH.

Meanwhile, the UE can use Discontinuous Reception (DRX) to reduce power consumption in the IDLE state. When DRX is used, the terminal only needs to monitor one paging opportunity per DRX cycle.

The paging frame and paging opportunity are determined by the following formula using the DRX parameters provided through the system information.

The paging frame is given by Equation (1) below.

[Equation 1]

SFN mod T = (T div N) * (UE_ID mod N)

The index i_s indicating the paging opportunity from the subframe pattern can be derived according to Equation (2) below.

&Quot; (2) "

i_s = floor (UE_ID / N) mod Ns

In Equations (1) and (2), T is the DRX cycle value of the UE. If T is allocated from the upper layer, it is determined by the terminal-specific DRX value and the shortest value of the preset DRX value broadcasted through the system information. If the UE-specific DRX value is not configured from an upper layer, a preset value is applied (T: DRX cycle of the UE. T is determined by the UE-specific DRX value, DRX value broadcast in system information. If UE specific DRX is not configured by upper layers, the default value is applied.

nB may be determined by at least one of 4T, 2T, T, T / 2, T / 4, T / 8, T / 16 and T / 32, and N is determined by min (T, nB). Further, Ns is determined as max (1, nB / T), and UE_ID is determined as IMSI mod 1024. IMSI is given as a sequence of integer digits of (0, ..., 9), where IMSI is expressed as a decimal number and the first digit is given as a sequence expressed by the highest digit (IMSI IMSI shall be interpreted as a decimal integer number, where the first digit given in the sequence represents the highest order digit.

2 is a diagram illustrating an example of a paging opportunity subframe pattern in a radio frame in a Frequency Division Duplex (FDD) mode. 3 is a diagram illustrating an example of a paging opportunity subframe pattern in a radio frame in a TDD (Time Division Duplex) mode.

Referring to FIG. 2 and FIG. 3, a subframe including a paging opportunity may be changed according to the duplex mode. For example, in the case of a terminal operating in FDD mode, when i_s is 0 and Ns is 1, a paging opportunity is allocated in subframe 9. Also, in the case of the UE operating in the TDD mode, when i_s is 0 and Ns is 1, a paging opportunity is allocated in subframe 0.

As described above, it may be necessary to repeatedly transmit and receive a large number of times in order to provide enhanced coverage to the MTC terminal. However, specific procedures and methods for using a plurality of repeated transmission / reception in the paging procedure for the MTC terminal have not been provided. In particular, when repeatedly transmitting a paging related signal for paging to the MTC terminal, when a paging related signal repeated in a plurality of subframes is transmitted in a paging opportunity in which the terminal repeatedly overlaps with the general terminal, general terminals unnecessarily check the paging record A problem arises.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and apparatus capable of transmitting / receiving paging to / from an MTC terminal which is required to provide enhanced coverage, and transmitting / receiving the paging effectively.

In this specification, a general terminal means an existing wireless communication terminal or normal terminals (normal UEs) except for the above-mentioned MTC terminal. That is, a general terminal means a terminal that does not perform repetitive transmission in order to transmit / receive data according to use of coverage expansion or cost reduction technology. In addition, the MTC terminal in this specification can solve the limitation of coverage by a terminal capable of improving coverage to a terminal for improving coverage or a terminal capable of operating a coverage enhancement function or a coverage enhanced enabled terminal or a coverage enhancement function as described above Or a bandwidth reduction and coverage enhancement terminal, or a 1.4MHz bandwidth reduction and coverage enhancement terminal.

Transmission of PDCCH / EPDCCH / PDSCH may require tens or hundreds of repetitions in the time domain to improve coverage by 15-20dB over general LTE coverage. Therefore, a plurality of repeated transmission and reception may be required for the MTC terminal. At this time, a bottleneck may occur in the PDCCH resource. Meanwhile, PDCCH and / or EPDCCH may be used for the MTC terminal.

In a LTE or LTE-Advanced communication system, paging reception on a PCH (Paging Channel) is similar to downlink data reception on a DL-SCH (Downlink Shared Channel). For example, a generic terminal monitors L1 / L2 control signaling for downlink scheduling assignments associated with paging. If the general terminal detects a group identifier (P-RNTI) used for paging, the general terminal processes the corresponding downlink paging message transmitted on the PCH. If the UE ID included in the paging record of the paging message matches one of the UE IDs assigned by the upper layers, the UE transmits the UE ID and the core network domain (cN-Domain) .

Downlink L1 / L2 control signaling includes signaling for downlink scheduling assignments, uplink grants, and HARQ acknowledgments corresponding to UL-SCH transmissions. A control channel is used as the physical channel for signaling the downlink scheduling assignment and the uplink scheduling grant. The control channel means PDCCH or EPDCCH.

The above-described coverage extension can be achieved by repeatedly transmitting and receiving a PDCCH or an EPDCCH through a plurality of subframes. In the prior art, since the PDCCH or EPDCCH has been transmitted or received within one subframe, there is a need to define a new procedure to support repeated transmission and reception of PDCCH or EPDCCH over a plurality of subframes. For example, the start subframe of the first repeat transmission and the maximum repeat count information may be needed. That is, the UE must know the start subframe of the physical downlink control channel for repeated transmission for the UE-specific search space. It may be a predefined value or a value provided through system information. It may also be necessary to change the timing relationship between PDCCH or EPDCCH and PDSCH with repetitive transmission on PDCCH or EPDCCH. Except for SPS (Semi-Persistent Scheduling), PDCCH or EPDCCH and PDSCH are encapsulated in the same subframe. Thus, the downlink scheduling assignment was only valid within the same subframe in which this signal was transmitted.

Meanwhile, in order to receive the paging message, the general terminal monitors the scrambled (masked or marked) PDCCH or EPDCCH by the P-RNTI addressing the paging message and receives the paging message of the corresponding PDSCH.

According to such a scheme, the MTC terminal monitors a repeatedly received PDCCH or EPDCCH indicating a paging message through a plurality of subframes to receive a paging message. The PDCCH or EPDCCH is scrambled by the P-RNTI. Then, the MTC terminal receives the repeated PDSCH paging message through a plurality of subframes scheduled through PDCCH or EPDCCH. Accordingly, monitoring of the PDCCH or EPDCCH scrambled by the P-RNTI indicating the paging message and reception of the paging message of the PDSCH corresponding thereto can be performed sequentially.

In this case, when the number of MTC terminals in the cell increases, the number of subframes including the PDCCH or EPDCCH scrambled by the P-RNTI indicating the paging message may increase. Accordingly, the paging opportunities of the general terminal or another MTC terminal can be overlapped with the subframes for the paging message of the MTC terminal repeated over a plurality of subframes. In such a case, when the MTC terminal is duplicated, a case where the general terminal or another MTC terminal needs to perform an operation for receiving a paging message unnecessarily increases. Also, when the control channels repeatedly used through a plurality of subframes are continuously used, it is possible to reduce the flexibility of scheduling or cause a delay to other terminals.

The present invention discloses embodiments for solving such a problem.

4 is a view for explaining the operation of the MTC terminal according to an embodiment of the present invention.

A method for receiving a paging message according to an exemplary embodiment of the present invention includes receiving a control channel scrambled with an identifier indicating a paging message, and identifying a paging message for the MTC terminal , And repeatedly receiving the paging message through the plurality of subframes based on the control channel.

Referring to FIG. 4, the MTC terminal includes receiving a control channel scrambled by an identifier indicating a paging message (S410). For example, the MTC terminal may receive a control channel including information for indicating a paging message received on a shared channel. If necessary, the control channel may be repeatedly received via a plurality of subframes or a plurality of radio frames. Here, the control channel may be PDCCH or EPDCCH, and the control channel may be generated by scrambling by an identifier indicating a paging message.

Meanwhile, the MTC terminal may include a step of checking whether the paging message for the MTC terminal is indicated by checking the identifier in the control channel (S420). For example, the MTC terminal can check the identifier of the received control channel and check whether the corresponding control channel indicates a paging message for the corresponding MTC terminal according to a result of the check of the identifier. That is, when the identified identifier is an identifier indicating the paging message for the MTC terminal, the MTC terminal can confirm that the paging message is included in the data channel (or the shared channel) received after the control channel. Optionally, the control channel may include information for scheduling a data channel comprising a paging message. In this case, the MTC terminal may perform monitoring for confirming reception of the paging message based on the corresponding scheduling information.

The MTC terminal may repeatedly receive the paging message through a plurality of subframes based on the control channel (S430). The MTC terminal can receive the paging message repeatedly transmitted through a plurality of subframes based on the control channel. The paging message may be repeatedly received through a plurality of subframes or may be received repeatedly through a plurality of radio frames. For example, the MTC terminal may monitor a plurality of paging opportunities or paging frames to receive a paging message, and may combine / demodulate the received paging message to verify corresponding information.

As described above, it is necessary to distinguish the control channel or the paging message for the paging message of the general terminal and the MTC terminal. Accordingly, the present invention will be described below with reference to various embodiments in which a MTC terminal and a general terminal can distinguish a control channel or a paging message for a paging message.

For example, the identifier for generating a control channel is a predetermined Radio Network Temporary Identifier (RNTI) distinguished from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per DRX (Discontinuous Reception) cycle, Lt; / RTI > For example, a P-RNTI may be used as an identifier for indicating a paging message of a general terminal, and a reserved RNTI value may be used as an identifier for a paging message of the MTC terminal, which is not a P-RNTI but an RNTI value. Through this, the MTC terminal and the general terminal can identify only the identifier of the corresponding control channel, and can distinguish whether the received paging message is for the MTC terminal or the general terminal.

In another example, the identifier for generating the control channel may be a C-RNTI (Cell-Radio Network Temporary Identifier) value used in the RRC connection state in any cell of the MTC terminal. For example, the identifier indicating the paging message for the MTC terminal may be the C-RNTI that has been used in the RRC connection state of the corresponding MTC terminal. Also in this case, the general terminal can receive the control channel in which the P-RNTI is used as the identifier. Through this, the MTC terminal and the general terminal can identify only the identifier of the corresponding control channel, and can distinguish whether the received paging message is for the MTC terminal or the general terminal.

As another example, the control channel may be received based on a DRX (Discontinuous Reception) cycle of the MTC terminal, and the DRX cycle of the MTC terminal may be set longer than a general terminal monitoring only one paging occasion per DRX cycle . That is, the MTC terminal is set to have a longer DRX cycle than the general terminal, and the control channel for indicating the paging message for the MTC terminal can be received based on the DRX cycle of the MTC terminal set longer. In this case, the MTC terminal can set a plurality of paging opportunities in one DRX cycle, and a general terminal can set only one paging opportunity in one DRX cycle.

As another example, the length of the paging message can be configured differently between the MTC terminal and the general terminal. For example, the paging message may include terminal identification information different from a general terminal monitoring only one paging occasion per DRX (Discontinuous Reception) cycle, or may include only information for one MTC terminal . That is, since the paging message for the MTC terminal can be repeatedly received, the length of the paging message for the MTC terminal can be set shorter than that of the paging message of the general terminal. For this purpose, the paging message of the MTC terminal may have no paging record field. The general terminal includes a paging record field including two or more terminal identification information, but may not have a corresponding paging record field in the case of the MTC terminal. Accordingly, the paging message for the MTC terminal can be generated only for one MTC terminal. Alternatively, the paging message for the MTC terminal may be configured using the terminal identification information included in the paging record, which is different from the terminal identification information of the general terminal.

Hereinafter, the embodiments described above will be described in more detail with reference to the embodiments.

1st Example : Define an identifier that distinguishes a general terminal MTC  Terminal Paging  How to distinguish.

When the same P-RNTI as that of a general terminal is used as an identifier (for example, RNTI) for transmitting a paging message of the MTC terminal, there may occur a problem that paging opportunities of repeated sub-frames and general terminals overlap . That is, the general terminal may have a problem that a process for receiving a paging message is unnecessarily performed on the corresponding PDSCH. Alternatively, the MTC terminal has to check whether there is a paging message through the P-RNTI in a common search space such as a general terminal, which increases the load of the common search space.

In order to solve such problems, an identifier for generating a control channel of the present invention is distinguished from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per DRX (Discontinuous Reception) cycle And may be a predetermined Radio Network Temporary Identifier (RNTI) value.

5 is a diagram illustrating an exemplary RNTI (Radio Network Temporary Identifier) value.

Referring to FIG. 5, a conventional control channel for paging message transmission uses a P-RNTI. That is, as shown in FIG. 5, one value (for example, FFFE) is conventionally used for paging message transmission.

In the case of performing paging for the MTC terminal in the network, the base station can receive the paging message from the MME (Mobility Management Entity) including the indication information for the MTC terminal. And / or the base station can distinguish the MTC terminal from the general terminal by receiving the terminal capability information from the terminal or the MME. When the base station performs paging for the MTC terminal, the control channel indicating the paging message transmitted by the base station may be scrambled by a value different from the paging RNTI (value) or the conventional P-RNTI. Here, the control channel may include downlink scheduling assignment information related to paging, and may be a PDCCH or an EPDCCH.

The MTC terminal can receive the paging message through a value different from the paging RNTI (value) for the MTC terminal or the conventional P-RNTI.

For example, one or more of the reserved FFF4 to FFFC among the RNRI values may be used as shown in FIG. As another example, values of one or more of 003D to FFF3 may be used. As another example, one or more values of 0001 to 003C may be used.

Alternatively, a plurality of new RNTI values may be allocated and used by using a terminal identifier in order to minimize unnecessary operations between MTC terminals, thereby further dividing the paging group. For example, a value obtained by performing a mod operation on UE_ID may be used as an RNTI value, or a value generated using a UE_ID hashing function may be used as an RNTI value.

When a base station scrambles and uses a control channel for indicating a paging message for a MTC terminal by a value different from a paging RNTI (value) for a MTC terminal or a conventional P-RNTI, the general terminal, not the MTC terminal, The conventional P-RNTI value (e.g., FFFE) may not be detected in the subframes for paging of the corresponding MTC terminal, even if the paging opportunity overlaps with a plurality of subframes for paging of the MTC terminal. Therefore, even if there is a control channel indicating the paging message of the MTC terminal, the general terminal may not perform processing for receiving the corresponding paging message unnecessarily. That is, the MTC terminal performs decoding in the common search space through the paging RNTI for the MTC terminal differentiated from the general terminal on the downlink control channel (PDCCH or EPDCCH) indicating the paging message, or distinguishes the terminal from the general terminal in the search space The paging RNTI for the MTC terminal can check the presence or absence of the paging message.

The MTC terminal must know the starting subframe of the physical downlink control channel for repeated transmission of the downlink control channel (PDCCH or EPDCCH) indicating the paging message for receiving the paging message of the MTC terminal. It may be a predefined value or a value provided through system information. This may be extracted in the same way as the paging opportunity of the prior art, or may be defined in a similar manner. For example, as a function of a terminal identifier (UE_ID). If the system bandwidth of a cell where the MTC terminal has camped on is limited to MTC (for example, a bandwidth of 1.4 MHz in downlink and uplink) only if the MTC terminal supports only a narrowband operation If the bandwidth is larger than the bandwidth supported by the UE, the MTC UE may not be able to decode the PDCCH of the corresponding cell. Accordingly, the corresponding cell can indicate the downlink control channel information in which the MTC terminal indicates the paging message of the MTC terminal through the EPDCCH. At this time, the MTC terminal must know the frequency location of the downlink control channel (EPDCCH) indicating the paging message of the corresponding cell. It may be a predefined value or a value provided through system information. This may be defined in other ways similar to the paging opportunities of the prior art. For example, as a function of a terminal identifier (UE_ID).

As described above, the MTC terminal knows the time and frequency information of the downlink control channel (EPDCCH) indicating the paging message. That is, the MTC terminal knows the time and frequency pattern information of the downlink control channel repetition indicating the paging message. In decoding the repeated transmissions of the downlink control channel indicating the paging message, the MTC terminal decodes in the common search space through the paging RNTI for the MTC terminal differentiated from the general terminal, or distinguishes it from the general terminal in the terminal- The paging RNTI for the MTC terminal can check the presence or absence of the paging message.

The paging procedure for the MTC terminal may require processing different from the general paging procedure because the paging procedure accumulates / combines the energy through a plurality of repetitive transmissions and decodes the data. The MTC terminal may have mainly stationary characteristics. Accordingly, the MTC terminal may include an indication for the MTC terminal in a network registration (e.g., attach), a tracking area update, or a service request procedure. The base station can receive the terminal context information (e.g., terminal capability information) for the MTC terminal from the MME. Alternatively, the base station may receive an indication of the MTC terminal from the MTC terminal in the RRC connection setup process. And / or the base station may receive the paging message from the MME, including indication information for the MTC terminal.

Even if the base station receives a normal / normal paging message from the MME (for example, when the paging message does not include information indicating that the paging message is for the MTC terminal), the base station transmits a paging message Can be performed. The MME may perform a paging procedure for the MTC terminal when the general terminal paging procedure fails (or fails more than a predetermined number of times).

As described above, unnecessary paging procedure between the general terminal and the MTC terminal can be prevented when the paging procedure for the corresponding terminal is set by previously setting identifiers for the general terminal and the MTC terminal.

Second Example : MTC  Terminal Paging  for CONNECTED  Lt; RTI ID = 0.0 > C-RNTI < / RTI >

In an identifier according to another embodiment of the present invention, a C-RNTI (Cell-Radio Network Temporary Identifier) value used in an RRC connected state in an arbitrary cell of the MTC terminal may be used.

As described above, the paging reception on the PCH in the RRC idle state in the wireless communication is used in a manner similar to the downlink data transmission on the DL-SCH in the RRC Connected state. In addition, the MTC terminal may have a stationary characteristic, and the paging for the MTC terminal may be separately performed by the network.

For example, the MTC terminal may include an indication for the MTC terminal in a network registration (e.g., attach), a tracking area update, or a service request procedure. The base station can receive the terminal context information (e.g., terminal capability information) for the MTC terminal from the MME. Alternatively, the base station may receive an indication of the MTC terminal from the MTC terminal in the RRC connection setup process. And / or the base station may receive the paging message from the MME, including indication information for the MTC terminal.

As described above, the paging procedure of the MTC terminal and the paging procedure of the general terminal can be distinguished by control channels scrambled with different identifiers. Therefore, the identifier for the MTC terminal may be different from the conventional P-RNTI value for the general terminal.

For example, in order to paging the MTC terminal, the BS scrambles and uses a control channel indicating a paging message through an RNTI (e.g., C-RNTI) value used in an RRC connected state in a corresponding cell . That is, the control channel indicating the paging message of the MTC terminal can be scrambled by using the C-RNTI as the paging RNTI for the MTC terminal which is distinguished from the general terminal in the terminal-specific search space. The MTC terminal can perform decoding on the control channel indicating the paging message using the C-RNTI in the terminal-specific search space.

As another example, the base station may allocate a separate or new identifier or RNTI value that is predefined for the MTC terminal for paging of the MTC terminal.

Although the case of using the C-RNTI value is described in the present embodiment, the MTC terminal in the IDLE state can be similarly applied even when a new RNTI is used.

When monitoring the control channel indicating the paging message in the cell where the RRC connection state is maintained, the MTC terminal can decode the control channel for the paging message using the C-RNTI value allocated in the previous RRC connection state. Specifically, the base station can scramble the paging message on the corresponding PDSCH and / or the control channel indicating the paging message for the MTC terminal using the assigned C-RNTI value in the previous RRC connection state.

For this purpose, the base station can maintain the C-RNTI value assigned to the MTC terminal during the RRC connection establishment process, the network connection process, or the random access procedure for a predetermined time period even in the RRC IDLE state. To this end, the base station can control the terminal to configure display information or a timer for maintaining the C-RNTI value allocated to the MTC terminal even in the RRC IDLE state of the MTC terminal. Alternatively, it may receive display information or timer information for maintaining the C-RNTI value allocated in the RRC IDLE state through the terminal. Or may be predefined or set to apply the corresponding C-RNTI to the MTC terminal without a separate timer.

The indication information or the timer for maintaining the C-RNTI value can be configured or reconfigured through the RRC connection reconfiguration message in the RRC connection setup process or through the RRC connection release message in the RRC disconnection process have.

The MTC terminal must know the starting subframe of the physical downlink control channel for repeated transmission of the downlink control channel (PDCCH or EPDCCH) indicating the paging message for receiving the paging message of the MTC terminal. Or may be a value provided via system information. This may be extracted in the same way as the paging opportunity of the prior art, or may be defined in a similar manner. For example, as a function of a terminal identifier (UE_ID). If the system bandwidth of a cell where the MTC terminal has camped on is limited to MTC (for example, a bandwidth of 1.4 MHz in downlink and uplink) only if the MTC terminal supports only a narrowband operation If the bandwidth is larger than the bandwidth supported by the UE, the MTC UE may not be able to decode the PDCCH of the corresponding cell. Accordingly, the corresponding cell can indicate the downlink control channel information in which the MTC terminal indicates the paging message of the MTC terminal through the EPDCCH. At this time, the MTC terminal must know the frequency location of the downlink control channel (EPDCCH) indicating the paging message of the corresponding cell. It may be a predefined value or a value provided through system information. This may be defined in other ways similar to the paging opportunities of the prior art. For example, as a function of a terminal identifier (UE_ID). As described above, the MTC terminal knows the time and frequency information of the downlink control channel (EPDCCH) indicating the paging message. That is, the MTC terminal knows the time and frequency pattern information of the downlink control channel repetition indicating the paging message. In decoding the repeated transmissions of the downlink control channel indicating the paging message, the MTC terminal performs decoding through a paging RNTI (for example, C-RNTI) for the MTC terminal differentiated from the general terminal in the terminal-specific search space , The presence or absence of the paging message can be checked.

Third Example : MTC  A method for separately configuring the parameters for the terminal from the general terminal.

The control channel of the present invention is received based on a DRX (Discontinuous Reception) cycle of the MTC terminal, and the DRX cycle of the MTC terminal can be set longer than a general terminal monitoring only one paging occasion per DRX cycle.

Specifically, the DRX cycle parameter T of the UE for conventional paging is determined by a smaller value than the default DRX value broadcasted through the UE-specific DRX value and the system information, if the DRX cycle parameter T is allocated in the upper layer. If a UE-specific DRX is not configured by the upper layer, then a default value is applied (DRX cycle of the UE is determined by the UE-specific DRX value, information. If UE specific DRX is not configured by upper layers, the default value is applied).

6 is a diagram showing paging-related information on system information (radio resource configuration common information).

The default paging cycle value included in the system information (radio resource configuration common information) is shown in FIG. In Figure 6, the default paging cycle information is used to derive the DRX cycle parameter 'T'. For example, the default paging cycle may be the rf32 value for 32 radio frames and the rf64 value for 64 radio frames. Also, in FIG. 6, nB is used as one of parameters for deriving a paging frame and a paging opportunity.

For a typical terminal, it may be preferable to have a short default paging cycle to speed up voice call or voice service incoming. On the other hand, a delay tolerant MTC terminal may prefer a relatively long paging cycle. In particular, since the MTC terminal can receive a plurality of repeated subframes, power consumption is relatively high. Therefore, the MTC terminal needs to increase the default paging cycle value.

When the DRX is used, since the general terminal can monitor only one paging opportunity per DRX cycle, if the default paging cycle value for the MTC terminal is lengthened, the repeated subframe including the control channel indicating the paging message for the MTC terminal May be reduced.

However, as described above, since the present specification uses a smaller value among the default DRX values broadcasted through the system-specific DRX value and the system-specific paging cycle, the paging cycle of a specific MTC terminal can not be made long.

In order to solve this problem, the network of the present invention may be configured such that the paging cycle of the MTC terminal is configured in the MTC terminal by using a separate parameter.

As another example, the MTC terminal may be configured to use a long value of a terminal-specific paging cycle even when the terminal-specific paging cycle is greater than the cell-specific paging cycle.

If a paging cycle for the MTC terminal is configured or a terminal-specific paging cycle for the MTC terminal is configured, the MTC terminal can perform paging reception using the corresponding paging cycle.

For example, the base station may provide paging cycle information for the MTC terminal through an RRC Reconfiguration message.

In another example, the base station may provide paging cycle information for the MTC terminal through the system information.

As another example, the MME may provide paging cycle information for the MTC terminal. The MME can provide paging indication information and paging cycle information for the MTC terminal in the paging message to the base station.

The MTC terminal and the base station can apply a paging cycle for the MTC terminal that is longer than the cell-specific default paging cycle. At this time, the conventional paging cycle for the MTC terminal can use 32 ~ 256 radio frames. Or a cycle for the MTC terminal may use a value greater than a conventional 256 radio frame (e.g., 512 radio frames or 1024 radio frames).

As a parameter for the MTC terminal described above, a paging frame and a parameter nB used for deriving a paging opportunity can be separately defined and configured. For example, in addition to the nB parameter provided through system information as a cell-specific value, a separate parameter for the MTC terminal may be configured in the terminal. If a separate nB parameter for the MTC terminal is configured, the MTC terminal can receive the paging message by calculating the paging opportunity or paging frame using the corresponding nB parameter.

As an example of a method for separately defining the nB parameter for the MTC terminal, the base station can provide the nB information for the MTC terminal through the RRC reconfiguration message.

In another example, the base station may provide nB information for the MTC terminal through the system information.

As another example, the MME may provide nB information for the MTC terminal. The MME can provide paging indication information and nB information for the MTC terminal in the paging message to the base station. The nB parameter is a multiple of the paging cycle (4T, 2T, T, T / 2, T / 4, T / 8, T / 16, T) by configuring the nB information for the MTC terminal to a small value. / 32). If the nB parameter is T / 32, then there are 32 radio frames apart between the two different paging opportunities. If the nB parameter is T / 16, there are 16 radio frames apart between the two different paging opportunities.

In the case of a general terminal, it may be preferable to have a short default paging cycle so that a voice call or a voice service can be quickly received. In this case, using a small nB parameter may result in a small number of paging groups with the same paging opportunity. Therefore, it may be difficult to distribute the paging to the proper paging capacity in the cell. Therefore, as described above, it is possible to configure the nB parameters for the MTC terminal to be distinguished from the cell-specific nB parameters for the general terminal.

Fourth Example : MTC  A shorter terminal identifier or a shorter terminal identifier Paging  Using a message Paging  How to do it.

7 is a diagram illustrating an exemplary paging information element. FIG. 8 is an exemplary diagram illustrating an SA-Temporary Mobile Subscriber Identity (S-TMSI) information element.

As shown in FIG. 7, the paging message may include one of an S-Temporary Mobile Subscriber Identity (S-TMSI) and an International Mobile Subscriber Identity (IMSI) as the UE identity on the paging record. According to the current 3GPP TS 23.003 document on wireless communication, the IMSI shall not exceed 15 digits. The S-TMSI is composed of 8-bit MMEC (MME code) and 32-bit m-TMSI. Figure 8 shows the information elements of the S-TMSI and MMEC. The cn-Domain in FIG. 7 indicates the origin of the paging. The term " imsi " refers to the international mobile subscriber identity, which means globally unique persistent subscriber identity. The first element contains the first IMSI digit and the second element contains the second IMSI digit. Meanwhile, the ue-identity provides non-access stratum (NAS) identification information of the terminal receiving the paging.

The paging message for the MTC terminal of the present invention may include terminal identification information that is different from a general terminal monitoring only one paging opportunity per DRX cycle or may include only information for one MTC terminal. That is, the paging message for the MTC terminal may contain less data than the paging message of the general terminal. Alternatively, the paging message for the MTC terminal may be generated by deleting the paging record field included in the paging message for the general terminal.

Specifically, in order to transmit the paging message for the MTC terminal through the PDSCH, several tens to several hundreds of repetitive transmissions are required. A larger paging message or TBS (Transport Block Size) size may increase the number of repeated transmissions required for coverage extension.

Therefore, in order to reduce the size of the paging message for the MTC terminal, the paging record may include the terminal identification information having a size smaller than that of the conventional IMSI and S-TMSI.

For example, the m-TMSI may be used as the terminal identification information in the paging record for the MTC terminal. The MTC terminal may have mainly stationary characteristics. Thus, the MTC terminal may include an indication for the MTC terminal in a network registration (e.g., attach) or a tracking area update or service request procedure. In addition, the base station can receive the terminal context information (e.g., terminal capability information) for the MTC terminal from the MME. Alternatively, the base station can receive an indication from the terminal for the MTC terminal in the RRC connection setup process. Alternatively, the MME may provide the paging indication information for the MTC terminal or the m-TMSI information as the terminal identifier in the paging message to the base station. Through this, the base station can use the m-TMSI information in the terminal identifier of the paging message for the MTC terminal.

As another example, a C-RNTI may be used as the terminal identifier of the paging message for the MTC terminal. For example, if the C-RNTI allocated to the RRC connection state is used for the paging of the MTC terminal, the terminal can include the C-RNTI as the terminal identification information.

As another example, the terminal identifier of the paging message for the MTC terminal may be defined and used as a shorter value. For example, a separate or new identifier / RNTI allocated to the MTC terminal by the base station may be included as the terminal identification information.

In addition to this, the identification information that can be used as the terminal identification information included in the paging record may be smaller than the IMSI of the general terminal or the S-TMSI. Accordingly, even if the MTC terminal repeatedly receives the paging message, the amount of total transmission data can be reduced.

Another way to reduce the size of the paging message for the MTC terminal is to define a new paging message format for the MTC terminal or to change the paging message format.

For example, the MTC terminal may not include a paging record list. For example, one paging message may include only paging for one terminal.

As another example, the MTC terminal can reduce the maximum number of paging records (maxPageRec) that can be included. For example, the current maxPageRec of 16 can be reduced to 8 or 4, 3 or 2, and so on.

As another example, the MTC terminal may not include the cn-Domain information on the paging record. The MTC terminal may not need the cn-Domain information because of the characteristic that motion is minimized. For example, the paging record may include only the terminal identification information or only the terminal identification information without the paging record.

The paging message for the MTC terminal may be a method for reducing the size of the paging message or a method for including the terminal identification information having a small size in the paging record. Or the respective methods may be used in combination with each other.

In addition, each of the methods of the above-described first to fourth embodiments may be used independently, or at least one embodiment may be used in combination.

The operation of the base station in which all of the above-described present invention can be performed will be described with reference to the drawings.

FIG. 9 is a view for explaining an operation of a base station according to another embodiment of the present invention.

A method of transmitting a paging message according to another exemplary embodiment of the present invention includes generating a scrambled control channel by an identifier indicating a paging message for a MTC (Machine-Type Communication) terminal, And repeatedly transmitting the paging message through a plurality of subframes.

Referring to FIG. 9, the base station may include a step of generating a control channel scrambled by an identifier indicating a paging message for an MTC (Machine-Type Communication) terminal (S910). The base station may define or set identifiers differently to distinguish between the general terminal and the control channel indicating the paging message of the MTC terminal. For example, the identifier for the MTC terminal may be a predetermined RNTI value separated from an identifier indicating a paging message of a general terminal monitoring only one paging opportunity per DRX cycle. That is, as described with reference to the first embodiment, an unused value or an RNTI value that is not a P-RNTI may be used as an identifier for the MTC terminal.

Alternatively, the identifier for the MTC terminal may be a C-RNTI (Cell-Radio Network Temporary Identifier) value used in the RRC connection state in any cell of the MTC terminal. That is, as described with reference to the second embodiment, the C-RNTI value used in the previous RRC connection state in the corresponding cell of the MTC terminal can be used as an identifier so as to be distinguished from the general terminal.

The base station of the present invention may include transmitting a control channel (S920). In transmitting the control channel, the transmission cycle can be set differently so that the general terminal and the MTC terminal can be distinguished. For example, the control channel indicating the paging message of the MTC terminal may be transmitted based on the DRX cycle of the MTC terminal, and the DRX cycle of the MTC terminal may be set longer than the general terminal monitoring only one paging opportunity per DRX cycle . That is, the control channel for the paging procedure of the MTC terminal can be transmitted according to the DRX cycle set longer than that of the general terminal.

Meanwhile, the base station may repeatedly transmit the paging message through a plurality of subframes (S930). The base station may repeatedly transmit a paging message for the MTC terminal through a plurality of subframes or a plurality of radio frames in order to improve coverage. Also, the base station may set the data size of the information field or the paging message included in the paging message to differentiate the paging message between the general terminal and the MTC terminal. That is, the paging message may include only information for one MTC terminal, and the paging record may not be included. Alternatively, as described in the fourth embodiment, the terminal identification information of the paging record included in the paging message may be different from the terminal identification information of the general terminal.

In addition, the base station may perform all of the operations according to the embodiments of the present invention described in the first through fourth embodiments, and the specific steps may be omitted or divided into two or more steps as necessary. Or the order of each step may be changed as needed.

As described above, the present invention provides an effect of preventing unnecessary operations that may occur in the paging process of the general terminal by distinguishing the paging of the MTC terminal, which should provide improved coverage, from the general terminal. In addition, it provides an effect of effectively performing paging for the MTC terminal. Also, the present invention provides an effect that the paging procedure related to the MTC terminal and the paging procedure for the general terminal are not overlapped by distinguishing the paging procedure related signals and messages of the MTC terminal from the general terminal. In addition, the present invention provides an effect of solving a problem caused by overlapping with a paging signal for a general terminal when a signal for a paging procedure of the MTC terminal is repeatedly transmitted. Also, the present invention provides an effect of preventing an unnecessary paging record check procedure of a general terminal by allowing a paging message to be distinguished for a terminal through a control channel transmitted from a base station.

The configuration of a terminal and a base station capable of performing all of the above-described present invention will be described once more with reference to the drawings.

10 is a diagram illustrating a configuration of a MTC terminal according to another embodiment of the present invention.

The MTC terminal 1000 according to another embodiment of the present invention includes a receiver 1030 that receives a control channel scrambled by an identifier indicating a paging message and a receiver 1030 that identifies an identifier in the control channel and instructs a paging message for the MTC terminal (Not shown).

Referring to FIG. 10, the MTC terminal 1000 includes a receiving unit 1030, a control unit 1010, and a transmitting unit 1020.

The receiving unit 1030 receives the control channel scrambled by the identifier indicating the paging message. In addition, the receiving unit 1030 repeatedly receives a paging message through a plurality of subframes based on the control channel. As described with reference to FIGS. 1 to 9, the control channel received by the receiving unit 1030 may be generated by different identifiers so that the general terminal and the MTC terminal can be distinguished from each other. Or may be received based on different DRX cycles. In addition, the reception unit 1030 receives downlink control information, data, and messages from the base station through the corresponding channel.

The control unit 1010 controls the overall operation of the terminal according to the reception of the MTC terminal, which needs to provide enhanced coverage necessary for performing the above-described present invention, and the control channel indicating the paging message or the paging message of the general terminal. do.

The transmission unit 1020 transmits the uplink control information, data, and messages to the base station through the corresponding channel.

11 is a diagram illustrating a configuration of a base station according to another embodiment of the present invention.

The base station 1100 according to another embodiment of the present invention transmits a control channel with a control unit 1110 that generates a control channel scrambled with an identifier indicating a paging message for the MTC terminal, And a transmitter 1120 for repeatedly transmitting the frame through the frame.

11, a base station 1100 according to another embodiment of the present invention includes a control unit 1110, a transmission unit 1120, and a reception unit 1130.

The control unit 1110 may generate a scrambled control channel by an identifier indicating a paging message for the MTC terminal. Here, the identifier may be a value differentiated from the general terminal according to each embodiment as described above. Specifically, an identifier of a value other than the P-RNTI may be used. Or the C-RNTI value previously used in the cell by the MTC terminal may be used. In addition, each of the methods described in the first and second embodiments described above can be used.

In addition, the control unit 1110 controls the overall operation of the base station according to which the paging procedure of the MTC terminal and the general terminal, which need to provide the enhanced coverage required to perform the above-described present invention, can be distinguished from each other.

The transmitting unit 1120 may transmit the control channel and repeatedly transmit the paging message through a plurality of subframes. The control channel or paging message may be repeatedly transmitted over a plurality of subframes or a plurality of radio frames. This provides a goal of coverage improvement for MTC terminals. Also, the transmitter 1120 may transmit the control channel and the paging message according to different DRX cycles of the MTC terminal and the general terminal, as described in the third embodiment. Also, the paging message transmitted by the transmitter 1120 may be configured such that the paging message of the general terminal, the configuration, and the amount of data are distinguished as in the fourth embodiment described above. That is, the paging message for the MTC terminal may not include the paging record. Alternatively, the paging message for the MTC terminal may include a paging record, and the terminal identification information in the paging record may be transmitted using the terminal identification information different from the general terminal.

In addition, the transmitting unit 1120 and the receiving unit 1130 are used to transmit and receive signals, messages, and data necessary for performing the above-described present invention to and from the terminal.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (20)

A method of receiving a paging message by a MTC (Machine-Type Communication)
Receiving a scrambled control channel by an identifier indicating a paging message;
Confirming whether the paging message for the MTC terminal is indicated by checking the identifier in the control channel; And
And repeatedly receiving the paging message on a plurality of subframes based on the control channel. The method according to claim 1,
Wherein the identifier comprises:
Wherein the Paging Message is a Radio Network Temporary Identifier (RNTI) value separated from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per DRX (Discontinuous Reception) cycle. The method according to claim 1,
Wherein the identifier comprises:
Wherein the MTC terminal is a Cell-Radio Network Temporary Identifier (C-RNTI) value used in an RRC connection state in an arbitrary cell. The method according to claim 1,
Wherein the control channel comprises:
A DRX cycle of the MTC terminal is received based on a DRX (Discontinuous Reception) cycle of the MTC terminal,
Wherein the DRX cycle is set longer than a general terminal monitoring only one paging occasion. The method according to claim 1,
The paging message includes:
DRX (Discontinuous Reception) Contains terminal identification information that distinguishes a general terminal monitoring only one paging occasion per cycle,
And only information for one MTC terminal is included. A method for a base station to transmit a paging message,
Generating a scrambled control channel by an identifier indicating a paging message for a MTC (Machine-Type Communication) terminal;
Transmitting the control channel; And
And repeatedly transmitting the paging message through a plurality of subframes. The method according to claim 6,
Wherein the identifier comprises:
Wherein the Paging Message is a Radio Network Temporary Identifier (RNTI) value separated from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per DRX (Discontinuous Reception) cycle. The method according to claim 6,
Wherein the identifier comprises:
Wherein the MTC terminal is a Cell-Radio Network Temporary Identifier (C-RNTI) value used in an RRC connection state in an arbitrary cell. The method according to claim 6,
Wherein the control channel comprises:
A DRX cycle of the MTC terminal is transmitted based on a DRX (Discontinuous Reception) cycle of the MTC terminal,
Wherein the DRX cycle is set longer than a general terminal monitoring only one paging occasion. The method according to claim 6,
The paging message includes:
DRX (Discontinuous Reception) Contains terminal identification information that distinguishes a general terminal monitoring only one paging occasion per cycle,
And only information for one MTC terminal is included. A MTC (Machine-Type Communication) terminal for receiving a paging message,
A receiver for receiving a control channel scrambled by an identifier indicating a paging message; And
And a controller for checking whether the paging message for the MTC terminal is indicated by checking the identifier in the control channel,
Wherein the receiving unit repeatedly receives the paging message through a plurality of subframes based on the control channel. 12. The method of claim 11,
Wherein the identifier comprises:
DRX (Discontinuous Reception) A terminal that is a predetermined Radio Network Temporary Identifier (RNTI) value separated from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per cycle. 12. The method of claim 11,
Wherein the identifier comprises:
Wherein the MTC terminal is a Cell-Radio Network Temporary Identifier (C-RNTI) value used in an RRC connection state in an arbitrary cell. 12. The method of claim 11,
Wherein the control channel comprises:
Wherein the DRX cycle of the MTC terminal is set longer than a general terminal monitoring only one paging occasion per DRX cycle, based on a DRX (Discontinuous Reception) cycle of the MTC terminal. 12. The method of claim 11,
The paging message includes:
DRX (Discontinuous Reception) Contains terminal identification information that distinguishes a general terminal monitoring only one paging occasion per cycle,
And includes only information for one MTC terminal. A base station for transmitting a paging message,
A controller for generating a scrambled control channel by an identifier indicating a paging message for a MTC (Machine-Type Communication) terminal; And
And a transmitter for transmitting the control channel and repeatedly transmitting the paging message through a plurality of subframes. 17. The method of claim 16,
Wherein the identifier comprises:
DRX (Discontinuous Reception) A base station that is a predetermined Radio Network Temporary Identifier (RNTI) value separated from an identifier indicating a paging message of a general terminal monitoring only one paging occasion per cycle. 17. The method of claim 16,
Wherein the identifier comprises:
Wherein the MTC terminal is a Cell-Radio Network Temporary Identifier (C-RNTI) value used in an RRC connection state in an arbitrary cell. 17. The method of claim 16,
Wherein the control channel comprises:
And the DRX cycle of the MTC terminal is set longer than that of a general terminal monitoring only one paging occasion per DRX cycle. 17. The method of claim 16,
The paging message includes:
DRX (Discontinuous Reception) Contains terminal identification information that distinguishes a general terminal monitoring only one paging occasion per cycle,
And includes only information for one MTC terminal.

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