KR20120093753A - Method and appratus of handling user equipment category in wireless communication system - Google Patents

Abstract

PURPOSE: A method and apparatus for processing a terminal category in a wireless communication system are provided to accurately utilize information according to network versions by preventing the malfunction of a portable terminal. CONSTITUTION: A terminal capability report message including a plurality of terminal categories are transmitted to a network(111). An RRC(Radio Resource Control) connection reconfiguration message including terminal category information is received from the network(117). The terminal transmits a handover complete message to a target cell(133). A terminal communicates with the network by receiving the terminal category information(135).

Description

METHOD AND APPRATUS OF HANDLING USER EQUIPMENT CATEGORY IN WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a wireless communication system, and more particularly, to a method and apparatus for processing a higher version terminal category in a lower version network in a Long Term Evolution (LTE) system.

In general, mobile communication systems have been developed to provide voice services while guaranteeing user activity. However, mobile communication systems are gradually expanding to not only voice but also data services, and now they have developed to the extent that they can provide high-speed data services. However, in the mobile communication system in which a service is currently provided, a shortage of resources and users demand faster services, and thus, a more advanced mobile communication system is required.

In response to these demands, one of the systems being developed as a next generation mobile communication system, a specification work for Long Term Evolution (LTE) and LTE-Advanced (LTE-A) is underway in the 3rd Generation Partnership Project (3GPP). To this end, various methods are discussed. For example, the network structure can be simplified to reduce the number of nodes located on the communication path, or the wireless protocols can be as close to the wireless channel as possible.

On the other hand, as the technology of the wireless communication system develops, the old version communication system is evolved into a new version communication system with the addition of new functions, thereby causing a compatibility problem between the old version network and the new version network.

For example, LTE systems have a standard specification starting with Rel-8 (Release-8, hereinafter referred to as Rel-8), and Rel-9, now Rel-10. However, there is a problem that the existing Rel-8 / 9 version of the network does not understand the 'terminal category' that the current Rel-10 version of the terminal informs the network.

Therefore, there is a need to solve the compatibility problem between different versions of the terminal and the network.

The present invention was devised to solve the above problems, and when a higher-level release (Release) terminal accesses the network, it informs the terminal category according to the release version of the network so that the terminal and the network can communicate smoothly. It is an object of the present invention to provide a method and apparatus.

In order to solve the above problem, the terminal informs both of the first terminal category ('first UE category') and the second terminal category ('second UE category') when the network enters (several category transmission), and which category is the ENB. Determine whether to use and informs the terminal. Then, the terminal uses the category and the corresponding 'soft channel bit total number' as instructed. Until receiving the instruction, the UE prevents a malfunction by using a category of the first UE category and a corresponding total number of soft channel bits. In addition, if the category related information is not included in the handover, the category of the first terminal category ('first UE category') is used, and if it is included, it operates in the target ENB using the indicated category information.

More specifically, in the mobile communication system of the present invention, a method of performing communication of a terminal may include: transmitting a terminal capability report message including a plurality of terminal categories to a network, and used by the terminal according to a type of a serving base station for the terminal; And receiving a RRC connection reconfiguration message including terminal category information from the network, and communicating with the network according to the terminal category information received from the network.

In addition, in the mobile communication system of the present invention, a terminal communicating with a network transmits a transceiver for transmitting and receiving signals with the network, and a terminal capability report message including a plurality of terminal categories to a network, and a serving base station for the terminal. And a controller configured to receive an RRC connection reconfiguration message including terminal category information to be used by the terminal from the network and to communicate with the network according to the terminal category information received from the network. .

By using the proposed method, the terminal can use the information suitable for the network version to eliminate the malfunction, and accordingly, by utilizing the higher transmission rate, it is possible to communicate with the network by maximizing the capabilities of the terminal.

1 is a flow chart illustrating a message flow in accordance with an embodiment of the present invention.
2 is a flowchart illustrating an operation sequence of a terminal according to an embodiment of the present invention.
3 is a flowchart illustrating an operation sequence of handover of a terminal according to an embodiment of the present invention.
4 is a block diagram showing the internal structure of a terminal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of well-known functions and constructions that may obscure the gist of the present invention will be omitted.

In addition, in describing the embodiments of the present invention in detail, an advanced E-UTRA (or LTE-A) system supporting carrier aggregation will be the main target, but the main points of the present invention are similar. Other communication systems having a technical background and a channel form may be applied with a slight modification without departing from the scope of the present invention, which may be determined by those skilled in the art.

In the current LTE system, the terminal informs the network of its wireless communication capability through the 'terminal category', and the network provides a service according to the capability of the terminal accordingly. Table 1 below shows information that each of the 'terminal categories' means.

UE Category Maximum number of bits a terminal can receive within one TTI (1ms) Maximum number of bits that a terminal can receive from one transport block in one TTI Total number of soft channel bits (buffer size) Maximum number of supported downlink layers Category 1 10296 10296 250368 One Category 2 51024 51024 1237248 2 Category 3 102048 75376 1237248 2 Category 4 150752 75376 1827072 2 Category 5 299552 149776 3667200 4 Category 6 301504 75376 3667200 2 Category 6 ’ 301504 149776 (4 layers) 3667200 4 Category 7 301504 75376 (2 layers) 3667200 2 Category 7 ’ 301504 149776 (4 layers) 3667200 4 Category 8 2998560 299856 (2 layers) 35982720 8

In Table 1, 'the maximum number of bits that a terminal can receive within one TTI (1ms)' is multiplied by 1000 to convert the system to the maximum transmission rate per second.

In Table 1, 'the total number of soft channel bits' is not only related to the buffer size of the terminal but also affects the rate matching operation. If the total number of soft channel bits is N _soft , the transport block soft buffer size is N _IR , and the code block soft buffer size is N _cb , there is a relationship as in Equation 1 below.

Here, KMIMO has a value of 2 or 1 depending on the transmission mode, and min (M _{DL_HARQ} , M _limit ) generally has a value of 8. In addition, C is the number of code blocks, K _W represents the length of the circular buffer _and has a relationship of K _W = 3K _n , and K _n has a length of 6144 bits as the interleaver size of the subblock. That is, as shown in the above formula, when the N _soft value affects the N _IR value and the N _IR / C value is smaller than K _{W, that} is, when the high-speed data transmission and reception proceed, the N _IR value is the value of N _cb . It can be seen that it affects. Since the puncturing / repetition pattern is affected according to the value of N _cb , it can be seen that if the N _soft value between the UE and the ENB is misunderstood, the wrong operation is affected.

In Table 1, 'the maximum number of supported downlink layers' refers to the capability of a terminal in MIMO (Multi-Input and Multi-Output) technology when a plurality of antennas are used on a transmitting / receiving side.

In addition, in Table 1, Category 6 and Category 7 have the same downlink maximum data rate, but are different to 75 Mbps and 150 Mbps in the uplink maximum transmission flow, respectively. In addition, Category 6 and 7 have two types of 6, 6 'and 7, 7', respectively, and 6 and 7 are cases where carrier aggreagation is used, and 6 'and 7' are 4 layers in MIMO. It means if you support it.

On the other hand, the Rel-8 / 9 system (or the first version network, which is the same below) supports only 1 to 5 times in the 'terminal category', and 6 to 8 Rel-10 systems (or, Was first introduced in the 2 version network, which is the same below). Thus, the Rel-8 / 9 network cannot interpret what 'terminal categories' 6 through 8 mean. In addition, in the current LTE system, the UE cannot know the release number (ie, network version information) of the current network, so when the Rel-10 UE accesses the network, the terminal category is not 6-8. In this case, additional signaling is needed to understand Rel-8 / 9. When categories 1 to 5 are referred to as a first UE category and categories 6 to 8 are defined as a 'second UE category', the UE is connected to the Rel-8 / 9 network. There is a problem that it is not clear which category group to use for communication.

The present invention was devised to solve the above problems, and when a higher-level release (Release) terminal accesses the network, it informs the terminal category according to the release version of the network so that the terminal and the network can communicate smoothly. Provide a method.

1 is a flowchart illustrating a message flow according to an embodiment of the present invention.

Among the terminals of the REL-10 or a later release, the terminal 101 of a category which is not understood by the base station before the REL-9 (release 8 or release 9 base station) is turned on in step 109. In step 111, the terminal 101 notifies the networks 103 and 107 of the plurality of categories using a predetermined control message. The control message may be a UE capability report message (UE capability) including information on the wireless communication capability of the terminal.

 As described above, the terminal category is any one selected from the category of the first terminal category (category 1-5) that the base stations before Rel-9 can understand, and the base station that the base stations after Rel-10 can understand. 2 includes any one category selected from the category (category 6-8) of the terminal category. According to an embodiment of the present invention, the terminal 101 transmits a first terminal category through a 'ue-Category' field of the terminal capability report message, and a second terminal category is 'ue-' of the terminal capability report message. It is transmitted through the 'Category-v10xy' (xy can be changed to version information) field. The terminal 101 additionally transmits information related to the performance of the terminal, for example, a buffer size and a supporting frequency band of the terminal of the second layer in the terminal capability report message.

For reference, the terminal 101 may report a plurality of terminal categories, but may report only one terminal category between categories 1 to 5, and may report only one terminal category between categories 6 to 8. . That is, in the present invention, the terminal 101 transmits a plurality of terminal categories means that can transmit different terminal categories used in different versions of the network, a plurality of terminals used in the same version of the network This does not mean that you can send categories.

Meanwhile, when the terminal 101 is a lower version of the terminal, the terminal capability report message including only the first terminal category is transmitted to the network.

The control message transmitted by the terminal 101, that is, a terminal capability report message ('UE capability') is a unit that manages mobility in a mobility management entity (Mobility Management Entity, MME: network) via a serving ENB 103; Hereinafter referred to as MME). At this time, the serving ENB 103 transmits to the MME 107 without interpreting the 'UE capability' transmitted by the terminal.

In step 113, the MME 107 having received the UE capability report message transmits the relevant information that the serving ENB 103 needs to know, including category information of the UE, from the 'UE capability' information to the serving ENB 103. In this case, the MME 107 already knows the network version information of the terminal 101 and the serving ENB 103. Accordingly, the MME 107 provides the terminal ENB 103 with terminal category information that the terminal 101 and the serving ENB 103 should use to enable mutual compatibility according to the version information of the terminal 101 and the serving ENB 103. To pass. In FIG. 1, since the terminal 101 after Rel-10 accesses the serving ENB 103 after Rel-10, the MME 107 displays the first terminal category and the second terminal category information in step 113. Deliver the terminal capability response message to the serving ENB (110).

If the serving ENB 110 is an ENB of Rel-8 / 9, the MME 107 transmits a terminal capability response message including only first category information to the serving ENB.

The serving ENB 103 selects which category to use for the terminal 101.

If the serving ENB 103 is a Rel-8 / 9 base station, the serving ENB 103 ignores the category of the second terminal category and does not separately indicate the terminal category to be used for the terminal 101.

On the other hand, if the serving ENB 103 is the base station after Rel-10, the second terminal category can be understood. Accordingly, in order to use the Nsoft value of the second terminal category, the serving ENB 103 selects the use of the second terminal category and, in step 117, uses an RRC CONNECTION RECONFIGURATION message. Instructs the terminal to include the terminal category information to be used, including information on whether it is used.

The method of instructing the use of the category of the 'second UE category' includes a method of directly designating a category to be used by the terminal, or when a predetermined function among new functions added to the Rel-10 system is set, the 'second UE category' There is a method of judging using a category. Among the functions newly added to the Rel-10 system, a predetermined function related to the category of the 'second UE category' may be one of the following functions.

-When transmission mode 9 is set as the forward transmission mode

o Each UE has one transmission mode for transmitting a physical downlink shared channel (PDSCH), and mode 8 is newly defined in Rel-9 and mode 9 in Rel-10.

Transmission mode # 9 supports single user-multi-input multi-output (SU-MIMO) with up to eight ranks.

Transmission mode # 9 supports multiple layers of transmission, and enables up to eight layers to be transmitted using Rel-10 DMRS (Demodulation Reference Signal; DMRS) during demodulation. do. In addition, the pre-coded DMRS is transmitted in the Rel-10 DMRS, but it is not necessary to inform the receiving end of the corresponding precoder index.

o Also, in order to support transmission mode # 9, DCI (Downlink Control Information) format 2C is newly defined in Rel-10.

-When transmission mode 2 is set to reverse transmission mode

When carrier aggregation is set

-When the MIMO capability higher than the MIMO capability of the REL-8 category of the terminal is set

If a category of 'second UE category' is directly assigned or if a predetermined function is set (for example, transmission mode 9 is set), the terminal 101 uses the category of the 'second UE category' specified in step 119. Induce Nsoft and NIR. The terminal 101 transmits and receives data to and from the network in step 121 using the derived value.

Meanwhile, according to an exemplary embodiment of the present invention, the terminal 101 has not received the instruction until it is received or the terminal (that is, the terminal in which the transmission mode 9 is not set) is not displayed. Using the lowest category among the terminal category or the terminal category reported by the terminal itself, Nsoft and NIR are derived to transmit and receive data. Then, when the terminal needs to handover at any time, the serving ENB 103 performs step 125. At, perform a handover procedure with the target ENB 105.

 In step 125, the target ENB 105 transmits configuration information to be applied to the serving ENB 103 after the terminal 101 hands over to the target ENB 105. In step 127, the serving EN 103B transmits a handover command (RRC CONNECTION RECONFIGURATION with mobility control info) including the configuration information to the terminal.

At this time, when the target ENB 105 is an old ENB (Rel-8 / 9 base station), the configuration information does not include terminal category information (or Nsoft) information to be used. On the other hand, if the target ENB 105 is a new ENB (base station after Rel-10) and wants to apply a category of a second terminal category, the terminal category information to be used may be included in the configuration information or may be newly added in Rel-10. The added predetermined function is set and transmitted. The newly added predetermined function is one of the following as described above.

-When transmission mode 9 is set as the forward transmission mode

-When transmission mode 2 is set to reverse transmission mode

When carrier aggregation is set

-When the MIMO capability higher than the MIMO capability of the REL-8 category of the terminal is set

Upon receiving the handover command message, the terminal 101 establishes forward synchronization with the target ENB 105 in step 129.

If the handover command message transmitted in step 127 includes terminal category information (or Nsoft information) to be used or if a predetermined Rel-10 new function is set, the terminal 101 indicates that the terminal is indicated. NIR is determined using Nsoft of the category corresponding to the category information or previously reported for the 'second terminal category.

As shown in FIG. 1, if the handover command message transmitted in step 127 does not include the terminal category information to be used and a predetermined Rel-10 related function is not set, the terminal displays the first step in step 131. NIR is determined using the Nsoft of the UE category (or the UE category of the previous release, or the UE category between releases 1 to 5).

Thereafter, the terminal 101 transmits a handover completion message to the target ENB 105 in step 133, and transmits and receives data in step 135 by applying Nsoft and NIR determined in step 131.

2 is a flowchart illustrating an operation sequence of a terminal according to an embodiment of the present invention. It is assumed that the terminal described in FIG. 2 is a terminal after Rel-10.

The category of the terminal may be determined in the production stage of the terminal and stored in the internal memory as in step 201. In this case, one of the categories belonging to the category 6 to 8 belonging to the second terminal category may be allocated one more category that the old base station can recognize in case it is connected to the old base station in the future.

Thereafter, in step 203, when the terminal is powered on, a suitable cell to 'camp on' is selected through a cell search operation and the like, and the terminal performs a network access process through the cell. At this time, the UE assumes that the network belongs to the first terminal category (Nsoft) and performs forward data transmission and reception. That is, the terminal performs HARQ operation by applying Nsoft of the first terminal category.

In step 205, the UE that has performed the network access transmits a UE capability report message (UE capability) including information on the wireless communication capability of the UE to the MME. In this case, the UE may identify a first UE category and a second UE category, respectively, in a 'ue-Category' field and a 'ue-Category-v10xy' field of the UE capability report message. Report together using fields.

The UE performs a normal operation while maintaining the setting set in the RRC CONNECTION SETUP process until the BS commands an RRC CONNECTION RECOFNIGURATION.

In step 207, the terminal receives an RRC CONNECTION RECOFNIGURATION message. In step 209, the UE checks whether the received RRC connection reset message includes UE category information to be used or whether a new function of a predetermined Rel-10 is set. The new function of the predetermined Rel-10 may be one of the following, for example.

-When transmission mode 9 is set as the forward transmission mode

-When transmission mode 2 is set to reverse transmission mode

When carrier aggregation is set

-When the MIMO capability higher than the MIMO capability of the REL-8 category of the terminal is set

If there is no terminal category information to be used in the RRC connection reconfiguration message or if a predetermined Rel-10 new function is not set (for example, if TM 9 is not set), the terminal proceeds to step 211 and the terminal category information is added to the first terminal category. Forward data transmission / reception is performed using Nsoft corresponding to (or most recently reported, the oldest released UE category, or the category most recently reported by the terminal between CAT 1 to 5). In the embodiment of the present invention, performing forward data transmission / reception using an Nsoft corresponding to an arbitrary category means calculating an NIR using the Nsoft, performing rate matching with the NIR, and performing an HARQ IR operation. The terminal continues the operation of step 211 until it receives a new RRC CONNECTION RECONFIGURATION message.

On the other hand, if it is determined in step 209 that the RRC connection reconfiguration message includes a predetermined Rel-10 function or information indicating the use of the second terminal category, the terminal proceeds to step 213 and indicates 'second'. Forward / receive data is transmitted using Nsoft corresponding to UE category '.

The UE continues the operation of step 213 until the first UE category is indicated or the predetermined Rel-10 function is released through the new RRC CONNECTION RECONFIGURATION message.

3 is a flowchart illustrating an operation sequence of handover of a terminal according to an embodiment of the present invention.

First, it is assumed that a terminal is connected to a network to transmit and receive data.

Meanwhile, in step 301, the terminal receives an RRC CONNECTION RECONFIGURATION message including a mobility control information, that is, a handover command message from the serving cell. The RRC CONNECTION RECONFIGURATION message includes information about a target cell of the terminal.

Upon receiving the RRC CONNECTION RECONFIGURATION message, the UE releases the connection with the current serving cell and acquires forward synchronization with respect to the target cell in step 303. If the carrier merging operation, the terminal acquires the forward synchronization for the target Primary Cell (PCell).

After obtaining the synchronization, the terminal determines whether it has reported a plurality of terminal categories in step 305. If only one terminal category is reported, the terminal proceeds to step 307 to apply the Nsoft of the terminal category reported by the UE to perform forward data transmission and reception in the target cell. That is, the RRC layer of the terminal instructs the physical layer of the terminal to determine (or assume) Nsoft by applying (or assuming) the terminal category reported by (or supported by) the terminal. Since reporting only one terminal category means that the terminal supports one of the first terminal categories defined in Rel-8, that is, one of the terminal categories 1 to 5, the RRC layer of the terminal supports the REL- It is also instructed to apply categories 8 (category 1 to category 5).

If the terminal has reported a plurality of terminal categories, the terminal proceeds to step 309 and whether the terminal category information to be used is included in the RRC CONNECTION RECOFNIGURATION message or a predetermined Rel-10 new function is set. Check if it is. Or, it is checked whether the RRC CONNECTINO RECONFIGURATION message uses delta signaling or includes full configuration. The new function of Rel-10 includes the following parameters as described above.

-When transmission mode 9 is set as the forward transmission mode

-When transmission mode 2 is set to reverse transmission mode

When carrier aggregation is set

-When the MIMO capability higher than the MIMO capability of the REL-8 category of the terminal is set

If the RRC connection reconfiguration message does not include UE category information or a predetermined Rel-10 new function configuration, or if the full configuration is signaled (full configuration signaled, the release of the target ENB is determined by the source ENB). means less than release), the UE proceeds to step 311 in which the UE reports' the first UE category (or the most recently reported UE category corresponding to the last released UE category or CAT 1 to 5). Forward / receive data is transmitted and received in the target cell (or target PCell) by using Nsoft corresponding to one category. If the RRC of the UE instructed the PHY of the UE to the UE category to be applied to the Nsoft decision in the current cell (the current cell before the handover), the RRC of the UE corresponds to the category of Rel-8 supported by the PHY of the UE. Instruct them to apply (category 1 to category 5). If the terminal category has not been indicated, since the PHY of the terminal has already applied the Rel-8 category supported by the terminal, no separate operation is required.

If the terminal category information or the new function setting of Rel-10 is included, the terminal proceeds to step 313 to transmit and receive forward data from the target cell (or target PCell) using Nsoft corresponding to the indicated terminal category. Do this. That is, the RRC of the UE notifies (or designates or notifies) the UE category instructed to the PHY of the UE, and the PHY of the UE determines Nsoft by applying the UE category indicated (or informed) by the higher layer. The UE continues operation 313 until a new UE category is indicated through a new RRC CONNECTION RECONFIGURATION message.

4 is a block diagram illustrating an internal structure of a terminal according to an embodiment of the present invention.

The terminal transmits and receives data with the upper layer 405 and transmits and receives control messages through the control message processor 407.

In operation, the terminal transmits the data through the transmitter after multiplexing through the multiplexing apparatus 403 under the control of the controller 409. Upon reception, the terminal receives the physical signal to the receiver under the control of the controller 409 (401), and then demultiplexes the received signal to the demultiplexer 403, and according to the message information, the upper layer (405). Alternatively, the control message is transmitted to the control message processor 407.

According to an embodiment of the present invention, the terminal receives information on the UE capability of the UE from the 'UE capability storage unit' 411 to the base station, and controls single or multiple UE capabilities according to the UE capability. The message is transmitted to the message processing unit 407 and reported to the base station. Then, when receiving the RRC connection reconfiguration message from the base station, the control message processing unit 407 determines whether the UE category information to be used or whether the Rel-10 new function is added, if the category belonging to the 'second UE category' In case that it is determined that the MN should be applied, the controller 409 changes the value of Nsoft and informs it so that the communication is performed by applying a parameter corresponding to the second terminal category in the subsequent communication.

In addition, upon receiving the handover command message, the control message processing unit 407 determines whether information on the terminal category to be used in the handover command message is included or whether a new Rel-10 new function is additionally set. In the case of communicating with the target base station, communication is performed by applying a parameter corresponding to the indicated 'second UE category'.

In the above, the structure of the terminal is composed of a plurality of functional blocks, and each block is described as performing a different function, but this is only an example and is not necessarily limited thereto. For example, the terminal may be configured with a transceiver 401 and a controller 409 for transmitting and receiving signals to and from the network.

In this case, the controller 409 may control to transmit a UE capability report message (UE Capability) including a plurality of terminal categories to the network when accessing and / or registering the network. The controller 409 receives, from the network, an RRC connection reconfiguration message including terminal category information to be used by the terminal according to the type of serving base station for the terminal. Then, the controller 409 controls to communicate with the network according to the terminal category information received from the network.

In this case, when the terminal capability report message is transmitted, the controller 409 includes information about a first terminal category in a terminal category field (ue-category) and includes information about a second terminal category in a terminal category version field (ue). -Category-v10xy).

Meanwhile, when the serving base station supports the second version network, that is, when the serving base station is the rel-10 base station, the controller 409 receives the RRC connection reconfiguration message in which the transmission mode 9 is set for the forward transmission mode. The transmission mode 9 supports transmission of up to eight layers, and a demodulation reference signal is transmitted with a pre-coded demodulation reference signal, and uses a new downlink control information format for the transmission mode 9.

According to an embodiment of the present invention, the controller 409 may control to communicate with the network according to the first terminal category before receiving the information on the terminal category from the network.

On the other hand, when handing over, the controller 409 receives a handover command message including terminal category information to be used in the target cell from the target cell. In this case, when the target cell supports the second version network, the handover command message may include terminal category information to be used in the target cell or new function setting used in the second version network.

By using the proposed method, when the new terminal accesses the old network or the new network, it is possible to perform smooth communication without malfunction while maintaining backward compatibility.

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 defined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

Claims (20)

In the communication method of the terminal in a mobile communication system,
Transmitting a terminal capability report message including a plurality of terminal categories to a network;
A receiving step of receiving, from the network, an RRC connection reconfiguration message including terminal category information to be used by the terminal according to a type of a serving base station for the terminal; And
And communicating with the network according to the terminal category information received from the network. The method of claim 1, wherein the transmitting step,
And a terminal capability report message including a terminal category field including information on a first terminal category and a terminal category version field including information on a second terminal category. The method of claim 2, wherein the transmitting step,
Only one of the first terminal category and the second terminal category is selected from among a plurality of terminal categories, characterized in that the communication method of the terminal. The method of claim 1, wherein the receiving step,
And if the serving base station supports the second version network, receiving a RRC connection reconfiguration message in which transmission mode 9 is set for a forward transmission mode. The method of claim 4, wherein the transmission mode 9,
Supporting up to eight layer transmission, the demodulation reference signal is a pre-coded demodulation reference signal is transmitted, and the new downlink control information format for the transmission mode 9, characterized in that the communication method of the terminal. The method of claim 1, wherein the communicating step,
Before receiving the terminal category information from the network, performing communication with the network according to a first terminal category. The method of claim 1,
And receiving a handover command message from the target cell, wherein the handover command message includes terminal category information to be used in a target cell. The method of claim 7, wherein the handover command message receiving step,
If the target cell supports a second version network,
The handover command message includes a terminal category information for use in a target cell or a new function configuration for use in a second version network. The method of claim 7, wherein the handover command message receiving step,
If the target cell does not support the second version network,
The handover command message does not include terminal category information for use in a target cell. The method of claim 7, wherein receiving a handover command message comprises:
And when a full configuration is signaled, communicating with the target cell using a first terminal category. In a terminal for communicating with a network in a mobile communication system,
A transceiver for transmitting and receiving a signal with the network; And
Transmitting a terminal capability report message including a plurality of terminal categories to a network, receiving an RRC connection reconfiguration message including terminal category information to be used by the terminal according to the type of a serving base station for the terminal from the network; And a control unit controlling to communicate with the network according to the terminal category information received from the terminal. The method of claim 11, wherein the control unit,
And a terminal capability report message including a terminal category field including information on a first terminal category and a terminal category version field including information on a second terminal category. 13. The apparatus according to claim 12,
The first terminal category and the second terminal category, characterized in that only one selected from a plurality of terminal categories. The method of claim 11, wherein the control unit,
If the serving base station supports a second version of the network, the terminal characterized in that for receiving the RRC connection reset message set to the transmission mode 9 for the forward transmission mode. The method of claim 14, wherein the transmission mode 9,
Supporting up to 8 layer transmission, the demodulation reference signal is a pre-coded demodulation reference signal is transmitted, the terminal characterized in that using the new downlink control information format for the transmission mode 9. The method of claim 11, wherein the control unit,
Before receiving the terminal category information from the network, controlling to perform communication with the network according to a first terminal category. The method of claim 11, wherein the control unit,
And a handover command message including terminal category information to be used in a target cell during handover from the target cell. The method of claim 17, wherein the target cell supports a second version network.
The handover command message includes a terminal category information for use in a target cell or a new function setting for use in a second version network. The method of claim 17, wherein the target cell does not support a second version network.
The handover command message is characterized in that it does not include the terminal category information to be used in the target cell. The terminal of claim 17, wherein the controller controls communication with the target cell using a first terminal category when a full configuration is signaled.

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