KR100740831B1 - Method of Transmitting and Receiving Control Information for DSCH - Google Patents

Abstract

The present invention relates to a next generation mobile communication system. In particular, a downlink shared channel (DSCH) transmission in a next generation mobile communication system suitable for a handover between a radio network controller (RNC) occurs. It is about a method. The downlink shared channel transmission method in the next-generation mobile communication system according to the present invention is provided with one or more second subsystems in which link settings are additionally made to the user who is established with the first subsystem. The control information was provided through the second subsystem, characterized in that the same control information is received. Accordingly, the present invention can prevent the reception of the DSCH control information from deteriorating when the DSCH is transmitted in a soft handover situation.

Downlink Shared Channel (DSCH), DSCH Control Information, Soft Handover, Radio Network Controller (RNC)

Description

Method of transmitting and receiving control information for downlink shared channel {Method of Transmitting and Receiving Control Information for DSCH}

1 is a diagram illustrating a network structure for explaining a transmission scheme of a DSCH according to the present invention;

2 is a diagram illustrating a DSCH control information transmission process in a hard split mode according to the present invention.

3 is a diagram illustrating a DSCH control information transmission process in a logical split mode according to the present invention.

4 is a diagram illustrating an example of a process of transmitting DSCH control information in hard split mode according to the present invention;

5 is a diagram illustrating an example of a process of transmitting DSCH control information in a logical split mode according to the present invention;

* Description of the symbols for the main parts of the drawings *

201: core network (CN)

202 and 203: RNS (Radio Network Subsystem)

204,205: RNC (Radio Network Controller)

206,207: RNC MAC Common / Shared Channel                 

208,209: NodeB (Logical Node)

The present invention relates to a next generation mobile communication system. In particular, a downlink shared channel (DSCH) transmission in a next generation mobile communication system suitable for a handover between a radio network controller (RNC) occurs. It is about a method.

The downlink shared channel (DSCH) in the third generation joint project (3GPP) is a transport channel for downlink burst packet data transmission that is shared and used by a plurality of user equipments (UEs). In order to transmit data to a plurality of UEs through a downlink shared channel (DSCH), a Logical Node (NodeB) code multiplexes data to be transmitted and multiplexes them to each UE. The generated data.

The downlink shared channel (DSCH) is operated together with one or a plurality of downlink dedicated channels (DL DCHs) that provide power control for the downlink shared channel (DSCH), wherein the downlink dedicated channel One DL (DCH) is operated together with one frame of a physical downlink shared channel (Physical DSCH).

When the base station Node B intends to transmit burst packet data to the user terminal UE according to such an operation method, the base station Node B first transmits control information on the downlink shared channel (DSCH) to the user terminal UE. You need to tell.

The control information is generally informed through a Transport Format Combination Indicator (TFCI) field of a specific channel such as a dedicated physical control channel (DPCCH) or by signaling between upper layers.

When control information is sent through the specific channel (for example, a Dedicated Physical Control Channel (DPCCH)) or inter-layer signaling, a plurality of physical downlink shared channels (PDSCHs), which are physical channels of the downlink shared channel (DSCH), are subsequently transmitted. Data is transmitted through a plurality of physical downlink shared channels (PDSCH) transmit data at the same spread rate in the state of frame synchronization. In addition, a specific channel, such as a dedicated physical channel (DPCCH), to which the control information is transmitted, is transmitted in advance with a plurality of physical downlink shared channels (PDSCHs) at a timing of 3 to 18 slots.

In this case, the TFCI field of the dedicated control physical channel (DPCCH) may include the downlink shared channel (DSCH) control information (ie, TFI) along with transport format indicator (TFI) information of the downlink dedicated channel (DL DCH). And code mapping information).

The TFCI field transmits TFI information of a downlink dedicated channel (DL DCH) and control information of a downlink shared channel (DSCH) together in two ways, a logical split mode and a hard split mode.

In the logical split mode method, the TFI information and the downlink shared channel (DSCH) control information are combined in a medium access control (MAC) layer and coded by a (32, 10) secondary read-muller coding method. Is sent to the user via the TFCI field. On the other hand, in the hard split mode, the two pieces of information (TFI information and DSCH control information) transmitted from the upper layer are coded by using the (16,5) lead-muller coding scheme in the physical layer, respectively, to the user through the TFCI field. Send together.

However, in the related art, when a soft handover occurs between control stations (RNCs), a user receives DSCH control information transmitted from TFCI fields of one or more DL physical control channels (DL DPCCHs). In this case, only some downlink dedicated physical control channels (DL DPCCHs) may transmit DSCH control information, and others may not transmit.

In this case, the user in a soft handover situation performs closed loop power control based on a good downlink dedicated physical control channel (DL DPCCH), so if downlink does not transmit downlink shared channel (DSCH) control information, If the state of the DL physical control channel (DL DPCCH) is good and the channel state of the DL dedicated physical control channel (DL DPCCH) that transmits the downlink shared channel (DSCH) control information is not good, the reception state of the DSCH control information may also worsen. There is a problem that can be.

Due to this problem, a user who does not properly receive DSCH control information cannot receive data of high-speed packet data transmitted through a downlink shared channel (DSCH).

Accordingly, an object of the present invention has been devised in view of the above-mentioned problems of the prior art, and a moving user may receive the same from a plurality of Drift RNCs that are linked after soft handover in addition to the serving RNC. Downlink shared channel transmission method in a next generation mobile communication system for receiving downlink shared channel (DSCH) control information to receive high-speed burst packet data transmitted from a serving RNC through a downlink shared channel (DSCH) without error. It is to provide.

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Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.
The present invention relates to a method in which a first control station (RNC) generates control information for a downlink shared channel (DSCH), and the generated control information belongs to the first control station. Transmitting to the first base station (Node B), transmitting the generated control information to a second control station, and the second control station transmitting the control information to a second base station belonging to the second control station. And transmitting, by the first base station and the second base station, the control information by using a dedicated channel (DCH) for a user equipment (UE). It provides a control information transmission method for the.
The present invention also relates to a user equipment (UE) for performing a handover from a first base station (Node B) belonging to a first control station (RNC) to a second base station belonging to a second control station. In the method for receiving control information for a downlink shared channel (DSCH), the downlink shared channel through a dedicated physical control channel (DPCCH) transmitted from the first base station Receiving control information for the control channel; and receiving control information for the downlink shared channel through a Dedicated Physical Control Channel (DPCCH) transmitted from the second base station; Soft combining the control information received from the base station and the control information received from the second base station; Receiving control information for a downlink shared channel, the method comprising receiving data through a link sharing channel and decoding data received through the downlink shared channel using the control information received by the soft combining; Provide a method.

1 is a diagram illustrating a network structure for explaining a transmission scheme of a DSCH according to the present invention.

In general, the UMTS structure includes a user equipment (hereinafter, abbreviated as UE), a universal terrestrial radio access network (UTRAN), and a core network (hereinafter, abbreviated as CN).

Accordingly, FIG. 1 illustrates the connection between CN 101 and UTRAN 102 and 103 based on the basic structure of the UMTS and the basic structure of UTRAN 102 and 103. The UTRAN 20 provides a CN through a logical interface called Iu. And a radio network subsystem (hereinafter referred to as RNS) 102 and 103 in connection with 101.

One RNS 102 or 103 consists of one Radio Network Controller (hereinafter RNC) 104 or 105 and one or more logical nodes 108 or 111. Each logical node (hereinafter, abbreviated as Node B) 108 or 111 is divided into a plurality of cells, and includes, as its active set, a cell having a magnitude of a pilot signal among the plurality of cells. For a user to be transmitted (as opposed to NodeB's point of view, it includes multiple users in its service area) and is responsible for wireless transmission to one or more users located within the NodeB's service area, and Node B 108 or 111 It is connected to the RNC 104 or 105 in its RNS 102 or 103 via an interface called Iub.

The RNC 104 or 105 is responsible for controlling the use and integrity of radio resources, and is responsible for handovers that require signal processing to multiple users, and large scale between different Node Bs 108 or 111. It also includes combining / separating functional blocks to support diversity.

Within the UTRAN, each RNC 104, 105 of the different RNS 102, 103 is connected via a logical interface called Iur.

For example of the RNS1 102 of the UMTS structure, if the data to be transmitted to the user through the downlink shared channel (DSCH) occurs in the RNC1 (104), the data to be transmitted is the downlink shared channel (DSCH) Node B1 108 is transmitted to the Node B1 108, and the Node B1 108 transmits the transmitted data to a user terminal (UE) through a physical downlink shared channel (PDSCH).

On the other hand, when the RNC1 104 generates data to be transmitted to the user through the downlink shared channel (DSCH), the RNC1 104 MAC common / shared channel 107 layer provides the DSCH control information for the data to be transmitted. The generated DSCH control information is transmitted to the Node B1 108 together with the transmitted data through the downlink shared channel (DSCH).

In particular, the DSCH control information generated in the RNC1 MAC common / shared channel 107 is transmitted directly to the physical layer of the Node B1 108, in which the DSCH control information is transmitted through a dedicated channel 1 (DCH1). Along with the transmitted TFI information (TFI1) is coded by the (32, 10) or (16, 5) Reed-Muller coding scheme is transmitted to the user through the TFCI field of the dedicated physical channel 1 (DPCH1).

In particular, if the user is assumed to be moving from the RNC1 104 to the RNC2 105 region, soft handover may occur between the RNCs 104 and 105. At this time, the mobile user may assume that the link is established with both the RNC1 104 and the RNC2 105, but the signal transmission system is unstable. Therefore, when data to be transmitted from the RNC1 104 is transmitted through the downlink shared channel 1 (DSCH1), the user may not receive the DSCH control information for the data to be transmitted. The user may fail to transmit data through the downlink shared channel 1 (DSCH1).

2 and 3 propose a method of transmitting the DSCH control information through an Iur interface between the RNCs 104 and 105 when a handover between RNCs occurs to solve such a problem.

2 is a diagram illustrating a DSCH control information transmission process in the hard split mode according to the present invention.

In FIG. 2, the hard split mode is divided in accordance with the TFI information transmitted through the TFCI field of the dedicated physical channel (DPCH) and the coding method of the DSCH control information as described above. It indicates a method of being combined and transmitted in the TFCI field after being coded by the Muller coding scheme.

Referring to FIG. 2, data to be transmitted from the RNC1 204 to the user is generated, and a soft handover to the RNC2 205 occurs because the user is moving so that the user can communicate with both the RNC1 204 and the RNC2 205. Assuming that the link is established, the DSCH control information generated in the RNC1 MAC common / shared channel 206 is transmitted to the user through a dedicated physical channel (DPCH1) of any one of the plurality of cells configured in the Node B1 208. Is being sent.

In addition, the DSCH control information generated in the MAC common / shared channel 1 206 in the RNC1 204 is MAC common / shared channel 2 207 in the RNC2 205 newly linked with the user by soft handover. Is sent via the Iur interface.

The DSCH control information transmitted to the MAC common / shared channel 2 207 is transferred directly to the physical layer of the Node B2 209 through an Iub interface, and thus, of any one of a plurality of cells 2 configured in the Node B2 209. It is transmitted to the user through a dedicated physical channel DPCH2.

In this case, the DSCH control information transmitted through the dedicated physical control channel 1 (DPCH1) from the MAC common / shared channel 1 206 in the RNC1 204 and the DSCH control information transmitted through the dedicated physical channel 2 (DPCH2) are MAC. The same information created by common / shared channel 1 206 is simultaneously transmitted to the user via one or more RNCs linked with the user. The user, having received the DSCH information from one or more RNCs linked with the user, soft-combines and decodes TFCI information of the dedicated physical channel 1 (DPCH1) and the dedicated physical channel 2 (DPCH2) as in the above example.

3 is a diagram illustrating a DSCH control information transmission process in a logical split mode according to the present invention.

In FIG. 3, in the logical split mode, the information is divided into one information unit in a divided manner according to a coding method of TFI information and DSCH control information transmitted through a TFCI field of a dedicated physical control channel (DPCCH). (32,10) indicates a scheme that is transmitted after being coded by the read-muller coding scheme.

Referring to FIG. 3, data to be transmitted from the RNC1 304 to the user is generated, and a soft handover to the RNC2 305 occurs because the user is moving so that the user can communicate with both the RNC1 304 and the RNC2 305. Assuming that the link is established, the DSCH control information generated in the MAC common / shared channel 1 306 of the RNC1 304 is a dedicated physical channel (DPCH1) of any one cell 1 of a plurality of cells configured in the Node B1 308. Is being sent to the user via).

In addition, the DSCH control information generated in the MAC common / shared channel 1 306 of the RNC1 304 is connected to the MAC-d2 307 in the RNC2 305 newly linked with the user by soft handover. Is sent through.

The DSCH control information transmitted to the MAC-d2 307 is transferred directly to the physical layer of the Node B2 309 through an Iub interface, and is a dedicated physical channel of any one of Cell 2 of the plurality of cells configured in the Node B2 309. Is sent to the user via (DPCH2).

In this case, the DSCH control information transmitted through the dedicated physical channel 1 (DPCH1) and the DSCH control information transmitted through the dedicated physical channel 2 (DPCH2) from the MAC common / shared channel 1 306 in the RNC1 304 are MAC common. The same information created by / shared channel 1 306 is simultaneously transmitted to the user via one or more RNCs linked with the user. The user, having received the DSCH information from one or more RNCs linked with the user, soft-combines and decodes TFCI information of the dedicated physical channel 1 (DPCH1) and the dedicated physical channel 2 (DPCH2) as in the above example.

In addition, even when the DSCH control information is transmitted through a plurality of dedicated physical channels DPCH3, 4, and 5 newly linked with the user, the DSCH control generated in the MAC common / shared channel 1 is performed in the above manner. The information is delivered to the MAC layer in the RNC newly linked with the user. At this time, the TFCI information of all DPCHs connected to the user are soft combined and decoded.

4 is a diagram illustrating an example of a process of transmitting DSCH control information in hard split mode according to the present invention.

FIG. 4 first assumes a state in which dedicated channel 1 (DCH1) and dedicated channel 2 (DCH2) are connected by a soft handover between RNCs between a user and the UTRAN. This is because the downlink shared channel (DSCH) is a channel designed for transmitting burst data mainly because a downlink shared channel (DSCH) is always set to a dedicated channel when a session is established. .

When data is transmitted from the RNC1 to the user through the downlink shared channel (DSCH1) while the dedicated channel is established (data transmitted from the RNC1-RLC layer to the RNC1 MAC-d layer is transmitted to the RNC1 MAC common / shared channel [S10]. (S11)) RNC1 performs scheduling for downlink shared channel (DSCH1) transmission, and according to the scheduling, the RNC1 MAC common / shared channel generates DSCH control information. (S12) At this time, the generated DSCH control information In Figure 4 it is referred to as TFI2.                     

The generated DSCH control information is transmitted to Node B1 via downlink shared channel 1 (DSCH1) together with the data transmitted from the RNC1-RLC layer (S10, S11). (S13) In particular, the DSCH control information (TFI2). In addition, a plurality of RNCs linked with the user are also transmitted through the Iur interface (S25). For example, it is assumed that the transmitted DSCH control information is transmitted to a specific RNC2 MAC-common / shared channel layer. .

The specific RNC2 having received the DSCH control information through the Iur interface transmits the DSCH control information to the physical layer of the Node B2 (S15).

Accordingly, when data and TFI information about this data are transmitted from the RNC1 MAC-d layer to the Node B1 (in FIG. 4, the TFI information is referred to as TFI1 and the data is referred to as data2). (S16), the physical layer of the Node B1 uses the (16,5) lead-muller coding scheme for this TFI information and the DSCH control information transmitted through the downlink shared channel 1 (DSCH1) (S13), respectively. After coding, the data is transmitted through a dedicated physical channel 1 (DPCH1) and transmitted together with the transmitted data (data 2 transmitted through the dedicated channel 1 (DCH1)). In particular, the information combined by coding the TFI information and the DSCH control information (referred to as TFCI in FIG. 4) is transmitted through the TFCI field of the dedicated physical channel 1 (DPCH1).

In addition, when data 2 and TFI information (TFI1) for the data are transmitted from the RNC2 MAC-d layer to the dedicated channel 2 (DCH2) (S17), the physical layer of the Node B2 is connected to this TFI information. And coding (S13) DSCH control information transmitted from the RNC2 MAC common / shared channel by using (16,5) Reed-Muller coding schemes, and then combining and transmitting the transmitted data (dedicated channel 2 (DCH2)). The data is transmitted through the dedicated physical channel 2 (DPCH2) together with the data 2 transmitted through. In particular, the information combined by coding the TFI information and the DSCH control information (referred to as TFCI in FIG. 4) is transmitted through the TFCI field of the dedicated physical channel 2 (DPCH2).

A user who has received the same DSCH control information generated in the RNC1 MAC-d layer from all RNCs in an active set linked with the user soft-combines and decodes the DSCH control information.

5 is a diagram illustrating an example of a DSCH control information transmission process in a logical split mode according to the present invention.

Referring to FIG. 5, it is assumed that a dedicated channel 1 (DCH1) and a dedicated channel 2 (DCH2) are connected to each other by a soft handover between RNCs between a user and the UTRAN.

When data is transmitted from the RNC1 to the user through the downlink shared channel (DSCH1) while the dedicated channel is established (data transmitted from the RNC1-RLC layer to the RNC1 MAC-d layer is transmitted to the RNC1 MAC common / shared channel [S21]. (S22)) RNC1 performs scheduling for downlink shared channel (DSCH1) transmission, and according to the scheduling, the RNC1 MAC common / shared channel generates DSCH control information. (S23) At this time, the generated DSCH control information It is called TFI2.

The generated DSCH control information (TFI2) is transmitted to the RNC1 MAC-d layer and MAC-d layers of other RNCs linked with the user. (S24, S25) For example, the DSCH control information is RNC2 MAC-d. Assume that it is sent to the layer.                     

The RNC1 MAC-d layer, which has received the DSCH control information (TFI2), transmits the DSCH control information to the physical layer of the Node B1 through the dedicated channel 1 (DCH1). (S27) Also, the DSCH control is performed through the Iur interface. The specific RNC2 MAC-d layer which has received the information transmits this DSCH control information to the physical layer of Node B2 via dedicated channel 2 (dedicated channel 2) (S28).

Subsequently, when the data 2 transmitted from the RNC1 MAC-d layer through the dedicated channel 1 (DCH1) and the TFI information (TFI1) for this data are transmitted to the Node B1 (S29), the physical layer of the Node B1 transmits the TFI. Information (TFI1) and the DSCH control information transmitted through the dedicated channel 1 (DCH1) (S27), and then coded using the (32, 10) Reed-Muller coding scheme and then dedicated physical channel 1 (DPCH1). Through the transmission, the data 2 (data 2 transmitted through the dedicated channel 1 (DCH1)) is transmitted. In particular, the information (referred to as TFCI), which is coded and combined with the TFI information and the DSCH control information, is transmitted through the TFCI field of the dedicated physical channel 1 (DPCH1).

In addition, if data 2 transmitted from the RNC2 MAC-d layer through dedicated channel 2 (DCH2) and TFI information (TFI1) for this data are transmitted to Node B2 (S30), the physical layer of Node B2 transmits the TFI. Information (TFI1) and the DSCH control information transmitted through the dedicated channel 2 (DCH2) (S28), and then coded using the (32, 10) Reed-Muller coding scheme and then dedicated physical channel 2 (DPCH2). Through the transmission, the data 2 (data 2 transmitted through the dedicated channel 2 (DCH2)) is transmitted. In particular, the information (referred to as TFCI), which is coded and combined with the TFI information and the DSCH control information, is transmitted through the TFCI field of the dedicated physical channel DPCH2.

A user who has received the same DSCH control information generated in the RNC1 MAC-d layer from all RNCs in an active set linked with the user soft-combines and decodes the DSCH control information.

As described above, when the DSCH is transmitted in the soft handover situation, the present invention can prevent the reception state of the DSCH control information from deteriorating.

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Claims (17)

Generating, by a first control station (RNC), control information for a downlink shared channel (DSCH); Transmitting the generated control information to a first base station (Node B) belonging to the first control station; Transmitting the generated control information to a second control station; The second control station transmitting the control information to a second base station belonging to the second control station; And Transmitting, by the first base station and the second base station, the control information by using a dedicated channel (DCH) for a user equipment (UE); Control information transmission method for a downlink shared channel comprising a. The method of claim 1, The dedicated channel is a downlink physical channel (DPCCH), characterized in that the control information transmission method for the downlink shared channel. The method of claim 2, The control information is transmitted using a transport format combination indicator (TFCI) field of the dedicated physical control channel. The method of claim 1, And the control information is a transport format indicator (TFI) and code mapping information of the downlink shared channel. The method of claim 1, The control information for the downlink shared channel, the control information transmission method for the downlink shared channel, characterized in that transmitted along with the control information for the dedicated channel. The method of claim 5, The control information for the downlink shared channel and the control information for the dedicated channel is transmitted to each control layer for the downlink shared channel, characterized in that the coding is carried out in the physical layer. The method of claim 6, The information on which each coding is performed is transmitted through a transport format combination indicator field of a dedicated physical control channel. The method of claim 5, The control information for the downlink shared channel and the control information for the dedicated channel are transmitted in a medium access control (MAC) of the first control station. Way. The method of claim 8, The media access control layer is a MAC-d layer, characterized in that the control information transmission method for the downlink shared channel for the downlink shared channel. The method of claim 1, Receiving, at the user terminal, the control information from the first base station and the second base station, respectively; And Soft combining the received control information Control information transmission method for a downlink shared channel further comprises. The method of claim 10, Receiving, by the user terminal, data from the first base station through the downlink shared channel; And And decoding the data by using the received control information. The method of claim 11, And the user terminal is a user terminal performing a soft handover from the first base station to the second base station. In a user equipment (UE) performing a handover from a first base station Node B belonging to a first control station (RNC) to a second base station belonging to a second control station, a downlink shared channel In the method for receiving control information for (DSCH; Downlink Shared Channel), Receiving control information for the downlink shared channel through a Dedicated Physical Control Channel (DPCCH) transmitted from the first base station; Receiving control information for the downlink shared channel through a Dedicated Physical Control Channel (DPCCH) transmitted from the second base station; Soft combining the control information received from the first base station and the control information received from the second base station; Receiving data from the first base station via the downlink shared channel; And Decoding the data received through the downlink shared channel using the control information received by the soft combining; Control information receiving method for a downlink shared channel comprising a. The method of claim 13, The control information for the downlink shared channel is transmitted with the control information for the dedicated channel (DCH), the control information receiving method for the downlink shared channel. The method of claim 14, The control information for the downlink shared channel and the control information for the dedicated channel are controlled through a transport format combination identifier (TFCI) of the dedicated physical control channel. How do I get information? The method of claim 15, The control information for the downlink shared channel and the control information for the dedicated channel is received in the logical split mode (logical split mode) characterized in that the control information receiving method for the downlink shared channel. The method of claim 15, The control information receiving method for the downlink shared channel and the control information for the dedicated channel is received in a hard split mode (hard split mode).

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