CN101242572B - Data receiving and transmission method under non cell dedicated channel status in continuous mode - Google Patents
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Abstract
一种在连接模式下非小区专用信道状态下数据的收发方法,可实现使用高速下行分组数据接入特性在连接模式下非小区专用信道状态下下行逻辑信道数据的发送和接收。包括以下步骤:(a)接入网的无线网络控制器为小区内逻辑信道分配公共标识,分别向小区内所有终端或各组终端以及管理所述小区的节点B公告其所分配的公共标识和与其对应的逻辑信道;(b)所述节点B在物理数据信道发送承载着逻辑信道数据的数据时,使用该逻辑信道对应的公共标识作为对应物理控制信道上的特定扰码对数据进行加扰并发送;(c)小区内终端监听所述节点B发出的物理控制信道上的数据,如果检测到所述数据的扰码与其保存的公共标识相同,则接收所述物理数据信道上的数据。
A method for sending and receiving data in a non-community-dedicated channel state in a connection mode, which can realize the transmission and reception of downlink logical channel data in a non-cell-dedicated channel state in a connection mode by using the high-speed downlink packet data access feature. The method includes the following steps: (a) the radio network controller of the access network assigns public identities to logical channels in the cell, and announces the assigned public identities and The logical channel corresponding to it; (b) when the Node B sends data carrying logical channel data on the physical data channel, it uses the public identifier corresponding to the logical channel as a specific scrambling code on the corresponding physical control channel to scramble the data and send; (c) the terminal in the cell listens to the data on the physical control channel sent by the Node B, and if it detects that the scrambling code of the data is the same as its stored public identifier, it receives the data on the physical data channel.
Description
技术领域 technical field
本发明涉及一种无线通信系统中数据发送和接收的方法,尤其涉及到一种使用高速下行分组数据接入特性在连接模式下非小区专用信道状态下的数据收发方法。The present invention relates to a method for sending and receiving data in a wireless communication system, in particular to a method for sending and receiving data in a non-community-dedicated channel state in a connection mode using the high-speed downlink packet data access feature.
背景技术 Background technique
终端的两个基本操作模式是空闲模式和连接模式。连接模式可以进一步分成不同的状态:URA_PCH状态(Universal mobile telecommunication systemRadio access network Register area Paging Channel,通用移动通讯系统无线接入网注册区域寻呼信道状态,以下简称URA_PCH)、CELL_PCH状态(CELLPaging Channel,小区寻呼前向接入信道状态,以下简称CELL_PCH)、CELL_FACH状态(CELL Forward Access Channel,小区前向接入信道状态,以下简称CELL_FACH)、CELL_DCH(CELL Dedicated Channel,小区专用信道状态,以下简称CELL_DCH)状态,这些状态定义了终端使用的物理信道以及传输信道的种类。The two basic modes of operation of a terminal are idle mode and connected mode. The connection mode can be further divided into different states: URA_PCH state (Universal mobile telecommunication system Radio access network Register area Paging Channel, universal mobile communication system wireless access network registration area paging channel state, hereinafter referred to as URA_PCH), CELL_PCH state (CELLPaging Channel, cell Paging forward access channel status, hereinafter referred to as CELL_PCH), CELL_FACH status (CELL Forward Access Channel, cell forward access channel status, hereinafter referred to as CELL_FACH), CELL_DCH (CELL Dedicated Channel, cell dedicated channel status, hereinafter referred to as CELL_DCH) States, which define the physical channel used by the terminal and the type of transmission channel.
连接模式下非小区专用信道状态是指CELL_FACH状态和/或CELL_PCH状态和/或URA_PCH状态。在这些状态下,接入网发送和终端接收的下行逻辑信道数据来源于以下下行逻辑信道:The non-cell-dedicated channel state in the connected mode refers to the CELL_FACH state and/or the CELL_PCH state and/or the URA_PCH state. In these states, the downlink logical channel data sent by the access network and received by the terminal comes from the following downlink logical channels:
●CCCH(Common Control Channel公共控制信道,以下简称CCCH)●CCCH (Common Control Channel, hereinafter referred to as CCCH)
●MCCH(Multimedia broadcast multicast service point-to-multipointControl Channel多媒体广播多播业务点对多点控制信道,以下简称MCCH)MCCH (Multimedia broadcast multicast service point-to-multipoint Control Channel multimedia broadcast multicast service point-to-multipoint control channel, hereinafter referred to as MCCH)
●MTCH(Multimedia broadcast multicast service point-to-multipointTraffic Channel多媒体广播多播业务点对多点业务信道,以下简称MTCH)MTCH (Multimedia broadcast multicast service point-to-multipointTraffic Channel multimedia broadcast multicast service point-to-multipoint traffic channel, hereinafter referred to as MTCH)
●MSCH(Multimedia broadcast multicast service point-to-multipointScheduling Channel多媒体广播多播业务点对多点调度信道,以下简称MSCH)●MSCH (Multimedia broadcast multicast service point-to-multipointScheduling Channel Multimedia broadcast multicast service point-to-multipoint scheduling channel, hereinafter referred to as MSCH)
●PCCH(Paging Control Channel寻呼控制信道,以下简称PCCH)●PCCH (Paging Control Channel paging control channel, hereinafter referred to as PCCH)
●BCCH(Broadcast Control Channel广播控制信道,以下简称BCCH)●BCCH (Broadcast Control Channel broadcast control channel, hereinafter referred to as BCCH)
●CTCH(Common Traffic Channel公共业务信道,以下简称CTCH)●CTCH (Common Traffic Channel, hereinafter referred to as CTCH)
在现有系统中,HSDPA(High Speed Downlink Packet Access,高速下行分组数据接入)特性仅在CELL_DCH状态下使用,其特征在于接入网发送专用数据给终端,终端接收属于自己的专用数据,终端与终端之间的数据是相互独立并且专用。而为了提高连接模式下非小区专用信道状态下的数据发送和接收的性能,也试图在连接模式下非小区专用信道状态下引入HSDPA特性,其特征在于接入网发送下行逻辑信道数据给所有终端或者一组终端,所有终端或者一组终端接收这些下行逻辑信道数据。In the existing system, the HSDPA (High Speed Downlink Packet Access) feature is only used in the CELL_DCH state. It is characterized in that the access network sends dedicated data to the terminal, and the terminal receives its own dedicated data. The data with the terminal is independent and dedicated. In order to improve the performance of data transmission and reception in the non-community-dedicated channel state under the connection mode, it is also attempted to introduce the HSDPA feature under the non-community-dedicated channel state under the connection mode, which is characterized in that the access network sends downlink logical channel data to all terminals Or a group of terminals, all terminals or a group of terminals receive the downlink logical channel data.
高速下行共享信道HS-DSCH(High Speed Downlink Shared Channel,以下简称HS-DSCH),用于承载使用HSDPA特性发送的数据。高速共享控制信道HS-SCCH(High Speed Shared Control Channel,以下简称HS-SCCH),用于承载HS-DSCH上用于解码的物理控制信令。高速下行共享信道无线网络临时标识H-RNTI(HS-DSCH Radio Network Temporary Identifier,以下简称H-RNTI)是在CELL_DCH状态下,接入网给终端分配一个专有的终端标识,作为HS-SCCH的特定扰码,来指示终端接收的数据是否属于自己的。终端监听接入网发出的HS-SCCH,一旦终端从HS-SCCH检测到其扰码是分配给自己的H-RNTI,则认为是发送给自己的数据,那么立即开始接收HS-DSCH上发送的数据。但是,如果在连接模式下非小区专用信道状态下引入HSDPA特性,由于接收下行逻辑信道数据的是所有终端或者一组终端,上述方法就不再适用了。The high-speed downlink shared channel HS-DSCH (High Speed Downlink Shared Channel, hereinafter referred to as HS-DSCH), is used to carry the data sent using the HSDPA feature. The HS-SCCH (High Speed Shared Control Channel, hereinafter referred to as HS-SCCH) is used to carry the physical control signaling for decoding on the HS-DSCH. The high-speed downlink shared channel wireless network temporary identifier H-RNTI (HS-DSCH Radio Network Temporary Identifier, hereinafter referred to as H-RNTI) is in the CELL_DCH state, the access network assigns a dedicated terminal identifier to the terminal as the HS-SCCH A specific scrambling code is used to indicate whether the data received by the terminal belongs to itself. The terminal listens to the HS-SCCH sent by the access network. Once the terminal detects from the HS-SCCH that the scrambling code is the H-RNTI assigned to itself, it considers it to be data sent to itself, and then immediately begins to receive the data sent on the HS-DSCH. data. However, if the HSDPA feature is introduced in the non-cell-dedicated channel state in the connection mode, since all terminals or a group of terminals receive downlink logical channel data, the above method is no longer applicable.
发明内容Contents of the invention
本发明所要解决技术问题是提供一种在连接模式下非小区专用信道状态下数据的收发方法,可以实现使用高速下行分组数据接入特性在连接模式下非小区专用信道状态下下行逻辑信道数据的发送和接收。The technical problem to be solved by the present invention is to provide a method for transmitting and receiving data in a non-community-dedicated channel state in the connection mode, which can realize downlink logical channel data in the non-community-dedicated channel state in the connection mode using the high-speed downlink packet data access feature send and receive.
为了解决上述技术问题,本发明提供了一种在连接模式下非小区专用信道状态下数据的收发方法,包括以下步骤:In order to solve the above technical problems, the present invention provides a method for sending and receiving data in a non-cell dedicated channel state in a connected mode, comprising the following steps:
(a)接入网的无线网络控制器为小区内逻辑信道分配公共标识,分别向小区内所有终端或各组终端以及管理所述小区的节点B公告其所分配的公共标识和与其对应的逻辑信道;(a) The radio network controller of the access network assigns public identities to the logical channels in the cell, and announces the assigned public identities and the corresponding logical channels to all terminals or groups of terminals in the cell and the Node B that manages the cell. channel;
(b)所述节点B在物理数据信道发送承载着逻辑信道数据的数据时,使用该逻辑信道对应的公共标识作为对应物理控制信道上的特定扰码对数据进行加扰并发送;(b) When the Node B transmits data carrying logical channel data on a physical data channel, it uses the public identifier corresponding to the logical channel as a specific scrambling code on the corresponding physical control channel to scramble and transmit the data;
(c)小区内终端监听所述节点B发出的物理控制信道上的数据,如果检测到所述数据的扰码与其保存的公共标识相同,则接收所述物理数据信道上的数据。(c) The terminal in the cell monitors the data on the physical control channel sent by the Node B, and receives the data on the physical data channel if it detects that the scrambling code of the data is the same as its stored public identifier.
进一步地,上述方法还可具有以下特点:所述作为公共标识的标识为以下的一种或几种:高速下行共享信道无线网络临时标识H-RNTI、小区无线网络临时标识C-RNTI、前向接入信道无线网络临时标识FACH-RNTI、增强型无线网络临时标识E-RNTI;所述公共标识值的范围在0和65535之间。Further, the above method may also have the following characteristics: the public identifier is one or more of the following: high-speed downlink shared channel radio network temporary identifier H-RNTI, cell wireless network temporary identifier C-RNTI, forward Access channel radio network temporary identifier FACH-RNTI, enhanced radio network temporary identifier E-RNTI; the range of the public identifier value is between 0 and 65535.
进一步地,上述方法还可具有以下特点:在所述步骤(a)中,所述无线网络控制器通过无线资源控制层信令告知终端此小区所分配的公共标识和与其对应的逻辑信道,所述无线资源控制层信令为系统消息广播信令;所述无线网络控制器通过节点B的应用部分信令或者成帧协议告知节点B此小区所分配的公共标识和与其对应的逻辑信道。Further, the above method may also have the following features: in the step (a), the radio network controller notifies the terminal of the public identity allocated by the cell and the corresponding logical channel through the radio resource control layer signaling, so The radio resource control layer signaling is a system message broadcast signaling; the radio network controller notifies the node B of the public identity allocated by the cell and the corresponding logical channel through the application part signaling of the node B or a framing protocol.
进一步地,上述方法还可具有以下特点:所述节点B的应用部分信令是以下的一种或几种:小区建立信令、公共物理数据信道建立信令、审计信令、小区重配信令、公共物理数据信道重配信令、物理共享信道重配信令。Further, the above method may also have the following characteristics: the application part signaling of the Node B is one or more of the following: cell establishment signaling, public physical data channel establishment signaling, audit signaling, and cell reconfiguration signaling , public physical data channel reconfiguration signaling, and physical shared channel reconfiguration signaling.
进一步地,上述方法还可具有以下特点:所述无线网络控制器通过组建立过程或组内业务建立过程或组内重配过程通知小区内各组终端其分配的公共标识,进一步通过无线承载建立信令或无线承载重配信令或物理数据信道重配信令来完成。Furthermore, the above method may also have the following features: the radio network controller notifies each group of terminals in the cell of its assigned public identity through a group establishment process or an intra-group service establishment process or an intra-group reconfiguration process, and further establishes a public identity through a radio bearer signaling or radio bearer reconfiguration signaling or physical data channel reconfiguration signaling.
进一步地,上述方法还可具有以下特点:所述无线网络控制器通过成帧协议告知终端公共标识和与其对应的逻辑信道是通过在数据单元中携带此数据所属于逻辑信道对应的公共标识,告知发送端此数据所对应的公共标识。Further, the above method may also have the following features: the radio network controller notifies the terminal of the public identifier and the logical channel corresponding to it through the framing protocol by carrying the public identifier corresponding to the logical channel to which the data belongs in the data unit, and notifying The public identifier corresponding to this data at the sender.
进一步地,上述方法还可具有以下特点:所述物理数据信道为高速下行共享信道HS-DSCH,所述物理控制信道为高速共享控制信道HS-SCCH。Further, the above method may also have the following characteristics: the physical data channel is a high-speed downlink shared channel HS-DSCH, and the physical control channel is a high-speed shared control channel HS-SCCH.
进一步地,上述方法还可具有以下特点:所述逻辑信道包括公共控制信道,以及以下的一种或几种:多媒体广播多播业务点对多点控制信道、多媒体广播多播业务点对多点业务信道、多媒体广播多播业务点对多点调度信道、寻呼控制信道、广播控制信道、公共业务信道;所述连接模式下非小区专用信道状态是指小区前向接入信道状态和/或小区寻呼前向接入信道状态和/或通用移动通讯系统无线接入网注册区域寻呼信道状态。Further, the above method may also have the following characteristics: the logical channel includes a common control channel, and one or more of the following: MBMS point-to-multipoint control channel, MBMS point-to-multipoint Traffic channel, multimedia broadcast multicast service point-to-multipoint scheduling channel, paging control channel, broadcast control channel, common traffic channel; the state of the non-cell dedicated channel in the connection mode refers to the state of the forward access channel of the cell and/or Cell paging forward access channel status and/or UMTS radio access network registration area paging channel status.
为了解决上述问题,本发明还提供了一种在连接模式下非小区专用信道状态下数据的发送方法,包括以下步骤:In order to solve the above problems, the present invention also provides a method for sending data in a non-cell dedicated channel state in connected mode, comprising the following steps:
(A)接入网的无线网络控制器为小区内逻辑信道分配公共标识,向管理所述小区的节点B公告其所分配的公共标识和与其对应的逻辑信道;(A) The radio network controller of the access network assigns a public identifier to the logical channel in the cell, and announces the assigned public identifier and the corresponding logical channel to the Node B that manages the cell;
(B)所述节点B在物理数据信道发送承载着逻辑信道数据的数据时,使用该逻辑信道对应的公共标识作为对应物理控制信道上的特定扰码对数据进行加扰并发送。(B) When the Node B transmits data carrying logical channel data on the physical data channel, it uses the public identifier corresponding to the logical channel as a specific scrambling code on the corresponding physical control channel to scramble and transmit the data.
进一步地,上述方法还可具有以下特点:所述作为公共标识的标识为以下的一种或几种:高速下行共享信道无线网络临时标识H-RNTI、小区无线网络临时标识C-RNTI、前向接入信道无线网络临时标识FACH-RNTI、增强型无线网络临时标识E-RNTI;所述公共标识值的范围在0和65535之间。Further, the above method may also have the following characteristics: the public identifier is one or more of the following: high-speed downlink shared channel radio network temporary identifier H-RNTI, cell wireless network temporary identifier C-RNTI, forward Access channel radio network temporary identifier FACH-RNTI, enhanced radio network temporary identifier E-RNTI; the range of the public identifier value is between 0 and 65535.
进一步地,上述方法还可具有以下特点:在所述步骤(A)中,所述无线网络控制器通过节点B的应用部分信令或者成帧协议告知节点B此小区所分配的公共标识和与其对应的逻辑信道。Further, the above method may also have the following features: in the step (A), the radio network controller informs the Node B of the public identity allocated to the cell and its associated identity with the Node B through the application part signaling of the Node B or a framing protocol. the corresponding logical channel.
进一步地,上述方法还可具有以下特点:所述节点B的应用部分信令是以下的一种或几种:小区建立信令、公共物理数据信道建立信令、审计信令、小区重配信令、公共物理数据信道重配信令、物理共享信道重配信令。Further, the above method may also have the following characteristics: the application part signaling of the Node B is one or more of the following: cell establishment signaling, public physical data channel establishment signaling, audit signaling, and cell reconfiguration signaling , public physical data channel reconfiguration signaling, and physical shared channel reconfiguration signaling.
进一步地,上述方法还可具有以下特点:所述物理数据信道为高速下行共享信道HS-DSCH,所述物理控制信道为高速共享控制信道HS-SCCH。Further, the above method may also have the following characteristics: the physical data channel is a high-speed downlink shared channel HS-DSCH, and the physical control channel is a high-speed shared control channel HS-SCCH.
进一步地,上述方法还可具有以下特点:所述逻辑信道包括公共控制信道,以及以下的一种或几种:多媒体广播多播业务点对多点控制信道、多媒体广播多播业务点对多点业务信道、多媒体广播多播业务点对多点调度信道、寻呼控制信道、广播控制信道、公共业务信道;所述连接模式下非小区专用信道状态是指小区前向接入信道状态和/或小区寻呼前向接入信道状态和/或通用移动通讯系统无线接入网注册区域寻呼信道状态。Further, the above method may also have the following characteristics: the logical channel includes a common control channel, and one or more of the following: MBMS point-to-multipoint control channel, MBMS point-to-multipoint Traffic channel, multimedia broadcast multicast service point-to-multipoint scheduling channel, paging control channel, broadcast control channel, common traffic channel; the state of the non-cell dedicated channel in the connection mode refers to the state of the forward access channel of the cell and/or Cell paging forward access channel status and/or UMTS radio access network registration area paging channel status.
本发明提供一种适合多种逻辑信道类型映射到HS-DSCH的逻辑信道、物理数据信道与H-RNTI的映射关系。提供了一种使用高速下行分组数据接入特性在连接模式下非小区专用信道状态下的高速下行共享信道无线网络临时标识的分配方法的可行的解决方式,进而提供了一种在连接模式下非小区专用信道状态下数据的收发方法,接入网分配小区内公共H-RNTI并通知给小区中的终端,对于使用高速下行分组数据接入特性在连接模式下非小区专用信道状态下发送的下行逻辑信道数据,通过公共H-RNTI来指示出所有终端或者一组终端接受这些数据。The present invention provides a mapping relationship suitable for mapping multiple logical channel types to HS-DSCH logical channels, physical data channels and H-RNTI. Provides a feasible solution to the high-speed downlink shared channel wireless network temporary identifier allocation method in the non-cell dedicated channel state in the connected mode using the high-speed downlink packet data access feature, and then provides a non-cell dedicated channel in the connected mode. The method of sending and receiving data in the state of the dedicated channel of the cell. The access network allocates the public H-RNTI in the cell and notifies it to the terminals in the cell. The logical channel data indicates that all terminals or a group of terminals accept these data through the common H-RNTI.
附图说明 Description of drawings
图1为本发明第一实施例流程图;Fig. 1 is the flowchart of the first embodiment of the present invention;
图2为本发明第二实施例流程图;Fig. 2 is the flowchart of the second embodiment of the present invention;
图3为本发明第三实施例流程图。Fig. 3 is a flowchart of the third embodiment of the present invention.
具体实施方式 Detailed ways
本发明提供一种在连接模式下非小区专用信道状态终端数据的收发方法,接入网分配小区内公共标识并通知给小区中的终端,对于使用HSDPA特性在连接模式下非小区专用信道状态下发送的下行逻辑信道数据,通过公共标识来指示出小区内所有终端或者一组终端接收这些数据,用以完成使用HSDPA特性在连接模式下非小区专用信道状态下下行逻辑信道数据的发送和接收。其中,所述公共标识是供小区内终端使用的高速下行共享信道无线网络临时标识,用于在接收下行逻辑信道数据时判断该数据是否属于所述终端。所述作为公共标识的标识可以为以下的一种或几种:高速下行共享信道无线网络临时标识H-RNTI,或小区无线网络临时标识C-RNTI,或前向接入信道无线网络临时标识FACH-RNTI(Forward Access Channel Radio NetworkTemporary Identifier),或增强型无线网络临时标识E-RNTI(enhanced RadioNetwork Temporary Identifier)。这些标识的取值范围均为从0到65535(16比特的2进制的表示范围)。The present invention provides a method for sending and receiving terminal data in a non-community-dedicated channel state in a connection mode. The access network allocates a public identifier in the cell and notifies it to the terminals in the cell. The transmitted downlink logical channel data indicates that all terminals or a group of terminals in the cell receive the data through a common identifier, so as to complete the transmission and reception of downlink logical channel data in the non-cell-dedicated channel state in connected mode using HSDPA characteristics. Wherein, the public identifier is a temporary identifier of the high-speed downlink shared channel wireless network used by terminals in the cell, and is used to determine whether the data belongs to the terminal when receiving downlink logical channel data. The public identifier can be one or more of the following: High-speed downlink shared channel wireless network temporary identifier H-RNTI, or cell wireless network temporary identifier C-RNTI, or forward access channel wireless network temporary identifier FACH -RNTI (Forward Access Channel Radio Network Temporary Identifier), or enhanced wireless network temporary identification E-RNTI (enhanced RadioNetwork Temporary Identifier). The value ranges of these identifiers are all from 0 to 65535 (16-bit binary representation range).
第一步,接入网的无线网络控制器(RNC)为小区内逻辑信道分配公共标识,如公共H-RNTI;In the first step, the radio network controller (RNC) of the access network allocates a public identifier, such as a public H-RNTI, for the logical channel in the cell;
公共H-RNTI的个数可以是一个或者多个(当某类型逻辑信道存在多条时,则可能需要针对每一条分配一个公共H-RNTI),公共H-RNTI值的范围从0到65535(16比特的2进制的表示范围),公共H-RNTI是小区级别的参数,只在本小区有效并使用。例如:The number of common H-RNTIs can be one or more (when there are multiple logical channels of a certain type, it may be necessary to allocate a common H-RNTI for each), and the value of the common H-RNTI ranges from 0 to 65535 ( 16-bit binary representation range), the public H-RNTI is a cell-level parameter, which is valid and used only in this cell. For example:
●当CCCH逻辑信道映射到HS-DSCH物理数据信道时,分配一个或者多个公共H-RNTI,用以标识CCCH逻辑信道来源的数据;●When the CCCH logical channel is mapped to the HS-DSCH physical data channel, allocate one or more common H-RNTIs to identify the data from the CCCH logical channel;
●当MCCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识MCCH逻辑信道来源的数据;●When the MCCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more public H-RNTIs are allocated to identify the data from the MCCH logical channel;
●当MTCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识MTCH逻辑信道来源的数据;●When the MTCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more public H-RNTIs are allocated to identify the data from the MTCH logical channel;
●当MSCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识MSCH逻辑信道来源的数据;●When the MSCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more common H-RNTIs are allocated to identify the data from the MSCH logical channel;
●当PCCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识PCCH逻辑信道来源的数据;●When the PCCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more common H-RNTIs are allocated to identify the source data of the PCCH logical channel;
●当BCCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识BCCH逻辑信道来源的数据;●When the BCCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more public H-RNTIs are allocated to identify the data from the BCCH logical channel;
●如果小区内配置了CTCH,当CTCH逻辑信道映射到HS-DSCH物理数据信道时,可选的,分配一个或者多个公共H-RNTI,用以标识CTCH逻辑信道来源的数据;●If CTCH is configured in the cell, when the CTCH logical channel is mapped to the HS-DSCH physical data channel, optionally, one or more public H-RNTIs are allocated to identify the data from the CTCH logical channel;
以上为各个下行逻辑信道分配的公共H-RNTI,可以是相同的值,也可以是不同的值。The above common H-RNTI allocated to each downlink logical channel may be the same value or different values.
第二步,RNC分别向小区内所有终端和管理该小区的NODE B公告分配的公共H-RNTI和与其对应的逻辑信道;In the second step, the RNC announces the allocated public H-RNTI and its corresponding logical channel to all terminals in the cell and the NODE B that manages the cell;
RNC可通过无线资源控制层信令(如系统消息广播信令)告知终端此小区所分配的公共H-RNTI和与其对应的逻辑信道,以及可能存在的公共H-RNTI与可选的逻辑信道标识关系。The RNC can inform the terminal of the public H-RNTI allocated by this cell and the logical channel corresponding to it, as well as the possible public H-RNTI and optional logical channel identifiers through radio resource control layer signaling (such as system message broadcast signaling) relation.
RNC可通过NODE B的应用部分信令(如小区建立信令,或者公共物理数据信道建立信令,或者审计信令,或者小区重配信令,或者公共物理数据信道重配信令,或者物理共享信道重配信令)告知NODE B此小区所分配的公共H-RNTI和与其对应的逻辑信道,以及可能存在的公共H-RNTI与可选的逻辑信道标识关系。或者,RNC通过成帧协议,在数据单元中携带此数据所属于逻辑信道对应的公共H-RNTI,告知NODE B此数据所对应的公共H-RNTI。The RNC can pass the application part signaling of NODE B (such as cell establishment signaling, or public physical data channel establishment signaling, or audit signaling, or cell reconfiguration signaling, or public physical data channel reconfiguration signaling, or physical shared channel Reconfiguration signaling) informs NODE B of the public H-RNTI allocated by this cell and the logical channel corresponding to it, as well as the identification relationship between the possible public H-RNTI and the optional logical channel. Alternatively, the RNC carries the public H-RNTI corresponding to the logical channel to which the data belongs in the data unit through the framing protocol, and informs NODE B of the public H-RNTI corresponding to the data.
对于小区内的各组终端接收数据的情况,RNC将为小区中各组的分配的公共H-RNTI和与其对应的逻辑信道,通过无线资源控制层信令(如系统消息广播信令)告知终端;或者,RNC通过组建立过程和组内业务建立或重配过程(如无线承载建立信令、无线承载重配信令、物理数据信道重配信令),将一组的分配的公共H-RNTI和与其对应的逻辑信道信息,直接告诉小区内的此组终端。For each group of terminals in the cell to receive data, the RNC will notify the terminals of the allocated common H-RNTI and the corresponding logical channel for each group in the cell through radio resource control layer signaling (such as system message broadcast signaling) or, the RNC uses the group establishment process and intra-group service establishment or reconfiguration process (such as radio bearer establishment signaling, radio bearer reconfiguration signaling, and physical data channel reconfiguration signaling) to assign a group of public H-RNTI and The corresponding logical channel information is directly notified to this group of terminals in the cell.
第三步,NODE B在物理数据信道HS-DSCH发送承载着逻辑信道数据的数据时,使用该逻辑信道对应的公共H-RNTI作为对应物理控制信道HS-SCCH上的特定扰码对控制信道HS-SCCH上的数据进行加扰并发送;In the third step, when NODE B transmits data carrying logical channel data on the physical data channel HS-DSCH, it uses the common H-RNTI corresponding to the logical channel as the specific scrambling code on the corresponding physical control channel HS-SCCH to control channel HS - Data on SCCH is scrambled and sent;
第四步,小区内终端监听NODE B发出的物理控制信道HS-SCCH上的数据,如果从HS-SCCH检测到的扰码是RNC事先告知的终端的公共H-RNTI,则认为是发送给自己的数据,则接收HS-DSCH物理数据信道上发送的数据。Step 4: The terminal in the cell monitors the data on the physical control channel HS-SCCH sent by NODE B. If the scrambling code detected from the HS-SCCH is the public H-RNTI of the terminal notified by the RNC in advance, it is considered to be sent to itself data, then receive the data sent on the HS-DSCH physical data channel.
对于HS-DSCH上同一包数据,被所有终端或者一组终端所接收。For the same packet of data on the HS-DSCH, it is received by all terminals or a group of terminals.
下面结合附图对本发明所述技术方案的实施作进一步的详细描述:The implementation of the technical solution of the present invention will be described in further detail below in conjunction with the accompanying drawings:
第一实施例,如图1所示。The first embodiment is shown in Figure 1.
设定场景:小区1中CCCH、MCCH、MTCH、MSCH映射到HS-DSCH。Setting scenario: CCCH, MCCH, MTCH, and MSCH in cell 1 are mapped to HS-DSCH.
步骤110,RNC分配小区内公共H-RNTI,将CCCH、MCCH、MTCH、MSCH映射到HS-DSCH,全部用一个公共H-RNTI值555来表示;Step 110, the RNC allocates the common H-RNTI in the cell, and maps CCCH, MCCH, MTCH, and MSCH to the HS-DSCH, all of which are represented by a common H-RNTI value 555;
也就是说,值为555的公共H-RNTI标识了CCCH、MCCH、MTCH、MSCH等多个逻辑信道来源的数据。That is to say, the public H-RNTI with a value of 555 identifies data from multiple logical channels such as CCCH, MCCH, MTCH, and MSCH.
步骤120,RNC通过无线资源控制层信令(如系统消息广播信令),告知此小区内终端分配555为公共H-RNTI标识CCCH逻辑信道来源的数据,以及可选的告知555的公共H-RNTI标识了MCCH、MTCH、MSCH等多个逻辑信道来源的数据;
步骤130,RNC通过成帧协议,在数据单元中携带该数据所属逻辑信道对应的公共H-RNTI,告知管理该小区的NODE B此数据和与其所对应的公共H-RNTI的关系;
NODE B提取公共H-RNTI,保存该公共H-RNTI与其对应的逻辑信道的关系。NODE B extracts the public H-RNTI, and saves the relationship between the public H-RNTI and its corresponding logical channel.
此处并不作为步骤120和步骤130执行先后顺序的限定。Here, the execution order of
步骤140,NODE B在HS-DSCH发送数据时,使用该数据所属于逻辑信道对应的公共H-RNTI 555作为对应HS-SCCH的特定扰码对数据进行加扰并发送;
在空口上,数据(DATA)通过HS-DSCH发送,控制信令(control sig)通过HS-SCCH发送,在本实施例中:数据(DATA)通过用户面成帧协议,也就是FP(FRAME PROTOCOL)的这一层协议的数据单元发送,数据(DATA)放在数据单元中;控制信令(control sig)过用户面成帧协议,也就是FP(FRAME PROTOCOL)的这一层协议的数据单元发送,控制信令(control sig)放在数据单元中。On the air interface, data (DATA) is sent through HS-DSCH, and control signaling (control sig) is sent through HS-SCCH. In this embodiment: data (DATA) is framed through the user plane ) The data unit of this layer protocol is sent, and the data (DATA) is placed in the data unit; the control signaling (control sig) passes through the user plane framing protocol, which is the data unit of this layer protocol of FP (FRAME PROTOCOL) Send, control signaling (control sig) is placed in the data unit.
步骤150,终端监听NODE B发出的HS-SCCH,一旦终端从HS-SCCH检测到其扰码是RNC事先通过无线资源控制层信令告知终端需要监听的公共H-RNTI555,则认为是发送给自己的数据,则接收HS-DSCH上发送的数据。
这样一来,HS-DSCH上同一包数据就能够被所有终端或者一组终端所接收。In this way, the same packet of data on the HS-DSCH can be received by all terminals or a group of terminals.
第二实施例,如图2所示。The second embodiment is shown in Figure 2.
设定场景:小区2中CCCH、PCCH映射到HS-DSCH。Setting scenario: CCCH and PCCH in cell 2 are mapped to HS-DSCH.
步骤210,RNC分配小区内公共H-RNTI,将CCCH、PCCH映射到HS-DSCH,用一个公共H-RNTI值0来表示CCCH来源数据,用一个公共H-RNTI值65535来表示PCCH来源数据;
步骤220,RNC通过无线资源控制层信令(如系统消息广播信令),告知此小区终端分配公共H-RNTI为0标识CCCH来源数据,分配公共H-RNTI为65535标识PCCH来源数据;
步骤230,RNC通过NODE B应用部分信令(如小区建立信令,或者公共物理数据信道建立信令,或者审计信令,或者小区重配信令,或者公共物理数据信道重配信令,或者物理共享信道重配信令),告知NODE B此小区公共H-RNTI为0标识了CCCH来源数据,公共H-RNTI为65535标识了PCCH来源数据;
此处并不作为步骤220和步骤230执行先后顺序的限定。Here, the execution order of
步骤240,NODE B在HS-DSCH发送承载着逻辑信道数据的数据时,使用该逻辑信道对应的公共H-RNTI作为对应HS-SCCH的特定扰码对数据进行加扰并发送;
步骤250:终端监听NODE B发出的HS-SCCH,一旦终端从HS-SCCH检测到其扰码是RNC事先通过无线资源控制层信令告知终端的公共H-RNTI,则认为是发送给自己的数据,则接收HS-DSCH上发送的数据。Step 250: The terminal monitors the HS-SCCH sent by NODE B. Once the terminal detects from the HS-SCCH that the scrambling code is the public H-RNTI that the RNC informed the terminal through the radio resource control layer signaling in advance, it considers it as data sent to itself , then receive the data sent on the HS-DSCH.
对于HS-DSCH上同一包数据,可以被所有终端或者一组终端所接收。For the same packet of data on the HS-DSCH, it can be received by all terminals or a group of terminals.
第三实施例,如图3所示。The third embodiment is shown in FIG. 3 .
设定场景:小区3中CCCH、BCCH、CTCH映射到HS-DSCH。Setting scenario: CCCH, BCCH, and CTCH in cell 3 are mapped to HS-DSCH.
步骤310,RNC分配小区内公共H-RNTI,将CCCH、BCCH映射到HS-DSCH,用一个公共H-RNTI值777来表示CCCH、BCCH来源数据;将CTCH映射到HS-DSCH,用一个公共H-RNTI值888来表示CTCH来源数据。
步骤320,RNC通过无线资源控制层信令(如系统消息广播信令),告知终端此小区分配公共H-RNTI为777标识CCCH、BCCH来源数据,分配公共H-RNTI为888标识CTCH来源数据;
步骤330,RNC通过NODE B应用部分信令(如小区建立信令,或者公共物理数据信道建立信令,或者审计信令,或者小区重配信令,或者公共物理数据信道重配信令,或者物理共享信道重配信令),告知NODE B此小区公共H-RNTI为777标识了CCCH、BCCH来源数据,公共H-RNTI为888标识了CTCH来源数据;
此处并不作为步骤320和步骤330执行先后顺序的限定。Here, the execution order of
步骤340,NODE B在HS-DSCH发送承载着逻辑信道数据的数据时,使用逻辑信道对应的公共H-RNTI作为对应HS-SCCH的特定扰码对数据进行加扰并发送;
步骤350,终端监听NODE B发出的HS-SCCH,一旦终端从HS-SCCH检测到其扰码是RNC事先通过无线资源控制层信令告知终端的公共H-RNTI,则认为是发送给自己的数据,则接收HS-DSCH上发送的数据。
对于HS-DSCH上同一包数据,可以被所有终端或者一组终端所接收。For the same packet of data on the HS-DSCH, it can be received by all terminals or a group of terminals.
本发明还可有其他多种实施例,在不背离本发明精神及其实质的情况下,熟悉本领域的技术人员当可根据本发明作出各种相应的改变和变形,如本发明实施例中对于公共H-RNTI值的分配仅作为举例说明,且实施例中对应于不同逻辑信道NODE B获取公共H-RNTI的方法也不作为限定,这些相应的改变和变形都应属于本发明所附的权利要求的保护范围。The present invention can also have other multiple embodiments, without departing from the spirit and essence of the present invention, those skilled in the art can make various corresponding changes and deformations according to the present invention, as in the embodiment of the present invention The distribution of the public H-RNTI value is only used as an example, and the method of obtaining the public H-RNTI corresponding to different logical channels NODE B in the embodiment is not limited, and these corresponding changes and deformations should all belong to the attached scope of the present invention The scope of the claims.
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