WO2007090334A1 - Procédé de traitement, et équipement utilisateur pour informations de configuration initiale d'allocation de ressources - Google Patents

Procédé de traitement, et équipement utilisateur pour informations de configuration initiale d'allocation de ressources Download PDF

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Publication number
WO2007090334A1
WO2007090334A1 PCT/CN2007/000153 CN2007000153W WO2007090334A1 WO 2007090334 A1 WO2007090334 A1 WO 2007090334A1 CN 2007000153 W CN2007000153 W CN 2007000153W WO 2007090334 A1 WO2007090334 A1 WO 2007090334A1
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WIPO (PCT)
Prior art keywords
value
authorization
configuration information
initial configuration
variable
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PCT/CN2007/000153
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English (en)
French (fr)
Inventor
Bin Chen
Hongcheng Zhuang
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Huawei Technologies Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Huawei Technologies Co., Ltd. filed Critical Huawei Technologies Co., Ltd.
Priority to AT07702085T priority Critical patent/ATE550846T1/de
Priority to ES07702085T priority patent/ES2382360T3/es
Priority to EP07702085A priority patent/EP1988660B1/en
Priority to CNA2007800002310A priority patent/CN101496345A/zh
Publication of WO2007090334A1 publication Critical patent/WO2007090334A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal

Definitions

  • the invention relates to a method for processing service authorization initial configuration information and a user equipment.
  • the application is submitted to the Chinese Patent Office on February 8, 2006, and the application number is 200610054628.5, and the invention name is "a configuration of service authorization in a high-speed uplink packet access system.
  • the priority of the Chinese Patent Application the entire disclosure of which is hereby incorporated by reference.
  • the present invention relates to the field of service authorization of a mobile communication system, and in particular, to a method and a user equipment for processing service initial configuration information.
  • 3GPP Three Generation Partnership Protocol
  • HSUPA High Speed Uplink Packet Access
  • HARQ hybrid automatic repeat request
  • Node B base station
  • uplink 2ms short frame technology which greatly improves the throughput of the uplink user data.
  • the rate of the air interface peak rate is as high as 5.76 Mbps, and the system uplink capacity is also greatly increased.
  • HSUPA consists of Enhanced Dedicated Channel (E-DCH), E-DCH Dedicated Physical Control Channel (E-DCHCH), E-DCH Dedicated Physical Data Channel (E-DPDCH: E-DCH Dedicated Physical Data Channel), E-DCH Hybrid ARQ Indicator Channel, E-DCH Relative Grant Channel (E-RGCH: E-DCH Relative Grant Channel)
  • E-AGCH E-DCH Absolute Grant Channel
  • FIG. 1 is a flow chart of data transmission in the process of using HSUPA resources.
  • the Node B transmits scheduling authorization information to the user equipment (UE) on the E-RGCH and the E-AGCH. Thereafter, the UE performs a composite automatic repeat request (HARQ) process scheduling according to the authorization information and is on the transport channel E-DCH.
  • HARQ composite automatic repeat request
  • the scheduling grant information sent by the Node B to the user through the E-AGCH/E-RGCH determines the HSUPA transmission resource that the UE can use.
  • the E-AGCH transmits absolute scheduling grant information, which directly specifies the HSUPA sending resource that the UE can use.
  • the E-RGCH transmits the relative scheduling grant information. After receiving the information, the UE increases or decreases the transmission resources that it currently has according to the specified ratio.
  • the E-DCH Radio Network Temporary Identifier is an E-DCH radio network temporary identifier, which is an identification code of the UE in HSUPA, and is classified into a primary ER TI and a secondary E-RNTI. It is configured by the Serving Radio Network Controller (SRNC) when the channel is established.
  • the absolute scheduling authorization in E-AGCH is divided into two types: primary authorization and secondary authorization.
  • the primary authorization is identified by the primary E-RNTI, and the value corresponding to the primary E-RNTI is directly assigned to the Serving-Grant variable of the UE. Further, the UE uses the value in the variable to determine that it can use the value.
  • the HSUPA transmits the resource; the secondary grant is identified by the secondary E-RNTI, and the value corresponding to the secondary E-RNTI can be assigned to the service grant variable only if the primary E-RNTI identifier is not available, otherwise it is stored in the UE storage count.
  • the Stored-secondary-grant variable is left to be assigned to the service authorization variable when the primary E-RNTI identifier fails.
  • the value of the service grant variable is usually initially configured by the serving radio network controller through a radio channel configuration or reconfiguration Radio Resource Control (RRC) message.
  • RRC Radio Resource Control
  • the service authorization related initial configuration information included in the foregoing RRC message of the wireless channel configuration or reconfiguration includes two parts: one part is a service authorization value; the other part is a primary/secondary authorization selection to indicate the HSUPA running service thereafter. Whether the value in the authorization variable is configured by the primary authorization (absolute scheduling authorization information identified by the primary E-RNTI) or the secondary authorization (absolute scheduling authorization information identified by the secondary E-RNTI), for example, the service in the RC message shown in Table 1. Authorization related initial configuration information.
  • Step S10 Determine whether the service authorization (Serving-Grant) option is included in the initial configuration information. If the service authorization option is included, then go to step S11; otherwise, go to step S15.
  • service authorization Server-Grant
  • Step S11 setting the value of the service authorization variable to be the value indicated by the service authorization value in the initial configuration information (the service authorization value in the initial configuration information is a correspondence relationship with the value indicated by the service, and the service authorization value is 0 to 37 and indicated
  • the service authorization value in the initial configuration information is a correspondence relationship with the value indicated by the service, and the service authorization value is 0 to 37 and indicated
  • the correspondence between the values please refer to 3GPP TS 25.321 v6.7.0 Table 9.2.5.2.1.1, the value indicated by value 38 is 0 authorization
  • Step S12 Determine whether the primary/secondary authorization selection selects "master authorization”. If yes, proceed to step S13; otherwise, proceed to step S14.
  • Step S13 Set the Primary-Privilege-Available variable to "true", which means that the value of the service authorization variable in the HSUPA operation will be set by the primary authorization information in the absolute scheduling authorization information of the E-AGCH. Thereafter, step S16 is performed.
  • Step S14 Set the primary authorization available variable to "false", that is, the value of the service authorization variable in the HSUPA operation will be set by the secondary authorization information in the absolute scheduling authorization information of the E-AGCH. Thereafter, step S16 is performed.
  • Step S15 Set the value of the service authorization variable to zero, and configure the variable master authorization to be "true,". It should be noted that in the case where the value of the service authorization variable is zero, the UE has no available HSUPA to send resources.
  • Step S16 The configuration variable storage secondary authorization (Stored-secondary-grant) is a zero value. As can be seen from the processing flow shown in FIG. 2, the value of the storage secondary authorization variable is always zero regardless of whether the service authorization value is configured or not, and the primary/secondary authorization selection. That is, the storage secondary grant variable of the UE is not configurable during the initialization of the SRNC, and in any case, the value of the storage secondary grant variable is zero.
  • the value of the UE storage secondary authorization variable is assigned to the service authorization variable. Since the value of the store secondary authorization variable can only be zero when the initial configuration is complete, assigning the value to the service authorization variable causes the value of the service authorization variable to be zero.
  • the value of the service grant variable is zero, the UE has no available HSUPA to send resources. Therefore, the foregoing situation may result in the UE having no HSUPA transmission resources that can be used, and the HSUPA data cannot be sent out. This is obviously not the result that the Node B wants to control after the UE switches from the primary authorization type to the secondary authorization.
  • the Node B must send additional E-AGCH channel information to configure the value of the secondary authorization variable stored in the UE, regardless of the type of initial configuration of the UE by the SRNC.
  • the problem that the UE does not have available HSUPA transmission resources after the primary and secondary handovers is avoided, but also consumes more limited wireless resources.
  • An object of the present invention is to provide a method and a device for processing service initial configuration information. After the UE performs initialization configuration according to the service authorization initial configuration information sent by the SR C, the Node B does not need to send an additional E- in all cases.
  • the AGCH channel information is used to configure the secondary grant variable stored in the UE.
  • An embodiment of the present invention provides a method for processing service authorization initial configuration information, where the method includes: receiving service authorization initial configuration information; if the initial configuration information meets a preset condition, setting a storage secondary authorization variable to the initial configuration The value indicated in the message.
  • the embodiment of the present invention further provides a user equipment for processing service initial configuration information, which includes a receiving unit, configured to receive service authorization initial configuration information, and a determining unit, configured to determine the initial configuration information, where the content is determined. At least including the initial configuration letter Whether the information satisfies the preset condition; and a variable setting unit, configured to set a value of the internal variable according to the judgment result of the determining unit, where the internal variable includes at least the storage secondary authorization variable, and if the judgment result of the determining unit satisfies the preset condition And the value of the storage secondary authorization variable is equal to the value indicated in the initial configuration information.
  • the storage secondary authorization variable is set to the value indicated in the initial configuration information when the preset condition is met. Therefore, the value in the storage secondary authorization variable is not always 0 after the initial configuration, and further, as long as the value in the storage secondary authorization variable is non-zero, the Node B does not need to send an additional E- in the process of using the HSUPA resource.
  • the AGCH channel information is used to configure the secondary grant variable stored in the UE. In other words, the Node B does not need to send additional E-AGCH channel information in all cases to configure the secondary grant variable in the UE, thus achieving the purpose of saving wireless network resources.
  • Figure 1 is a flow chart of data transmission of HSUPA
  • FIG. 3 is a flowchart of processing service initial configuration information according to Embodiment 1 of the present invention
  • FIG. 4 is a flowchart of processing service initial configuration information according to Embodiment 2 of the present invention
  • FIG. 6 is a flowchart of processing of service authorization initial configuration information according to Embodiment 4 of the present invention
  • FIG. 7 is a schematic structural diagram of a preferred embodiment of a user equipment according to the present invention.
  • FIG. 3 is a flowchart of processing the service authorization initial configuration information according to Embodiment 1 of the present invention.
  • the initial configuration information of the service authorization in the RRC message shown in the existing Table 1 is used, and as shown in FIG. 3, the UE receives the service in the RRC message. After the initial configuration information is authorized, the following processing flow will be performed:
  • step S20 it is judged whether the service authorization option is included in the configuration information according to the initial configuration information in the RRC message. If the result of the judgment is that the service authorization option is included in the initial configuration information, step S21 is performed; otherwise, step S27 is performed.
  • Step S21 setting the service authorization variable to the value indicated by the service authorization value in the initial configuration information, and proceeding to step S22.
  • Step S22 determining whether the primary/secondary authorization selection in the initial configuration information is "main", that is, whether the primary authorization selection is included in the initial configuration information. If yes, go to step S23; otherwise, go to step S25.
  • Step S23 setting the Primary Authorization (Primary_Grant_Available) variable to "true", that is, the value of the service authorization variable in the channel operation will be set by the primary authorization in the E-AGCH. Go to step S24.
  • Primary Authorization Primary_Grant_Available
  • Step S24 setting a stored-secondary-grant variable (Zero-Grant).
  • step S25 the primary-grant-available variable is set.
  • the "false” that is, the service authorization in the channel operation will be set by the secondary authorization in the E-AGCH. And step S26 is performed.
  • Step S26 The Stored-secondary-grant variable is a value indicated by the service authorization value included in the initial configuration information.
  • Step S27 setting a Serving-Grant variable to zero value (Zero-Grant), setting a Stored-secondary-grant variable to zero value (Zero-Grant), and setting a master authorization to be available ( Primary— Grant— Available )
  • the variable is "true”. This result indicates that the SRNC does not have a Service Authorization and Storage Secondary Authorization, and the service authorization will be set by the primary authorization in the E-AGCH during channel operation.
  • the storage secondary authorization variable is always a value regardless of whether the service authorization value is configured or not, and the primary/secondary selection. That is, the storage secondary grant variable of the UE is not configurable during wireless channel configuration or reconfiguration.
  • the information includes a service authorization value and a secondary authorization selection (corresponding to a preset condition set by the UE), then setting a storage secondary authorization variable to a value indicated by the service authorization value in the initial configuration information, if the service authorization value If the indicated value is a non-zero value, in the process of using the HSUPA resource in the subsequent process, the Node B does not need to configure the value of the secondary authorization variable through the additional E-AGCH channel information, and the primary authorization to the secondary authorization does not occur.
  • the UE has no available HSUPA to send resources.
  • the Node B will UE even in the subsequent use of the HSUPA resource.
  • the Node B will not cause the service authorization variable to be zero when it is assigned to the service authorization variable, and thus will not cause The UE does not have available HSUPA transmission resources.
  • the UE appropriately configures its internal variables according to the received initial configuration information in the RRC message including the service authorization value and the primary/secondary authorization selection: the service authorization variable and the storage secondary authorization variable and the primary authorization.
  • Variables are available to solve the problem that the UE's Stored-Secondary-Gmnt variable is not configurable during wireless channel configuration or reconfiguration.
  • the Node B does not need to configure the storage secondary authorization variable through the additional E-AGCH channel information in any case, as long as the storage secondary authorization variable is set to a non-zero value during the initialization process. There is no need to configure it separately, which shows that the channel bandwidth is saved, that is, the limited wireless resources are saved.
  • Embodiment 2 enables the SRNC to simultaneously configure a Service Authorization (Serving-Grant) variable, a Primary-Privilege-Available variable, and a Stored-Secondary-Grant variable.
  • the configuration information of the service authorization in this embodiment is shown in Table 2: Table 2
  • the configuration information is not unique, and may be in other forms, so that the service authorization variable in the UE can be set according to the configuration information.
  • the configuration information may only include the primary service authorization value and/or Or secondary service authorization values, as shown in Table 3.
  • the primary service authorization value and the secondary service authorization value are optional and can be included in the configuration information or only one of them.
  • Table 2 or Table 3 The content shown in Table 2 or Table 3 is used as the initial configuration information, and the processing flow of the UE is as shown in the figure.
  • step S32 If the primary service authorization value is included, proceed to step S32 to set the primary authorization available. (Primary- Grant-Available) The variable is true, and the Serving-Grant variable is set to the value indicated by the primary service authorization value in the initial configuration information;
  • step S33 If the primary service authorization value is not included, proceed to step S33, set the service authorization variable to a value of zero, and set the primary authorization-available variable to "false";
  • the storage sub-authorization variable is set according to whether the initial configuration information includes the secondary service authorization value.
  • step S34 it is determined whether the initial configuration information includes a Secondary Serving Grant value. If not, the storage secondary authorization variable is set to a value of zero, and the primary authorization available variable is set to true (step S38). If it is determined that the initial configuration information includes the secondary service authorization value, that is, it is determined that the storage secondary authorization variable needs to be configured, proceed to step S35:
  • Step S35 setting a Stored-Secondary-Grant variable to a value indicated by the secondary service authorization value in the initial configuration information
  • step S36 it is judged whether the main authorization is available or not, and if so, nothing is done. Otherwise, proceed to step S37.
  • step S37 when the primary authorization available variable is "false", the service authorization is set to a value indicated by the secondary service authorization value of the initial configuration information. The process ends.
  • the storage secondary authorization variable is set to the initial configuration information secondary service.
  • the value indicated by the authorization value If the value indicated by the service authorization value is a non-zero value, in the subsequent HSUPA process, the Node B does not need to configure the value of the secondary authorization variable through the additional E-AGCH channel information, nor does the primary authorization switch occur.
  • the UE has no problem with the available HSUPA transmission resources at the time of the secondary authorization, thus saving limited radio resources.
  • the initial configuration information includes only the secondary service authorization value and does not include the primary service authorization value, setting the service authorization variable to a value indicated by the secondary service authorization value in the initial configuration information; Including the secondary service authorization value and the primary service authorization value, the service authorization variable is set to the value indicated by the primary service authorization value in the initial configuration information.
  • the method 2 of the present invention is configured by separately configuring the primary/secondary service authorization.
  • Service authorization variables, storage secondary authorization variables, and primary authorization available variables can be configured at the same time, and their configurations do not conflict with each other, enabling flexible configuration.
  • Example 3
  • the UE can also adopt the flow processing as shown in FIG.
  • the difference from the flow shown in FIG. 4 is only:
  • step S34 when it is determined that the initial configuration information does not include the secondary service authorization, the storage secondary authorization is set to a value of zero (step S38'), and it is determined whether the initial configuration information includes the primary service.
  • the authorization value (step S39'), if not included, sets the primary authorization available to be true (step S40'. This result indicates that the SRNC has not configured the service authorization and the storage secondary authorization, and the service authorization will be set by the primary authorization during channel operation.
  • the embodiment can also achieve the effect of Embodiment 2 of the present invention.
  • the initial authorization configuration may also be performed by using the initial configuration information of Table 4 defined by the present invention.
  • the specific configuration process is shown in FIG. 6.
  • the processing of the primary service authorization value and the primary/secondary authorization selection is the same as the present invention.
  • the first embodiment is basically similar, except that when the primary/secondary authorization selection is secondary (that is, the initial configuration information includes the secondary authorization selection), the value of the storage secondary authorization variable is not set to the value indicated by the service authorization value, but is further determined. Whether the initial configuration information further includes a storage secondary authorization value, and if so, the value of the storage secondary authorization variable is equal to the value indicated by the storage secondary authorization value.
  • the specific implementation steps are as follows:
  • Steps S20, S21, S22, S23, S25, and S27 are the same as Embodiment 1 of the present invention, and therefore will not be described again.
  • steps S24 and S26 are absent in the embodiment 4, but the processing of steps S28, S29 and S2A is added. details as follows.
  • step S28 is performed to determine whether the initial configuration information includes the storage secondary authorization value, and if so, the storage secondary authorization variable is set to the value indicated by the storage secondary authorization value in the initial configuration information (step S29), otherwise the storage secondary authorization is set to a value of zero (step S2A).
  • the storage secondary authorization variable is set to the value indicated by the storage secondary authorization value. If the value indicated by the storage secondary authorization value is a non-zero value, in the subsequent process of using the HSUPA resource, the Node B does not need to configure the value of the secondary authorization variable through the additional E-AGCH channel information, and does not occur. The problem that the UE does not have available HSUPA to send resources when the primary authorization is switched to the secondary authorization.
  • the present embodiment can not only achieve the beneficial effects of saving the wireless network resources obtained in Embodiment 1, but also can separately configure the storage secondary authorization variables and the service authorization variables, and are independent of each other, and have greater flexibility.
  • the present invention also discloses a user equipment for processing service authorization initial configuration information.
  • FIG. 7 is a schematic structural diagram of a preferred embodiment of the user equipment according to the present invention.
  • the user equipment of the processing service authorization initial configuration information shown in this embodiment is a further improvement to the existing user equipment, only the logical unit related to the improved part is shown in the structural diagram of the embodiment, and the present invention is The same logical unit as the existing user equipment need not be described.
  • the embodiments of the user equipment of the present embodiment and the foregoing method for processing the initial configuration information of the service belong to the same inventive concept, so that some of the same or corresponding technical features of the two are briefly described in the field. The skilled person can easily implement the embodiment with reference to the foregoing content.
  • User equipment The internal logic unit related to the essence of the present invention will be specifically described below in conjunction with the working principle of the user equipment of the preferred embodiment in processing the initial configuration information.
  • the UE receives the service authorization initial configuration information from the SRNC through the receiving unit 71, and the service authorization initial configuration information may be included in the RRC message of the radio channel configuration or reconfiguration.
  • the service authorization initial configuration information includes, but is not limited to, one of the foregoing Tables 1 to 4.
  • the receiving unit 71 informs the determining unit 72 of the service authorization initial configuration information received by the receiving unit 71, and further, the determining unit 72 determines the initial configuration information, and the determining content at least includes determining whether the initial configuration information satisfies the preset. condition.
  • the variable setting unit 72 sets the value of the internal variable according to the judgment result of the judging unit 71, the internal variable including the service authorization variable, the main authorization available variable, and the storage sub-authorization variable.
  • the variable setting unit 72 sets the value of the storage secondary authorization variable to the value indicated in the initial configuration information, as indicated by the initial configuration information, as long as the determination result of the determination unit 72 is that the initial configuration information satisfies the preset condition.
  • the value also varies depending on the preset conditions.
  • the initial configuration information may have multiple situations, such as any one of the following Tables 1 to 4 or other forms
  • the preset conditions in the UE may also have multiple different implementation manners, and further, the determining unit 72 needs
  • the content of the judgment and the variable setting by the variable setting unit 73 are also slightly different, and several exemplary embodiments are given below.
  • the preset condition is that the initial configuration information includes a service authorization value and a secondary authorization selection.
  • the judging unit 72 at least checks whether the service authorization value and the sub-authorization selection are included in the initial configuration information. If included, the variable setting unit 73 sets the storage sub-authorization variable to the value indicated by the service authorization value in the initial configuration information. That is, the value of the storage secondary authorization variable is equal to the value indicated by the service authorization value in the initial configuration information; if the determination result of the determination unit 72 is that the preset condition is not satisfied, the value of the setting storage secondary authorization variable is zero.
  • variable setting unit 73 further sets the value of the main authorized available variable to be equal to false; if the judgment result of the determining unit 72 is the initial configuration information. Including the service authorization value and the master authorization selection, the variable setting unit 73 also sets the value of the primary authorization available variable to be equal to true, and sets the storage secondary authorization variable. The value is equal to zero.
  • the preset condition is that the initial configuration information includes a secondary service authorization value.
  • the determining unit 72 at least checks whether the secondary service authorization value is included in the initial configuration information. If included, the variable setting unit 73 sets the storage secondary authorization variable to the value indicated by the secondary service authorization value in the initial configuration information. If not included (ie, the preset component is not satisfied), the value of the stored secondary authorization variable is zero.
  • the determination content of the determining unit 72 further includes whether the primary service authorization value is included in the initial configuration information, and if the determination result is that the initial configuration information includes only the secondary service authorization value and does not include the primary service authorization value, the variable setting unit 73: setting the service authorization variable to a value indicated by the secondary service authorization value in the initial configuration information; if the determination result is to include the primary service authorization value, the value of the service authorization variable is equal to the value indicated by the primary service authorization value in the initial configuration information.
  • the preset condition is that the initial configuration information includes a storage secondary authorization value.
  • the determining unit 72 at least checks whether the initial configuration information includes the storage secondary authorization value, and if so, the variable setting unit 73 sets the storage secondary authorization variable to a value indicated by the secondary authorization value in the initial configuration information; If not included (ie, the preset condition is not met), then the value of the stored secondary authorization variable is zero.
  • the determination content of the determining unit 72 further includes whether the primary authorization selection or the secondary authorization selection is included in the initial configuration information. If the determination result of the determination unit 72 is that the initial configuration information includes the secondary authorization selection, the variable setting unit 73 further sets the primary authorization. The value of the available variable is equal to false; if the primary authorization selection is included, the value of the primary authorization available variable is set equal to true.
  • the user equipment that processes the initial configuration information appropriately configures its internal variables according to the received initial configuration information: the service authorization variable and the storage secondary authorization variable and the main Authorize the available variables to resolve the UE's Stored-Secondary-Grant variable in the wireless channel configuration or heavy
  • the configuration is not configurable. Therefore, as long as the storage sub-authorization variable is set to a non-zero value during the initialization process, no additional configuration is required. In other words, the Node B does not need to configure the storage sub-authorization through additional E-AGCH channel information under any circumstances. variable. It can be seen that the channel bandwidth is saved, that is, the limited wireless resources are saved. At the same time, the processing complexity of the Node B is also reduced, and the control capability of the network to the UE is enhanced, thereby improving the system capability.

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Description

一种服务授权初始配置信息的处理方法和用户设备 本申请要求于 2006 年 2 月 8 日提交中国专利局、 申请号为 200610054628.5、 发明名称为"一种高速上行分组接入系统中服务授权的 配置方法"的中国专利申请的优先权, 其全部内容通过引用结合在本申请 中。
技术领域
本发明涉及移动通信系统的服务授权领域, 具体的讲, 是一种服务 授权初始配置信息的处理方法和用户设备。
背景技术
从 REL6版本开始, 3GPP (第三代合作协议)提供高速上行分组接入 ( HSUPA: High Speed Uplink Packet Access )技术, 用以提供上行分组在 空中接口的高速传输。 这种高速上行分组接入技术釆用复合自动重传请 求(HARQ: Hybrid Automatic Repeat Request )技术, 基站(Node B )快 速调度技术和上行 2ms短帧技术,极大的提高了上行用户数据的吞吐率, 空口峰值速率高达 5.76Mbps, 并且也较大的提高了系统上行容量。
HSUPA 由增强的专用传输信道 ( E-DCH: Enhanced Dedicated Channel ), E-DCH专用物理控制信道( E-DPCCH: E-DCH Dedicated Physical Control Channel ), E-DCH专用物理数据信道( E-DPDCH: E-DCH Dedicated Physical Data Channel )、 E-DCH齡自动重 求指示信道( E-HICH: E-DCH Hybrid ARQ Indicator Channel ), E-DCH相对授权信道(E-RGCH: E-DCH Relative Grant Channel )、 E-DCH绝对授权信道( E-AGCH: E-DCH Absolute Grant Channel )相互作用来实现。这些信道通常是事先在信道建立的过程 中配置好的 (在呼叫进行中也可能进行重新配置)。
请参阅图 1 , 其为现有使用 HSUPA资源的过程中数据传输流程图。 首先, 由 Node B在 E-RGCH、 E- AGCH上传输调度授权信息给用户设备 ( UE ); 此后, UE根据授权信息进行复合自动重传请求(HARQ )进程调 度并在传输信道 E-DCH上传输数据 , E-DCH映射到物理信道 E-DPDCH 上传输数据给 Node B,并在 E-DPCCH上传输指示信息给 Node B; 然后, Node B同时接收 E-DPCCH和 E-DPDCH, 并按照 E-DPCCH上的传输指 示信息的指示解码 E-DPDCH上的数据; 再后, Node B把接收结果以及 上行信道质量状态在 E-HICH上传输给该 UE; 最后,该 UE根据 E-HICH 上的信息 , 结合 E-RGCH和 E-AGCH上的授权信息决定下一次传输。
Node B通过 E-AGCH/E-RGCH向用户发送的调度授权信息决定了 UE可以使用的 HSUPA发送资源。 其中, E-AGCH中传输的是绝对调度 授权信息, 该信息可以直接指定 UE 可以使用的 HSUPA发送资源。 E-RGCH中传输的是相对调度授权信息, UE收到此信息后, 按照指定的 比例, 增加或减少自身当前具有的发送资源。
E-RNTI ( E-DCH Radio Network Temporary Identifier, 增强专用信道 无线网络临时标识符)是 E-DCH无线网络临时标识, 是 UE在 HSUPA 中的标识码,分为主 E-R TI和次 E-RNTI,由服务无线网络控制器( SRNC: Serving Radio Network Controller )在信道建立时予以配置。 E-AGCH中的绝 对调度授权又分为两种类型:主授权和次授权。其中,主授权由主 E-RNTI 来标识, 主 E-RNTI 对应的值将被直接赋值到 UE 的服务授权 ( Serving-Grant )变量中, 进而, UE利用变量中的该值来判断自己可以使 用的 HSUPA发送资源; 次授权由次 E-RNTI来标识, 次 E-RNTI对应的 值只有在主 E-RNTI标识非可用的情况下才能被赋值到服务授权变量,否 则被存储到 UE的存储次授权 ( Stored-secondary-grant ) 变量, 留待将来 主 E-RNTI标识失效时再被赋值到服务授权变量。
在 UE开始使用 HSUPA资源之前,服务授权变量的值通常由服务无线 网络控制器通过无线信道配置或重配置无线资源控制 (RRC: Radio Resource Control ) 消息来进行初始化配置。
上述无线信道配置或重配置的 R C消息中所包含的服务授权相关初 始配置信息包括两个部分: 一部分是服务授权值; 另一部分是主 /次授权 选择,用以表明在此后的 HSUPA运行中服务授权变量中的值是通过主授 权(主 E-RNTI标识的绝对调度授权信息)还是次授权 (次 E-RNTI标识 的绝对调度授权信息)予以配置, 例如, 表 1所示的 R C消息中服务授权 相关的初始配置信息。
表 1 >服务授权 可选 REL-6
》服务授权值 必选 整数 0 ~ 37对应 REL-6
(0.37,38) TS25.321中的表
9.2.5.2.U中的
值, 38指示的值为
0值
»主/次授权 必选 枚举: 指示服务授权是 REL-6 选择 f主", "次" } 通过主 E-RNTI还
是次 E-RNTI接收
当 UE收到表 1所示的初始配置信息后, 进行如下的处理流程(如图 2所示 ):
步骤 S10, 判断初始配置信息中是否包含服务授权(Serving-Grant ) 选项。 如果包含了服务授权选项, 则进入步骤 S11; 否则进行步骤 S15。
步骤 S11:设置服务授权变量的值为初始配置信息中服务授权值所指 示的值(初始配置信息中服务授权值同其所指示的值是一种对应关系, 服 务授权值 0 ~ 37与所指示的值之间的对应关系请参看 3GPPTS25.321 v6.7.0 表 9.2.5.2.1.1 , 值 38所指示的值为 0授权), 然后进行步骤 S12。
步驟 S12: 判断主 /次授权选择是否选择 "主授权"。 如果是, 则进行 步骤 S13; 否则进行步骤 S14。
步骤 S13: 设置主授权可用 (Primary— Grant— Available ) 变量为"真", 即表明在 HSUPA运行中服务授权变量的值将由 E-AGCH的绝对调度授 权信息中的主授权信息来设置。 此后执行步骤 S16。
步驟 S14: 设置主授权可用变量为"假", 即表明在 HSUPA运行中服 务授权变量的值将由 E-AGCH的绝对调度授权信息中的次授权信息来设 置。 此后执行步驟 S16。
步驟 S15: 设置服务授权变量的值为零,, 并且配置变量主授权可用 为"真,,。 需要注意, 在服务授权变量的值为零情况下, UE没有可以使用 的 HSUPA发送资源。 此后执行步驟 S16。 步骤 S16: 配置变量存储次授权 ( Stored-secondary-grant )为零值。 从图 2所示的处理流程可以看出, 不管是否配置服务授权值, 以及 主 /次授权选择如何, 存储次授权变量的值总为零。 即, UE的存储次授权 变量在 SRNC对其进行初始化过程中是不可配置的,任何情况下, 存储次 授权变量的值都是零。 进而, 在初始化配置结束后使用 HSUPA资源的过 程中, 如果 UE被 Node B从主授权类型切换到次授权类型后, UE存储 次授权变量的值将被赋值到服务授权变量。 由于初始配置完成时存储次 授权变量的值只能是零, 因此该值被赋值到服务授权变量时会导致服务 授权变量的值是零。 前面介绍过, 在服务授权变量的值为零情况下, UE 没有可以使用的 HSUPA发送资源。 于是, 上述情况最终会导致 UE没有 可以使用的 HSUPA发送资源, 不能向外发送 HSUPA数据, 这显然不是 Node B控制 UE从主授权类型切换到次授权后所希望看到的结果。
于是, 目前 Node B为了克服上述情况的发生, 无论 SRNC对 UE进 行何种类型的初始化配置后, Node B都必须发送额外的 E-AGCH信道信 息来配置 UE中存储次授权变量的值,这样虽然避免了在主次切换后出现 UE没有可用 HSUPA发送资源的问题, 但是也消耗了较多有限的无线资 源。
发明内容
本发明的目的在于提供一种服务授权初始配置信息的处理方法及设 备, UE根据 SR C发送的服务授权初始化配置信息进行初始化配置后, Node B无需在所有情况下都要再次发送额外的 E-AGCH信道信息来配置 UE中存储次授权变量。 本发明实施例提供了一种服务授权初始配置信息的处理方法, 所述 包括: 接收服务授权初始配置信息; 如果所述初始配置信息满足预置条 件, 则设置存储次授权变量为所述初始配置信息中指示的值。
本发明实施例还提供了一种处理服务授权初始配置信息的用户设 备, 包括接收单元, 用以接收服务授权初始配置信息; 判断单元, 用以 对所述初始配置信息进行判断, 所述判断内容至少包括所述初始配置信 息是否满足预置条件; 以及变量设置单元, 用以根据所述判断单元的判 断结果设置内部变量的值, 所述内部变量至少包括存储次授权变量, 如 果判断单元的判断结果为满足预置条件, 则所述存储次授权变量的值等 于初始配置信息中指示的值。 本发明实施例通过在接收服务授权初始配置信息后, 在满足预置条 件情况下设置存储次授权变量为所述初始配置信息中指示的值。 从而使 得存储次授权变量中的值在初始化配置后不总是 0, 进而, 只要存储次授 权变量中的值是非 0值, 那么在使用 HSUPA资源的过程中 Node B就无 需再发送额外的 E-AGCH信道信息来配置 UE中存储次授权变量。 换而 言之 , Node B不必在所有情况下都需要发额外的 E-AGCH信道信息来 配置 UE中存储次授权变量, 于是达到了节约无线网络资源的目的。 附图说明
图 1为 HSUPA的数据传输流程图;
图 2为现有服务授权初始配置信息的处理流程图;
图 3为本发明实施例 1的服务授权初始配置信息的处理流程图; 图 4为本发明实施例 2的服务授权初始配置信息的处理流程图; 图 5为本发明实施例 3的服务授权初始配置信息的处理流程图; 图 6为本发明实施例 4的服务授权初始配置信息的处理流程图; 图 7为本发明用户设备优选实施例结构示意图。
具体实施方式
下面参照附图对本发明的具体实施例进行详细说明。 实施例 1
本发明实施例首先可以在不改变现有的服务授权初始配置信息的情 况下, 通过改变 UE中服务授权初始配置信息的处理流程, 实现 UE中服 务授权变量和存储次授权变量的分别配置, 从而达到在初始化过程中可 以配置存储次授权的目的。 图 3为本发明实施例 1 的服务授权初始配置 信息的处理流程图。 本实施例中釆用现有的表 1所示的 RRC消息中服务 授权的初始配置信息, 如图 3所示, UE接收到所述 RRC消息中的服务 授权初始配置信息后, 将进行如下的处理流程:
首先根据 RRC消息中的初始配置信息判断配置信息中是否包含了服务 授权选项(步驟 S20 )。如果判断结果为初始配置信息中包含了服务授权选 项, 则执行步驟 S21; 否则执行步骤 S27。
步驟 S21 ,设置服务授权变量为初始配置信息中的服务授权值所指示 的值, 并且进入到步骤 S22。
步驟 S22, 判断初始配置信息中的主 /次授权选择是否为"主", 即初 始配置信息中是否包含主授权选择。 如果是, 则执行步骤 S23; 否则执行 步骤 S25。
步骤 S23 , 设置主授权可用 (Primary_Grant— Available ) 变量为"真", 也就是在信道运行中服务授权变量的值将由 E-AGCH 中的主授权来设 置。 执行步骤 S24。
步骤 S24 , 设置存储次授权(Stored-secondary-grant ) 变量为零值 ( Zero-Grant )。
当初始配置信息中的主 /次授权选择为"次", 即初始配置信息中包括 次授权选择时, 则需要配置存储次授权, 由步骤 S25, 设置主授权可用 ( Primary— Grant— Available ) 变量为 "假", 也就是在信道运行中服务授权 将由 E-AGCH中的次授权来设置。 并执行步驟 S26。
步骤 S26, 设置存储次授权 ( Stored-secondary-grant ) 变量为初始配 置信息中所包含的服务授权值所指示的值。
步骤 S27,设置服务授权( Serving-Grant )变量为零值 ( Zero-Grant ), 设置存 4诸次授权 ( Stored-secondary-grant ) 变量为零值 ( Zero-Grant ), 并 且设置主授权可用 (Primary— Grant— Available ) 变量为"真"。 此结果表示 SRNC 没有配置服务授权及存储次授权, 并在信道运行中服务授权将由 E-AGCH中的主授权来设置。
在现有初始配置信息的处理方法中, 不管是否配置服务授权值, 以 及主 /次选择如何, 存储次授权变量总是为零值。 即 UE的存储次授权变 量在无线信道配置或重配置的时候是不可配置的。 而通过上述本发明实 施例 1 的处理流程可以看出, 就存储次授权变量而言, 只要初始配置信 息包括服务授权值和次授权选择(相当于 UE设置的一个预置条件), 那 么就设置存储次授杈变量为所述初始配置信息中服务授权值所指示的 值, 如果所述服务授权值所指示的值是非零值, 则在后续使用 HSUPA资 源的过程中, Node B不需要再通过额外的 E-AGCH信道信息配置存储次 授权变量的值, 也不会发生由主授权切换到次授权时 UE 没有可用的 HSUPA发送资源的问题。 具体而言, 无论初始配置过程中设置主授权可 用是"真"还是"假,,, 只要存储次授权变量中的值是非零值, 那么即使在后 续使用 HSUPA资源的过程中, Node B将 UE由主授权切换至次授权时, 由于存储次授权变量的值在初始化过程中是非零值 , 因此当其被赋值到 服务授权变量后不会导致服务授权变量为零值, 进而,就不会导致 UE没 有可用的 HSUPA发送资源。
换而言之, UE根据接收的包括服务授权值及主 /次授权选择在内的 RRC 消息中的初始配置信息, 合理的配置了其内部各变量: 服务授权变 量和存储次授权变量以及主授权可用变量,从而解决了 UE的存储次授权 ( Stored-Secondary-Gmnt )变量在无线信道配置或重配置的时候是不可配 置的问题。 通过这种对初始配置信息的处理方法, Node B就不需要在任 何情况下都要通过额外的 E-AGCH信道信息配置存储次授权变量, 只要 存储次授权变量在初始化过程中设置为非零值就不需要再另行配置, 由 此可见, 节省了信道带宽, 即节省了有限的无线资源。 同时, 也降低了 Node B的处理复杂度, 使网络对 UE的控制能力得到加强, 从而提高了 系统能力。 实施例 2 使得 SRNC 可以同时配置服务授权(Serving-Grant ) 变量、 主授权可用 ( Primary— Grant— Available )变量、以及存储次授权 ( Stored-Secondary-Grant ) 变量。 本实施例的服务授权的配置信息如表 2所示: 表 2
Figure imgf000010_0002
所述配置信息的形式并不唯一, 还可以有其它的形式, 以能够根据 所述的配置信息进行 UE中的服务授权变量设置为准,如配置信息中也可 以只含有主服务授权值和 /或次服务授权值, 如表 3所示。 在表 2和表 3 中, 主服务授权值及次服务授权值都是可选项, 可以同时包含在配置信 息中, 也可以只包括其中一项。
Figure imgf000010_0001
Figure imgf000010_0003
以表 2或表 3所示内容作为初始配置信息, 则 UE的处理流程如图
4所示:
首先, 判断初始配置信息中是否包含了主服务授权值 (Primary Serving Grant value ) (步骤 S31 1
如果包含了主服务授权值, 则进行步骤 S32 , 设置主授权可用 ( Primary— Grant一 Available ) 变量为真, 并设置服务授权( Serving-Grant ) 变量为所初始配置信息中的主服务授权值所指示的值;
如果未包含主服务授权值, 则进行步骤 S33 ,设置服务授权变量为零 值, 设置主授权可用 (Primary— Grant— Available ) 变量为 "假";
然后根据初始配置信息是否包含次服务授权值, 进行存储次授权变 量的设置。
在步骤 S34,判断初始配置信息是否包含了次服务授权值 ( Secondary Serving Grant value )。如果未包含, 则直接设置存储次授权变量为零值, 并设置主授权可用变量为真(步骤 S38 )。 如果判断初始配置信息包含次 服务授权值, 即判断出需要配置存储次授权变量,则进行步骤 S35:
步骤 S35, 设置存储次授权 ( Stored-Secondary-Grant )变量为所述初 始配置信息中的次服务授权值所指示的值;
步骤 S36, 判断主授权可用是否为真, 如果是, 什么都不做。 否则进 行步骤 S37。
步驟 S37, 主授权可用变量为"假"时, 设置服务授权为所述初始配置 信息的次服务授权值所指示的值。 过程结束。
由本发明实施例 2 的处理流程图中可以看出, 只要初始配置信息包 括次服务授权值(相当于 UE设置的一个预置条件), 就设置存储次授权 变量为所述初始配置信息中次服务授权值所指示的值。 如果所述服务授 权值所指示的值是非零值, 则在后续 HSUPA过程中, Node B不需要再 通过额外的 E-AGCH信道信息配置存储次授权变量的值, 也不会发生由 主授权切换到次授权时 UE没有可用的 HSUPA发送资源的问题, 因此节 省有限的无线资源。
进一步, 如果所述初始配置信息只包括次服务授权值而不包括主服 务授权值, 则设置服务授权变量为所述初始配置信息中次服务授权值所 指示的值; 如果所述初始配置信息既包括次服务授权值又包括主服务授 权值, 则设置服务授权变量为所述初始配置信息中主服务授权值所指示 的值。
由此可见, 本发明实施例 2通过将主 /次服务授权分开配置的方法, 可以同时配置服务授权变量、 存储次授权变量、 主授权可用变量, 并且 它们的配置互相不会冲突, 可以实现灵活配置。 实施例 3
利用本发明中的配置信息(表 2或表 3 ), UE还可以采用如图 5所示 的流程处理。 其与图 4所示的流程的差别仅在于: 在步骤 S34, 判断初始 配置信息未包含次服务授权时, 设置存储次授权为零值 (步骤 S38'), 并判 断初始配置信息是否包含主服务授权值(步驟 S39' ), 如果未包含, 则设 置主授权可用为真(步骤 S40' 此结果表示 SRNC没有配置服务授权及 存储次授权, 并在信道运行中服务授权将由主授权来设置。 本实施例同 样可以实现本发明实施例 2的效果。 实施例 4
还可通过本发明定义的表 4 的初始配置信息进行初始授权的配置, 具体配置流程如图 6所示。
表 4
Figure imgf000012_0001
在本实施例中, 对主服务授权值和主 /次授权选择的处理同本发明实 施例 1基本相似, 不同之处在于当主 /次授权选择为次(即初始配置信息 包括次授权选择) 时, 不设置存储次授权变量的值为服务授权值所指示 的值, 而是进一步判断初始配置信息中是否还包含存储次授权值, 如果 包含, 则设置存储次授权变量的值等于存储次授权值所指示的值。 具体 实现步驟如下描述:
步骤 S20、 S21、 S22、 S23、 S25、 S27与本发明实施例 1相同, 故不 再赘述。不同的是实施例 4中没有了步骤 S24和 S26,但增加了步骤 S28、 S29和 S2A的处理。 具体如下。
在步骤 S23和 S25之后, 进行步骤 S28的处理, 判断初始配置信息 中是否包含存储次授权值, 如果是, 则设置存储次授权变量为初始配置 信息中的存储次授权值所指示的值(步驟 S29 ), 否则设置存储次授权为 零值 (步骤 S2A)。
通过上述实施例 4 的处理流程可以看出, 只要初始配置信息包括存 储次授权值(相当于 UE设置的一个预置条件), 就设置存储次授权变量 为所述存储次授权值指示的值。 如果所述存储次授权值所指示的值是非 零值, 则在后续使用 HSUPA资源的过程中, Node B不需要再通过额外 的 E-AGCH信道信息配置存储次授权变量的值, 也不会发生由主授权切 换到次授权时 UE没有可用的 HSUPA发送资源的问题。
由此可见, 本实施例不但可以达到实施例 1 取得的节约无线网络资 源的有益效果, 而且还可以将存储次授权变量和服务授权变量分开配置, 互相独立, 具有更大的灵活性。
本发明还公开了一种处理服务授权初始配置信息的用户设备, 请参 阅图 7, 其为本发明用户设备优选实施例的结构示意图。 一方面, 由于本 实施例所示的处理服务授权初始配置信息的用户设备是对现有用户设备 的进一步改进, 因此在实施例结构示意图中只示出与改进部分相关的逻 辑单元, 对于本发明和现有用户设备相同的逻辑单元无需赘述。 另一方 面, 本实施例用户设备与前文所述服务 4吏权初始配置信息的处理方法各 实施例属于同一个发明构思, 因此两者具有的一些相同或相应的技术特 征予以简述, 本领域技术人员在参照前述内容基 上容易实现本实施例 的用户设备。 下面结合优选实施例的用户设备在处理初始配置信息时的 工作原理 , 具体介绍其与本发明实质相关的内部逻辑单元。
首先, UE通过接收单元 71接收来自 SRNC的服务授权初始配置信 息, 所述服务授权初始配置信息可以包括在无线信道配置或重配置的 RRC消息中。 所述服务授权初始配置信息包括但不限于前述表 1至表 4 中的一种。
此后, 接收单元 71将其接收到的服务授权初始配置信息告知判断单 元 72, 进而, 判断单元 72对所述初始配置信息进行判断, 所述判断内容 至少都要包括判断初始配置信息是否满足预置条件。 进一步, 变量设置 单元 72才艮据判断单元 71的判断结果设置内部变量的值, 所述内部变量 包括服务授权变量、 主授权可用变量以及存储次授权变量。 其中, 只要 判断单元 72的判断结果为初始配置信息满足预置条件, 则变量设置单元 72就将述存储次授权变量的值设置为初始配置信息中指示的值, 所示初 始配置信息中指示的值也根据预置条件的不同而不同。
需要说明, 由于初始配置信息可能有多种情况, 如表 1至表 4中的 任何一种或者其他形式, 因此, UE内部的预置条件也有多种不同的实施 方式, 进而, 判断单元 72需要进行判断的内容以及变量设置单元 73所 进行变量设置情况也略有不同, 下面给出几种示例性的具体实施方式。
具体实施方式 1, 当所述初始配置信息为表 1所示内容时, 所述预置 条件为初始配置信息包括服务授权值和次授权选择。 具体而言, 判断单 元 72至少要考察初始配置信息中是否包括服务授权值和次授权选择, 如 果包括, 则变量设置单元 73将存储次授权变量设置为初始配置信息中服 务授权值所指示的值, 即存储次授权变量的值等于所述初始配置信息中 服务授权值所指示的值;如果判断单元 72的判断结果为不满足预置条件, 则所述设置存储次授权变量的值为零。
此外, 如果判断单元 72的判断结杲为初始配置信息中包括次 4曼权选 择, 则变量设置单元 73还设置主授权可用变量的值等于假; 如果判断单 元 72的判断结果为初始配置信息中包括服务授权值和主授权选择, 则变 量设置单元 73还设置主授权可用变量的值等于真, 设置存储次授权变量 的值等于零。 其他具体的判断内容以及设置内容参看前文实施 1 所示的 对应技术特征。
具体实施方式 2, 当所述初始配置信息为表 2或表 3所示内容时, 所 述预置条件为初始配置信息包括次服务授权值。 具体而言, 判断单元 72 至少要考察初始配置信息中是否包括次服务授权值, 如果包括, 则变量 设置单元 73将存储次授权变量设置为所述初始配置信息中次服务授权值 所指示的值; 如果不包括(即不满足预置奈件), 则所述存储次授权变量 的值为零。
此外, 所述判断单元 72的判断内容还包括初始配置信息中是否包括 主服务授权值, 如果判判断结果为初始配置信息中只包括次服务授权值 而不包括主服务授权值, 则变量设置单元 73设置服务授权变量为初始配 置信息中次服务授权值所指示的值; 如果判断结果为包括主服务授权值, 则所述服务授权变量的值等于初始配置信息中主服务授权值所指示的 值。 其他具体的判断内容以及设置内容参看前文实施 2或 3所示的对应 技术特征。
具体实施方式 3, 当所述初始配置信息为表 4所示内容时,, 所述预 置条件为初始配置信息包括存储次授权值。 具体而言, 判断单元 72至少 要考察初始配置信息中是否包括存储次授权值, 如果包括, 则变量设置 单元 73将存储次授权变量设置为初始配置信息中存储次授权值所指示的 值; 如果不包括(即不满足预置条件), 则所述存储次授权变量的值为零。
此外, 判断单元 72的判断内容还包括初始配置信息中是否包括主授 权选择或次授权选择, 如果判断单元 72的判断结果为初始配置信息中包 括次授权选择, 则变量设置单元 73还设置主授权可用变量的值等于假; 如果包含主授权选择, 则设置主授权可用变量的值等于真。 其他具体的 判断内容以及设置内容参看前文实施 4所示的对应技术特征。
通过上述各种具体实施方式可知, 本发明实施例所示的处理初始配 置信息的用户设备, 根据接收的初始配置信息, 合理的配置了其内部各 变量: 服务授权变量和存储次授权变量以及主授权可用变量, 从而解决 了 UE的存储次授权 ( Stored-Secondary-Grant )变量在无线信道配置或重 配置的时候是不可配置的问题。 因此, 只要存储次授权变量在初始化过 程中设置为非零值就不需要再另行配置, 换而言之, Node B不需要在任 何情况下都要通过额外的 E-AGCH信道信息配置存储次授权变量。 由此 可见,节省了信道带宽, 即节省了有限的无线资源。 同时,也降低了 Node B的处理复杂度, 使网络对 UE的控制能力得到加强, 从而提高了系统能 力。
上述各实施例是用于说明和解释本发明的原理的。 可以理解, 本发 明的具体实施方式不限于此。 对于本领域技术人员而言, 在不脱离本发 明的实质和范围的前提下进行的各种变更和修改均涵盖在本发明的保护 范围之内。

Claims

权 利 要 求
1.一种服务授权初始配置信息的处理方法, 其特征在于包括: 接收服务授权初始配置信息;
如果所述初始配置信息满足预置条件, 则设置存储次授权变量为所 述初始配置信息中指示的值。
2.根据权利要求 1所述的方法, 其特征在于, 所述预置条件为: 初始 配置信息包括服务授权值和次授权选择,
如果满足所述预置条件, 则设置存储次授权变量为所述初始配置信 息中服务授权值所指示的值。
3.根据权利要求 2所述的方法, 其特征在于, 所述方法还包括: 如果所述初始配置信息包括次授权选择, 则设置主授权可用变量为 假。
4.根据权利要求 1所述的方法, 其特征在于, 所述预置条件为: 初始 配置信息包括存储次授权值,
如果满足所述预置条件, 则设置存储次授权变量为所述初始配置信 息中存储次授权值所指示的值。
5.根据权利要求 1所述的方法, 其特征在于, 所述预置条件为: 初始 配置信息包括次服务授权值,
如果满足所述预置条件, 则设置存储次授权变量为所述初始配置信 息中次服务授权值所指示的值。
6.根据权利要求 5所述的方法, 其特征在于, 所述方法还包括: 如果所述初始配置信息只包括次服务授权值而不包括主服务授权 值, 则设置服务授权变量为所述初始配置信息中次服务授权值所指示的 值。
7.根据权利要求 5所述的方法, 其特征在于, 所述方法还包括: 如果所述初始配置信息包括主服务授权值, 则设置服务授权变量为 所述初始配置信息中主服务授权值所指示的值。
8.根据权利要求 1至 7中任意一项所述的方法, 其特征在于, 所述方 法还包括: 如果所述初始配置信息不满足预置条件, 则设置存储次授权 变量为零值。
9.根据权利要求 1至 7中任意一项所述的方法, 其特征在于, 所述服 务授权初始配置信息的处理方法应用于高速上行分组接入系统中。
10.—种处理服务授权初始配置信息的用户设备, 其特征在于包括: 接收单元, 用以接收服务授权初始配置信息;
判断单元, 用以对所述初始配置信息进行判断, 所述判断内容至少 包括所述初始配置信息是否满足预置条件; 以及 变量设置单元, 用以根据所述判断单元的判断结果设置内部变量的 值, 所述内部变量至少包括存储次授权变量, 如果判断单元的判断结果 为满足预置条件, 则所述存储次授权变量的值等于初始配置信息中指示 的值。
11.根据权利要求 10所述的用户设备, 其特征在于: 所述预置条件为 初始配置信息包括服务授权值和次授权选择,
如果判断单元的判断结果为满足所述预置条件, 则存储次授权变量 的值等于所述初始配置信息中服务授权值所指示的值。
12.根据权利要求 11所述的用户设备, 其特征在于, 所述判断单元的 判断内容还包括初始配置信息中是否包括次授权选择,
所述内部变量还包括主授权可用变量, 如果判断单元的判断结果为 包括次授权选择, 则所述主授权可用变量的值等于假。
13.根据权利要求 10所述的用户设备, 其特征在于, 所述预置条件为 初始配置信息包括存储次授权值,
如果判断单元的判断结果为满足所述预置条件, 则存储次授权变量 的值等于所述初始配置信息中存储次授权值所指示的值。
14.根据权利要求 10所述的用户设备, 其特征在于, 所述预置条件为 初始配置信息包括次服务授权值,
如杲判断单元的判断结果为满足所述预置条件, 则存储次授权变量 的值等于所述初始配置信息中次服务授权值所指示的值。
15.根据权利要求 14所述的用户设备, 其特征在于, 所述判断单元的 判断内容还包括初始配置信息中是否包括主服务授权值和次服务授权 值,
所述内部变量还包括服务授权变量, 如果判断单元的判断结果为只 包括次服务授权值而不包括主服务授权值, 则所述服务授权变量的值等 于初始配置信息中次服务授权值所指示的值。
16.才 据权利要求 14所述的用户设备, 其特征在于, 所述判断单元的 判断内容还包括初始配置信息中是否包括主服务授权值,
所述内部变量还包括服务授权变量, 如果判断单元的判断结果为包 括主服务授权值, 则所述服务授权变量的值等于初始配置信息中主服务 授权值所指示的值。
17.根据权利要求 10至 16中任意一项所述的用户设备,其特征在于, 如果所述判断单元的判断结果为不满足预置条件, 则所述存储次授权变 量的值为零。
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