WO2014008632A1

WO2014008632A1 - Inter-frequency measurement method, user equipment, and radio network controller

Info

Publication number: WO2014008632A1
Application number: PCT/CN2012/078432
Authority: WO
Inventors: 李秉肇; 高永强; 支玉亮; 杨旭东
Original assignee: 华为技术有限公司
Priority date: 2012-07-10
Filing date: 2012-07-10
Publication date: 2014-01-16
Also published as: CN104137593A; CN104137593B

Abstract

An inter-frequency measurement method, a user equipment (UE), and a radio network controller (RNC) in embodiments of the present invention can enable a carrier to be measured that is configured by an RNC to meet a measurement capability requirement of a UE. The method comprises: sending a discontinuous carrier combination capability supported by a UE to an RNC; receiving working carrier configuration information sent by the RNC; configuring a first working carrier of the UE according to the working carrier configuration information; receiving configuration information of a first carrier to be measured that is sent by the RNC; and determining, according to the first carrier to be measured, the first working carrier, and the discontinuous carrier combination capability, a capability of the UE for performing inter-frequency measurement in non-compression mode on the first carrier to be measured. According to the inter-frequency measurement method, the UE, and the RNC in the embodiments of the present invention, the RNC obtains information of a working carrier of the UE, so as to enable the RNC to configure a suitable carrier to be measured, thereby enabling the carrier to be measured that is configured by the RNC to meet the measurement capability requirement of the UE.

Description

异频测量的方法、用户设备和无线网络控制器技术领域 Method for measuring different frequency, user equipment and wireless network controller

本发明涉及通信领域，更具体地，涉及异频测量的方法、用户设备和无线网络控制器。背景技术 The present invention relates to the field of communications, and more particularly to a method of inter-frequency measurement, a user equipment, and a wireless network controller. Background technique

非连续载波组合能力是指用户设备 ( UE, User Equipment )在一个频带 ( band ) 内可以被配置成多个主、辅载波同时接收数据，且多个载波之间的频率可以不连续，但中间只能支持一个不连续区域（GAP )。 The non-contiguous carrier combination capability means that the user equipment (UE, User Equipment) can be configured to receive data simultaneously by multiple primary and secondary carriers in one frequency band, and the frequency between multiple carriers may be discontinuous, but in the middle Only one discontinuous area (GAP) can be supported.

无线网络控制器（ RNC, Radio Network Controller )是 3G网络的一个关键网元。它是接入网的组成部分，用于提供呼叫处理、链接管理和切换机制等功能。它可以是 GSM或 CDMA中的基站控制器，还可以是 LTE中的演进型基站（eNB或 e-NodeB , evolutional Node B )。 The Radio Network Controller (RNC) is a key network element of the 3G network. It is part of the access network and is used to provide functions such as call processing, link management, and handover mechanisms. It can be a base station controller in GSM or CDMA, or it can be an evolved base station (eNB or e-NodeB, evolutional Node B) in LTE.

UE 可能支持多种非连续载波组合。以通用移动通信*** （UMTS , The UE may support multiple non-contiguous carrier combinations. Universal Mobile Telecommunications System (UMTS,

Universal Mobile Telecommunications System ) 为例。 UMTS中一个载波带宽为 5M。下面是 UE基于单个 band的能力上报一些可能的情况： The Universal Mobile Telecommunications System is an example. A carrier bandwidth in UMTS is 5M. Here are some possible scenarios for the UE to report based on the capabilities of a single band:

非连续 1至<最大当前表格指出 UE支持 2载波、 3载波多载波非连续多或 4载波的非连续多载波高速下行链 Non-contiguous 1 to <maximum The current table indicates that the UE supports 2 carriers, 3 carriers, multi-carrier, non-contiguous multiple or 4-carrier non-contiguous multi-carrier high-speed downlink.

载波组合路分组接入 (High Speed Downlink Carrier Combination Road Packet Access (High Speed Downlink

> Packet Access , HSDPA)操作聚合载 nc-2c, 当前表格表示非连续多载波操作支波 nc-3c, 持的最大载波数。 > Packet Access, HSDPA) Operation Aggregate Load nc-2c, the current table indicates the number of carriers that the discontinuous multicarrier operation branch nc-3c holds.

nc-4c nc-2c表示 UE支持 2个载波。 Nc-4c nc-2c indicates that the UE supports 2 carriers.

nc-3c表示 UE支持 3个载波。 Nc-3c indicates that the UE supports 3 carriers.

nc-4c表示 UE支持 4个载波。 Nc-4c indicates that the UE supports 4 carriers.

非连续 5M, 当前表格指出聚合载波之间的非连载波间 10M, 续载波间隙的最大值。 5M表示 UE支隙大小 any 持 5MHz非连续载波间隙。 10M表示 Non-contiguous 5M, the current table indicates 10M between non-connected carriers between aggregated carriers, and the maximum value of the carrier gap. 5M indicates that the UE slot size any holds a 5 MHz non-contiguous carrier gap. 10M means

gap UE支持 10MHz非连续载波间隙。 any size) gap size表示 UE支持任意的 5MHz倍 The gap UE supports a 10MHz non-contiguous carrier gap. Any size) gap size indicates that the UE supports any 5MHz times

数大小的非连续载波间隙，该值必须是 5的倍数。非连续当前表格表示 UE支持 GAP两侧对等载波组连续载波。如果没有这个标志，表示合 (2, 2) 不支持接收机组合 (², 2) A number of non-contiguous carrier gaps, which must be a multiple of 5. The non-continuous current table indicates that the UE supports the GAP-side peer carrier group contiguous carriers. If there is no such flag, it means that the combination (2, 2) does not support the receiver combination ( ² , 2).

非连续当前表格指出 UE支持 GAP两侧非对多载波等连续载波。如果没有这个标志，表组合 (3, 示不支持接收机组合 (3, 1)(1 , 3) 1)(1， 3) Non-contiguous The current table indicates that the UE supports non-contiguous carriers such as multi-carriers on both sides of the GAP. If there is no such flag, the table combination (3, does not support the receiver combination (3, 1) (1, 3) 1) (1, 3)

在 UE可支持多种非连续载波组合的情况下， RNC配置的待测载波不一定符合 UE的能力要求，导致 UE无法根据 RNC配置的待测载波进行不启动压缩模式的测量。比如，如果对于同一载波配置， UE可以根据不同的接收机和载波对应关系来配置工作载波，则 RNC配置的待测载波不一定符合 UE 的测量能力要求。发明内容 In the case that the UE can support multiple combinations of non-contiguous carriers, the carrier to be tested configured by the RNC does not meet the capability requirements of the UE, and the UE cannot perform the measurement of the compressed mode according to the carrier to be tested configured by the RNC. For example, if the UE can configure the working carrier according to different receiver and carrier correspondences for the same carrier configuration, the carrier to be tested configured by the RNC does not necessarily meet the measurement capability requirements of the UE. Summary of the invention

本发明实施例一种异频测量方法、用户设备和无线网络控制器，能够使得 RNC配置的待测载波符合 UE的测量能力要求。 The embodiment of the present invention provides an inter-frequency measurement method, a user equipment, and a radio network controller, so that the carrier to be tested configured by the RNC can meet the measurement capability requirement of the UE.

第一方面，提供了一种异频测量的方法，该方法包括：向无线网络控制器 RNC发送 UE支持的非连续载波组合能力；接收 RNC发送的工作载波配置信息，其中，该工作载波配置信息指示 UE的待配置工作载波的信息；根据该工作载波配置信息配置 UE的第一工作载波；接收 RNC发送的第一待测载波配置信息，其中，该第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量；根据第一待测载波、第一工作载波和非连续载波组合能力，确定 UE对该第一待测载波执行非压缩模式异频测量的能力。 In a first aspect, a method for inter-frequency measurement is provided, where the method includes: transmitting a non-contiguous carrier combining capability supported by a UE to a radio network controller RNC; receiving working carrier configuration information sent by an RNC, where the working carrier configuration information And the first working carrier of the UE is configured to receive the first working carrier of the UE according to the working carrier configuration information; and the first to-be-tested carrier configuration information that is sent by the RNC is received, where the first to-be-tested carrier configuration information indicates the UE The carrier to be tested performs the uncompressed mode inter-frequency measurement according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability, and determines the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第一种可能的实现方式中，结合第一方面，该方法还包括：在根据第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力之后，当该 UE不具备对第一待测载波执行非压缩模式异频测量的能力时，向 RNC发送第一待测载波配置信息失败的信息，该第一待测载波配置信息失败的信息为 UE不具备对第一待测载波执行非压缩模式异频测量的能力的信息。 In a first possible implementation, in combination with the first aspect, the method further includes: determining, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, determining, by the UE, the first carrier to be tested After the capability of performing the uncompressed mode inter-frequency measurement is performed, when the UE does not have the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested, the information that the first to-be-tested carrier configuration information fails is sent to the RNC, where the first The information that the carrier configuration information to be tested fails is that the UE does not have the capability to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第二种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式，具体实现为:第一工作载波具体包括单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中该单载波工作模式时的工作载波或多载波工作模式时的主载波为该第一工作载波的第一服务小区。 In a second possible implementation manner, in combination with the first aspect or the first possible implementation manner of the first aspect, the first working carrier specifically includes a working carrier or a multi-carrier working mode in a single carrier working mode. Primary carrier and secondary carrier, where the working load of the single carrier operating mode The primary carrier in the wave or multi-carrier mode of operation is the first serving cell of the first working carrier.

在第三种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式或第一方面的第二种可能的实现方式，第一待测载波配置信息由 In a third possible implementation manner, in combination with the first aspect or the first possible implementation manner of the first aspect or the second possible implementation manner of the first aspect, the first carrier configuration information to be tested is determined by

RNC根据非连续载波组合能力和 RNC得到的第一工作载波的信息确定，具体实现为：根据该工作载波配置信息选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置该第一工作载波。 The RNC is determined according to the non-contiguous carrier combination capability and the information of the first working carrier obtained by the RNC, and is specifically implemented as: selecting, according to the working carrier configuration information, a working carrier with the largest or smallest number of carriers supported by the continuous carrier block where the first serving cell is located Configure the first working carrier in configuration mode.

在第四种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式至第一方面的第三种可能的实现方式，该方法还包括：在根据工作载波配置信息配置 UE的第一工作载波之后，向 RNC发送第一工作载波的信息，以便 RNC确定第一待测载波。 In a fourth possible implementation, combining the first aspect or the first possible implementation manner of the first aspect to the third possible implementation manner of the first aspect, the method further includes: configuring information according to the working carrier After the first working carrier of the UE is configured, the information of the first working carrier is sent to the RNC, so that the RNC determines the first carrier to be tested.

在第五种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式至第一方面的第四种可能的实现方式，具体实现为：第一工作载波的信息包括第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 In a fifth possible implementation, the first possible implementation manner of the first aspect or the first aspect to the fourth possible implementation manner of the first aspect is implemented as follows: The maximum number of carriers or maximum bandwidth information supported by consecutive carrier blocks in which the first serving cell of the first working carrier is located.

在第六种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式至第一方面的第五种可能的实现方式，具体实现为：非连续载波组合能力包括 UE支持的连续载波块的大小和 /或 UE支持的连续载波块之间的间隔区域的大小。 In a sixth possible implementation, the first possible implementation manner of the first aspect or the first aspect to the fifth possible implementation manner of the first aspect is implemented as follows: The size of the supported contiguous carrier blocks and/or the size of the spacing area between consecutive contiguous carrier blocks supported by the UE.

在第七种可能的实现方式中，结合第一方面或第一方面的第一种可能的实现方式至第一方面的第六种可能的实现方式，具体实现为：当第一待测载波、第一工作载波组成的组合符合 UE支持的非连续载波组合能力时，确定 UE具有对该第一待测载波执行非压缩模式异频测量的能力；或者当第一待测载波、第一工作载波组成的组合不符合 UE支持的非连续载波组合能力时，确定 UE不具有对该第一待测载波执行非压缩模式异频测量的能力。 In a seventh possible implementation, the first possible implementation manner of the first aspect or the first aspect to the sixth possible implementation manner of the first aspect is specifically implemented as: when the first carrier to be tested, When the combination of the first working carrier is consistent with the non-contiguous carrier combining capability supported by the UE, determining that the UE has the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested; or when the first carrier to be tested and the first working carrier When the combined combination does not meet the non-contiguous carrier combining capability supported by the UE, it is determined that the UE does not have the capability of performing uncompressed mode inter-frequency measurement on the first carrier to be tested.

第二方面，提供了一种异频测量的方法，该方法包括：接收 UE发送的 In a second aspect, a method for inter-frequency measurement is provided, the method comprising: receiving a

UE支持的非连续载波组合能力，并向 UE发送工作载波配置信息，该工作载波配置信息指示 UE配置第一工作载波的配置信息；根据 UE支持的非连续载波组合能力和 RNC得到的第一工作载波的信息向 UE发送第一待测载波配置信息，该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量。 The UE supports the non-contiguous carrier combination capability, and sends the working carrier configuration information to the UE, where the working carrier configuration information indicates that the UE configures the configuration information of the first working carrier; according to the non-contiguous carrier combination capability supported by the UE and the first work obtained by the RNC The information of the carrier sends the first to-be-tested carrier configuration information to the UE, where the first to-be-tested carrier information indicates that the UE performs the inter-frequency measurement of the first test carrier without starting the compression mode.

在第一种可能的实现方式中，结合第二方面，该方法还包括：在根据该 UE支持的非连续载波组合能力和 UE的第一工作载波的信息向 UE发送第一待测载波配置信息之后，接收 UE在不具备对该第一待测载波执行非压缩模式异频测量的能力时发送的第一待测载波配置信息失败的信息，第一待测载波配置信息失败的信息为 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 In a first possible implementation, in combination with the second aspect, the method further includes: After the UE supports the non-contiguous carrier combining capability and the information of the first working carrier of the UE to send the first to-be-tested carrier configuration information to the UE, the receiving UE does not have the capability of performing the uncompressed mode inter-frequency measurement on the first to-be-tested carrier. The information that the first to-be-tested carrier configuration information fails to be sent, and the information that the first to-be-tested carrier configuration information fails is that the UE does not support the information that performs the uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

在第二种可能的实现方式中，结合第二方面或第二方面的第一种可能的实现方式，具体实现为:第一工作载波具体包括单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中该单载波工作模式时的工作载波或多载波工作模式时的主载波为该第一工作载波的第一服务小区。 In a second possible implementation manner, in combination with the second aspect or the first possible implementation manner of the second aspect, the first working carrier specifically includes a working carrier or a multi-carrier working mode in a single carrier working mode. The primary carrier and the secondary carrier, wherein the primary carrier in the single carrier mode of operation or the primary carrier in the multicarrier mode of operation is the first serving cell of the first working carrier.

在第三种可能的实现方式中，结合第二方面或第二方面的第一种可能的实现方式或第二方面的第二种可能的实现方式，第一待测载波配置信息由 RNC根据非连续载波组合能力和 RNC得到的第一工作载波的信息确定， RNC得到的 UE的第一工作载波的信息是 RNC根据 RNC与 UE预先约定的工作载波选择方式和 UE的非连续载波组合能力确定的，具体实现为： RNC 与 UE预先约定的工作载波选择方式为 UE选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置第一工作载波。 In a third possible implementation manner, in combination with the second aspect or the first possible implementation manner of the second aspect, or the second possible implementation manner of the second aspect, the first carrier configuration information to be tested is determined by the RNC according to the non- The information of the first working carrier obtained by the RNC is determined by the RNC according to the working carrier selection mode pre-agreed by the RNC and the UE and the non-contiguous carrier combining capability of the UE. The specific implementation is as follows: The working carrier selection mode pre-agreed by the RNC and the UE is configured by the UE selecting the working carrier selection mode with the largest or smallest number of carriers supported by the continuous carrier block where the first serving cell is located, and configuring the first working carrier.

在第四种可能的实现方式中，结合第二方面或第二方面的第一种可能的实现方式至第二方面的第三种可能的实现方式，该方法还包括：在向该 UE 发送工作载波配置信息之后，接收 UE发送的第一工作载波的信息，以便 RNC 确定第一待测载波。 In a fourth possible implementation, combining the second aspect or the first possible implementation of the second aspect to the third possible implementation of the second aspect, the method further includes: sending a job to the UE After the carrier configuration information, the information of the first working carrier sent by the UE is received, so that the RNC determines the first carrier to be tested.

在第五种可能的实现方式中，结合第二方面或第二方面的第一种可能的实现方式至第二方面的第四种可能的实现方式，具体实现为：第一工作载波的信息包括第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 In a fifth possible implementation, the second possible implementation manner of the second aspect or the second aspect to the fourth possible implementation manner of the second aspect is implemented as follows: The maximum number of carriers or maximum bandwidth information supported by consecutive carrier blocks in which the first serving cell of the first working carrier is located.

在第六种可能的实现方式中，结合第二方面或第二方面的第一种可能的实现方式至第二方面的第五种可能的实现方式，具体实现为：非连续载波组合能力包括 UE支持的连续载波块的大小和 /或 UE支持的连续载波块之间的间隔区域的大小。 In a sixth possible implementation, the second possible implementation manner of the second aspect or the second aspect to the fifth possible implementation manner of the second aspect is implemented as follows: The size of the supported contiguous carrier blocks and/or the size of the spacing area between consecutive contiguous carrier blocks supported by the UE.

第三方面，提供了一种用户设备，该用户设备包括：发送单元，用于向无线网络控制器（ RNC )发送用户设备支持的非连续载波组合能力；接收单元，用于接收 RNC发送的工作载波配置信息，其中，该工作载波配置信息指示用户设备的待配置工作载波的信息；配置单元，用于根据工作载波配置信息配置用户设备的第一工作载波；接收单元还用于接收 RNC发送的第一待测载波配置信息，其中，该第一待测载波配置信息指示用户设备对第一待测载波执行非压缩模式异频测量；确定单元，用于根据第一待测载波、第一工作载波和非连续载波组合能力，确定用户设备对该第一待测载波执行非压缩模式异频测量的能力。 In a third aspect, a user equipment is provided, where the user equipment includes: a sending unit, configured to send a non-contiguous carrier combining capability supported by the user equipment to a radio network controller (RNC), and a receiving unit, configured to receive the work sent by the RNC Carrier configuration information, where the working carrier configuration information And a configuration unit, configured to configure a first working carrier of the user equipment according to the working carrier configuration information, where the receiving unit is further configured to receive, by the RNC, first configured carrier information to be tested, where The first to-be-tested carrier configuration information indicates that the user equipment performs the uncompressed mode inter-frequency measurement on the first to-be-tested carrier, and the determining unit is configured to determine the user equipment according to the first to-be-tested carrier, the first working carrier, and the non-contiguous carrier combination capability. The ability to perform an uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第一种可能的实现方式中，结合第三方面，发送单元还用于在根据第一待测载波、第一工作载波和用户设备支持的非连续载波组合能力，确定用户设备对第一待测载波执行非压缩模式异频测量的能力之后，当该用户设备不具备对第一待测载波执行非压缩模式异频测量的能力时，向 RNC发送第一待测载波配置信息失败的信息，该第一待测载波配置信息失败的信息为用户设备不具备对第一待测载波执行非压缩模式异频测量的能力的信息。 In a first possible implementation, in combination with the third aspect, the sending unit is further configured to determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the user equipment, After the capability of the carrier to perform the uncompressed mode inter-frequency measurement is performed, when the user equipment does not have the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested, the information about the failure of the first to-be-tested carrier configuration information is sent to the RNC, The information that the first to-be-tested carrier configuration information fails is information that the user equipment does not have the capability to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第二种可能的实现方式中，结合第三方面或第三方面的第一种可能的实现方式，配置单元具体实现为：根据工作载波配置信息选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置第一工作载波。 In a second possible implementation manner, in combination with the third aspect or the first possible implementation manner of the third aspect, the configuration unit is specifically implemented to: select, according to the working carrier configuration information, the continuous carrier block supported by the first serving cell The first working carrier is configured in a working carrier configuration mode in which the number of carriers is the largest or the smallest.

在第三种可能的实现方式中，结合第三方面或第三方面的第一种可能的实现方式或第三方面的第二种可能的实现方式，发送单元还用于在根据工作载波配置信息配置用户设备的第一工作载波之后，向 RNC发送第一工作载波的信息，以便 RNC确定第一待测载波。 In a third possible implementation, in combination with the third aspect or the first possible implementation manner of the third aspect or the second possible implementation manner of the third aspect, the sending unit is further configured to configure information according to the working carrier. After the first working carrier of the user equipment is configured, the information of the first working carrier is sent to the RNC, so that the RNC determines the first carrier to be tested.

第四方面，提供了一种无线网络控制器，该无线网络控制器包括：接收单元，用于接收 UE发送的该 UE支持的非连续载波组合能力；生成单元，用于生成工作载波配置信息，该工作载波配置信息指示 UE配置第一工作载波的配置信息；发送单元，用于向 UE发送工作载波配置信息；生成单元还用于根据 UE支持的非连续载波组合能力和无线网络控制器得到的第一工作载波的信息生成第一待测载波配置信息，该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量；发送单元还用于向 UE发送第一待测载波配置信息。 The fourth aspect provides a radio network controller, where the radio network controller includes: a receiving unit, configured to receive a non-contiguous carrier combining capability supported by the UE, and a generating unit, configured to generate working carrier configuration information, where The working carrier configuration information indicates that the UE configures the configuration information of the first working carrier, and the sending unit is configured to send the working carrier configuration information to the UE. The generating unit is further configured to use the non-contiguous carrier combining capability supported by the UE and the wireless network controller. The first working carrier information is used to generate the first to-be-tested carrier configuration information, where the first to-be-tested carrier information indicates that the UE performs the inter-frequency measurement on the first to-be-tested carrier in the non-initiated compression mode; the sending unit is further configured to send the first to the UE. Carrier configuration information to be tested.

在第一种可能的实现方式中，结合第四方面，接收单元还用于在根据 UE支持的非连续载波组合能力和 UE的第一工作载波的信息向 UE发送第一待测载波配置信息之后，接收 UE在不具备对第一待测载波执行非压缩模式异频测量的能力时发送的第一待测载波配置信息失败的信息，第一待测载波配置信息失败的信息为 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 In a first possible implementation, in combination with the fourth aspect, the receiving unit is further configured to: after transmitting the first to-be-tested carrier configuration information to the UE according to the non-contiguous carrier combining capability supported by the UE and the information of the first working carrier of the UE The receiving UE does not perform the uncompressed mode on the first carrier to be tested. The information that the first to-be-tested carrier configuration information fails when the capability of the inter-frequency measurement is failed, and the information that the first to-be-tested carrier configuration information fails is that the UE does not support the information that performs the uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

在第二种可能的实现方式中，结合第四方面或第四方面的第一种可能的实现方式，发送单元中无线网络控制器得到的第一工作载波的信息，是无线网络控制器根据无线网络控制器与 UE预先约定的工作载波选择方式和 UE 的非连续载波组合能力确定的。 In a second possible implementation manner, in combination with the fourth aspect or the first possible implementation manner of the fourth aspect, the information about the first working carrier obtained by the radio network controller in the sending unit is the radio network controller according to the wireless The network controller and the UE pre-agreed the working carrier selection mode and the UE's non-contiguous carrier combining capability.

在第三种可能的实现方式中，结合第四方面或第四方面的第一种可能的实现方式或第四方面的第二种可能的实现方式，接收单元还用于在向 UE发送工作载波配置信息之后，接收 UE发送的第一工作载波的信息，以便无线网络控制器确定所述第一待测载波。 In a third possible implementation, in combination with the fourth aspect or the first possible implementation manner of the fourth aspect, or the second possible implementation manner of the fourth aspect, the receiving unit is further configured to send the working carrier to the UE. After the configuration information, the information of the first working carrier sent by the UE is received, so that the radio network controller determines the first carrier to be tested.

第五方面，提供了一种用户设备，该用户设备包括：发送单元，用于向无线网络控制器（RNC )发送用户设备支持的非连续载波组合能力；接收单元，用于接收 RNC发送的工作载波配置信息，其中，该工作载波配置信息指示用户设备的待配置工作载波的信息；处理器，用于根据工作载波配置信息配置用户设备的第一工作载波；接收单元还用于接收 RNC发送的第一待测载波配置信息，其中，该第一待测载波配置信息指示用户设备对第一待测载波执行非压缩模式异频测量；处理器还用于根据第一待测载波、第一工作载波和非连续载波组合能力，确定用户设备对该第一待测载波执行非压缩模式异频测量的能力。 The fifth aspect provides a user equipment, where the user equipment includes: a sending unit, configured to send a non-contiguous carrier combining capability supported by the user equipment to a radio network controller (RNC); and a receiving unit, configured to receive the work sent by the RNC Carrier configuration information, where the working carrier configuration information indicates information of the working carrier to be configured of the user equipment; the processor is configured to configure the first working carrier of the user equipment according to the working carrier configuration information; and the receiving unit is further configured to receive the sending by the RNC The first to-be-tested carrier configuration information, wherein the first to-be-tested carrier configuration information indicates that the user equipment performs the uncompressed mode inter-frequency measurement on the first to-be-tested carrier; the processor is further configured to use the first to-be-tested carrier, the first work The carrier and non-contiguous carrier combining capability determines the ability of the user equipment to perform an uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第一种可能的实现方式中，结合第五方面，发送单元还用于在根据第一待测载波、第一工作载波和用户设备支持的非连续载波组合能力，确定用户设备对第一待测载波执行非压缩模式异频测量的能力之后，当该用户设备不具备对第一待测载波执行非压缩模式异频测量的能力时，向 RNC发送第一待测载波配置信息失败的信息，该第一待测载波配置信息失败的信息为用户设备不具备对第一待测载波执行非压缩模式异频测量的能力的信息。 In a first possible implementation, in combination with the fifth aspect, the sending unit is further configured to determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combination capability supported by the user equipment, After the capability of the carrier to perform the uncompressed mode inter-frequency measurement is performed, when the user equipment does not have the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested, the information about the failure of the first to-be-tested carrier configuration information is sent to the RNC, The information that the first to-be-tested carrier configuration information fails is information that the user equipment does not have the capability to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

在第二种可能的实现方式中，结合第五方面或第五方面的第一种可能的实现方式，处理器具体实现为：根据工作载波配置信息选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置第一工作载波。 In a second possible implementation manner, in combination with the fifth aspect or the first possible implementation manner of the fifth aspect, the processor is specifically implemented to: select, according to the working carrier configuration information, the continuous carrier block supported by the first serving cell The first working carrier is configured in a working carrier configuration mode in which the number of carriers is the largest or the smallest.

在第三种可能的实现方式中，结合第五方面或第五方面的第一种可能的实现方式或第五方面的第二种可能的实现方式，发送单元还用于在根据工作载波配置信息配置用户设备的第一工作载波之后，向 RNC发送第一工作载波的信息，以便 RNC确定第一待测载波。 In a third possible implementation, the first possible combination of the fifth aspect or the fifth aspect Or the second possible implementation manner of the fifth aspect, the sending unit is further configured to: after configuring the first working carrier of the user equipment according to the working carrier configuration information, send information of the first working carrier to the RNC, so that the RNC determines A carrier to be tested.

第六方面，提供了一种无线网络控制器，该无线网络控制器包括：接收单元，用于接收 UE发送的该 UE支持的非连续载波组合能力；处理器，用于生成工作载波配置信息，该工作载波配置信息指示 UE配置第一工作载波的配置信息；发送单元，用于向 UE发送工作载波配置信息；处理器还用于根据 UE支持的非连续载波组合能力和无线网络控制器得到的第一工作载波的信息生成第一待测载波配置信息，该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量；发送单元还用于向 UE发送第一待测载波配置信息。 The sixth aspect provides a radio network controller, where the radio network controller includes: a receiving unit, configured to receive a non-contiguous carrier combining capability supported by the UE, and a processor, configured to generate working carrier configuration information, where The working carrier configuration information indicates that the UE configures the configuration information of the first working carrier, and the sending unit is configured to send the working carrier configuration information to the UE. The processor is further configured to use the non-contiguous carrier combining capability supported by the UE and the wireless network controller. The first working carrier information is used to generate the first to-be-tested carrier configuration information, where the first to-be-tested carrier information indicates that the UE performs the inter-frequency measurement on the first to-be-tested carrier in the non-initiated compression mode; the sending unit is further configured to send the first to the UE. Carrier configuration information to be tested.

在第一种可能的实现方式中，结合第六方面，接收单元还用于在根据 UE支持的非连续载波组合能力和 UE的第一工作载波的信息向 UE发送第一待测载波配置信息之后，接收 UE在不具备对第一待测载波执行非压缩模式异频测量的能力时发送的第一待测载波配置信息失败的信息，第一待测载波配置信息失败的信息为 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 In a first possible implementation, in combination with the sixth aspect, the receiving unit is further configured to: after transmitting the first to-be-tested carrier configuration information to the UE according to the non-contiguous carrier combining capability supported by the UE and the information of the first working carrier of the UE And receiving, by the UE, information that the first to-be-tested carrier configuration information that is sent when the capability of performing the uncompressed mode inter-frequency measurement is not performed on the first to-be-tested carrier fails, and the information that the first to-be-tested carrier configuration information fails is that the UE does not support the pair. The first carrier to be tested performs information of the uncompressed mode inter-frequency measurement.

在第二种可能的实现方式中，结合第六方面或第六方面的第一种可能的实现方式，发送单元中无线网络控制器得到的第一工作载波的信息，是无线网络控制器根据无线网络控制器与 UE预先约定的工作载波选择方式和 UE 的非连续载波组合能力确定的。 In a second possible implementation manner, in combination with the sixth aspect or the first possible implementation manner of the sixth aspect, the information about the first working carrier obtained by the radio network controller in the sending unit is the wireless network controller according to the wireless The network controller and the UE pre-agreed the working carrier selection mode and the UE's non-contiguous carrier combining capability.

在第三种可能的实现方式中，结合第六方面或第六方面的第一种可能的实现方式或第六方面的第二种可能的实现方式，接收单元还用于在向 UE发送工作载波配置信息之后，接收 UE发送的第一工作载波的信息，以便无线网络控制器确定所述第一待测载波。 In a third possible implementation, in combination with the first possible implementation manner of the sixth aspect or the sixth aspect, or the second possible implementation manner of the sixth aspect, the receiving unit is further configured to send the working carrier to the UE. After the configuration information, the information of the first working carrier sent by the UE is received, so that the radio network controller determines the first carrier to be tested.

根据本发明实施例的异频测量方法、用户设备和无线网络控制器，通过让 RNC得到 UE的工作载波的信息，能够让 RNC配置合适的待测载波，从而能够使得 RNC配置的待测载波符合 UE的测量能力要求。附图说明 The inter-frequency measurement method, the user equipment, and the radio network controller according to the embodiment of the present invention can enable the RNC to configure an appropriate carrier to be tested by allowing the RNC to obtain the information of the working carrier of the UE, so that the carrier to be tested configured by the RNC can be matched. UE's measurement capability requirements. DRAWINGS

为了更清楚地说明本发明实施例的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作筒单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。 In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following embodiments or prior art will be BRIEF DESCRIPTION OF THE DRAWINGS The drawings, which are used in the description of the drawings, are described in detail in the drawings, and the drawings in the following description are only a few embodiments of the present invention, for those skilled in the art, without creative work. Other drawings may also be obtained from these drawings.

图 1是本发明实施例 UE侧的测量方法的流程示意图。 FIG. 1 is a schematic flow chart of a measurement method on a UE side according to an embodiment of the present invention.

图 2是本发明实施例 RNC侧的测量方法的流程示意图。 Fig. 2 is a flow chart showing the measurement method on the RNC side of the embodiment of the present invention.

图 3是本发明实施例 UE配置工作载波的示意图。 FIG. 3 is a schematic diagram of a UE configuring a working carrier according to an embodiment of the present invention.

图 4是本发明实施例 UE配置工作载波的又一示意图。 FIG. 4 is still another schematic diagram of a UE configuring a working carrier according to an embodiment of the present invention.

图 5是本发明实施例测量方法的交互流程示意图。 FIG. 5 is a schematic diagram of an interaction process of a measurement method according to an embodiment of the present invention.

图 6是本发明实施例另一异频测量方法的交互流程示意图。 FIG. 6 is a schematic diagram of an interaction process of another inter-frequency measurement method according to an embodiment of the present invention.

图 7是本发明实施例另一异频测量方法的交互流程示意图。 FIG. 7 is a schematic diagram of an interaction process of another inter-frequency measurement method according to an embodiment of the present invention.

图 8是本发明实施例的用户设备示意图。 FIG. 8 is a schematic diagram of a user equipment according to an embodiment of the present invention.

图 9是本发明实施例的无线网络控制器示意图。 9 is a schematic diagram of a radio network controller according to an embodiment of the present invention.

图 1 0是本发明实施例的又一用户设备示意图。 FIG. 10 is a schematic diagram of still another user equipment according to an embodiment of the present invention.

图 1 1是本发明实施例的又一无线网络控制器示意图。具体实施方式 FIG. 11 is a schematic diagram of still another wireless network controller according to an embodiment of the present invention. detailed description

下面将结合本发明实施例中的附图，对本发明实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without making creative labor are within the scope of the present invention.

本发明的技术方案，可以应用于各种通信***，例如：全球移动通讯系统（GSM , Global System of Mobile communication ), 码分多址（CDMA , Code Division Multiple Access ) ***，宽带码分多址（WCDMA, Wideband Code Division Multiple Access Wireless ),通用分组无线业务 ( GPRS , General Packet Radio Service ), 长期演进（LTE, Long Term Evolution )等。 The technical solution of the present invention can be applied to various communication systems, such as: Global System of Mobile Communication (GSM), Code Division Multiple Access (CDMA), Wideband Code Division Multiple Access ( WCDMA, Wideband Code Division Multiple Access Wireless), General Packet Radio Service (GPRS), Long Term Evolution (LTE), etc.

用户设备（ UE , User Equipment ) , 也可称之为移动终端（ Mobile Terminal ),移动用户设备等，可以经无线接入网（例如， RAN , Radio Access Network )与一个或多个核心网进行通信，用户设备可以是移动终端，如移动电话（或称为"蜂窝"电话）和具有移动终端的计算机，例如，可以是便携式、袖珍式、手持式、计算机内置的或者车载的移动装置，它们与无线接入网交换语言和 /或数据。基站，可以是 GSM或 CDMA中的基站（ BTS, Base Transceiver Station ), 也可以是 WCDMA中的基站（NodeB ) ,还可以是 LTE中的演进型基站（ eNB 或 e-NodeB, evolutional Node B ), 本发明并不限定，但为描述方便，下述实施例以 eNB为例进行说明。 A user equipment (UE, User Equipment), which may also be called a mobile terminal (Mobile Terminal), a mobile user equipment, etc., may communicate with one or more core networks via a radio access network (eg, RAN, Radio Access Network). The user equipment may be a mobile terminal, such as a mobile phone (or "cellular" phone) and a computer with a mobile terminal, for example, a mobile device that can be portable, pocket, handheld, computer built, or in-vehicle, The wireless access network exchanges languages and/or data. The base station may be a base station (BTS, Base Transceiver Station) in GSM or CDMA, or may be a base station (NodeB) in WCDMA, or may be an evolved base station (eNB or e-NodeB, evolutional Node B) in LTE. The present invention is not limited, but for convenience of description, the following embodiments are described by taking an eNB as an example.

无线网络控制器（RNC, Radio Network Controller ), 是新兴 3G网络的一个关键网元。它是接入网的组成部分，用于提供移动性管理、呼叫处理、链接管理和切换机制。它可以是 GSM或 CDMA中的基站控制器，还可以是 LTE中的演进型基站（ eNB或 e-NodeB, evolutional Node B ), 本发明并不限定，但为描述方便，下述实施例以 RNC进行说明。 The Radio Network Controller (RNC) is a key network element of the emerging 3G network. It is part of the access network and is used to provide mobility management, call processing, link management and handover mechanisms. It may be a base station controller in GSM or CDMA, or may be an evolved base station (eNB or e-NodeB, evolutional Node B) in LTE. The present invention is not limited, but for convenience of description, the following embodiment uses RNC. Be explained.

图 1是本发明一个实施例中异频测量方法的流程图，图 1的方法由 UE 执行。 1 is a flow chart of a method for measuring inter-frequency in an embodiment of the present invention, and the method of FIG. 1 is performed by a UE.

101 , 向 RNC发送 UE支持的非连续载波组合能力。接收 RNC发送的工作载波配置信息，其中，该工作载波配置信息指示 UE的待配置工作载波的信息。 ^据工作载波配置信息配置 UE的第一工作载波。 101. Send, to the RNC, a non-contiguous carrier combination capability supported by the UE. Receiving the working carrier configuration information sent by the RNC, where the working carrier configuration information indicates information of the working carrier to be configured of the UE. The first working carrier of the UE is configured according to the working carrier configuration information.

102, 接收 RNC发送的第一待测载波配置信息，其中，该第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 102. Receive, by the RNC, the first to-be-tested carrier configuration information, where the first to-be-tested carrier configuration information indicates that the UE performs an uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

103 , 根据第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力。 103. Determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

通过图 1所示的方法，可以让 RNC根据 UE的工作载波支持的测量能力生成待测载波配置信息，从而使得 UE接收的待测载波符合 UE的测量能力要求。 Through the method shown in FIG. 1, the RNC can generate the carrier configuration information to be tested according to the measurement capability supported by the working carrier of the UE, so that the carrier to be tested received by the UE meets the measurement capability requirement of the UE.

图 2是本发明又一个实施例中异频测量方法的流程图，图 2 的方法由 RNC执行。 2 is a flow chart of a method for measuring an inter-frequency according to still another embodiment of the present invention, and the method of FIG. 2 is performed by an RNC.

201 , 接收 UE发送的 UE支持的非连续载波组合能力。向 UE发送工作载波配置信息，该工作载波配置信息指示 UE配置第一工作载波的配置信息。 201. Receive a non-contiguous carrier combination capability supported by the UE sent by the UE. The working carrier configuration information is sent to the UE, where the working carrier configuration information indicates that the UE configures configuration information of the first working carrier.

202, 根据 UE支持的非连续载波组合能力和 RNC得到的第一工作载波的信息向 UE发送第一待测载波配置信息，该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量。 202. Send the first to-be-tested carrier configuration information to the UE according to the non-contiguous carrier combination capability supported by the UE and the information of the first working carrier obtained by the RNC, where the first to-be-tested carrier information indicates that the UE does not start the first to-be-tested carrier. Inter-frequency measurement of compressed mode.

通过图 2所示的方法，可以让 RNC根据 UE的工作载波支持的测量能力生成待测载波配置信息，从而使得 RNC配置的待测载波符合 UE的测量能力要求。可选的，本发明实施例中， UE支持的非连续载波能力可以包括 UE支持的连续载波块的大小和 /或 UE支持的连续载波块之间的间隔区域的大小。 Through the method shown in FIG. 2, the RNC can generate the carrier configuration information to be tested according to the measurement capability supported by the working carrier of the UE, so that the carrier to be tested configured by the RNC meets the measurement capability requirement of the UE. Optionally, in the embodiment of the present invention, the non-contiguous carrier capability supported by the UE may include a size of a continuous carrier block supported by the UE and/or a size of an interval region between consecutive carrier blocks supported by the UE.

可选的，本发明实施例中， UE的工作载波可以包括单载波工作模式时的工作载波或者多载波工作模式时的主载波和辅载波。 UE在单载波工作模式时的工作载波或者多载波工作模式时的主载波可以称为 UE的工作载波的第一服务小区。本发明实施例中提到的第一服务小区，即指单载波工作模式时的工作载波或者多载波工作模式时的主载波。 Optionally, in the embodiment of the present invention, the working carrier of the UE may include a working carrier in a single carrier working mode or a primary carrier and a secondary carrier in a multi-carrier working mode. The active carrier of the UE in the single carrier mode of operation or the primary carrier in the multicarrier mode of operation may be referred to as the first serving cell of the UE's working carrier. The first serving cell mentioned in the embodiment of the present invention refers to a working carrier in a single carrier working mode or a primary carrier in a multi-carrier working mode.

本发明实施例中，由于 UE可能支持不同的非连续载波能力，且在支持同一种非连续载波能力的 UE中，针对 RNC的一种工作载波配置， UE可能存在不同的工作载波配置方式。下面以一种支持 10M+any gap size+5M的非连续载波组合能力且被 RNC配置一个单工作载波工作的 UE为例，对本发明实施例中的方法、用户设备和无线网络控制器进行说明，但本发明实施例的应用范围不限于 10M+any gap size+5M的 UE,也不限于该 UE下的具体配置场景，而是可以推广到各种支持非连续载波能力的 UE和各种单载波工作模式或者多载波工作模式的配置场景。 In the embodiment of the present invention, the UE may support different non-contiguous carrier capabilities, and in a UE supporting the same non-contiguous carrier capability, the UE may have different working carrier configurations for a working carrier configuration of the RNC. The following describes a method, a user equipment, and a radio network controller in the embodiment of the present invention by using a UE that supports a non-contiguous carrier combining capability of 10M+any gap size+5M and configured by the RNC to configure a single working carrier. However, the application scope of the embodiment of the present invention is not limited to a 10M+any gap size+5M UE, and is not limited to a specific configuration scenario under the UE, but may be extended to various UEs supporting non-contiguous carrier capabilities and various single carriers. Configuration mode of working mode or multi-carrier working mode.

UE支持 10M+any gap size+5M的非连续载波组合能力，隐含表示 UE 采用双接收机，至少一个 10MHz, —个 5MHz来支持该频带内非连续载波接收。可以对这两个接收机命名为 10M接收机和 5M接收机，同时命名 5M 接收机上接收的载波为 FO, 10M接收机上接收的载波为 F1和 F2。假设 RNC 配置一个单载波给该 UE, 由于一个单载波信号只有 5M, 该 UE的 5M接收机和 10M接收机都能够满足这个工作载波配置要求。如果该 UE配置 10M 接收机接收该单载波，则 UE配置工作载波的情况如图 3所示，可以命名此配置场景为第一配置场景。如果该 UE配置 5M接收机接收该单载波，则 UE 配置工作载波的情况如图 4所示，可以命名此配置场景为第二配置场景。 The UE supports 10M+any gap size+5M non-contiguous carrier combining capability, implicitly indicating that the UE uses dual receivers, at least one 10MHz, and one 5MHz to support non-contiguous carrier reception in the frequency band. The two receivers can be named 10M receivers and 5M receivers, while the carrier received on the 5M receiver is FO, and the carriers received on the 10M receiver are F1 and F2. Assuming that the RNC configures a single carrier for the UE, since a single carrier signal is only 5M, both the 5M receiver and the 10M receiver of the UE can satisfy the configuration of the working carrier. If the UE configures the 10M receiver to receive the single carrier, the UE configures the working carrier as shown in FIG. 3, and the configuration scenario can be named as the first configuration scenario. If the UE configures the 5M receiver to receive the single carrier, the UE configures the working carrier as shown in FIG. 4, and the configuration scenario can be named as the second configuration scenario.

图 5是本发明又一实施例的异频测量过程的示意流程图。 FIG. 5 is a schematic flow chart of an inter-frequency measurement process according to still another embodiment of the present invention.

510, UE向 RNC发送 UE支持的非连续载波组合能力。 510. The UE sends the UE-supported non-contiguous carrier combining capability to the RNC.

假设 UE支持 10M+any gap size+5M的非连续载波组合能力，则 UE向 RNC发送的其支持的非连续载波组合能力可以包括：两个连续载波块的带宽（5MHz和 10MHz )和两个连续载波块之间可以配置的 gap的最大带宽，其中 gap的最大带宽可以是任意的以 5MHz为倍数的带宽。 Assuming that the UE supports 10M+any gap size+5M non-contiguous carrier combining capability, the supported non-contiguous carrier combining capability that the UE sends to the RNC may include: bandwidth of two consecutive carrier blocks (5MHz and 10MHz) and two consecutive The maximum bandwidth of the gap that can be configured between the carrier blocks, where the maximum bandwidth of the gap can be any bandwidth that is multiple of 5 MHz.

520, RNC向 UE发送工作载波配置信息，该工作载波配置信息指示 UE 的待配置工作载波的信息。 520. The RNC sends working carrier configuration information to the UE, where the working carrier configuration information indicates the UE. Information about the working carrier to be configured.

可选的， RNC向 UE发送的工作载波配置信息，可以是根据 UE的非连续载波能力配置的，也可以是与 UE 的非连续载波能力无关的。假设 RNC 向 UE发送一个单载波信息，则不必根据 UE的能力配置。向 UE发送这个单载波信息时，由于一个载波固定大小是 5MHz, RNC也可以只向 UE发送一个中心频点，该频点上下各扩展 2.5MHz就是 RNC发送的单载波的频域范围。 RNC如果向 UE发送多载波信息（即包含主载波和辅载波）时，则还可能需要 ^据 UE的非连续载波能力确定工作载波配置信息。 Optionally, the working carrier configuration information that is sent by the RNC to the UE may be configured according to the non-contiguous carrier capability of the UE, or may be independent of the non-contiguous carrier capability of the UE. Assuming that the RNC sends a single carrier information to the UE, it does not have to be configured according to the capabilities of the UE. When the single carrier information is sent to the UE, the RNC can also send only one center frequency point to the UE because the fixed size of one carrier is 5 MHz. The frequency range of the single carrier that is transmitted by the RNC is the frequency range of the single carrier. If the RNC transmits multi-carrier information (i.e., includes a primary carrier and a secondary carrier) to the UE, it may also be necessary to determine the working carrier configuration information according to the non-contiguous carrier capability of the UE.

可选的， RNC可通过无线资源控制（ RRC, Radio Resource Control )信令向 UE发送工作载波配置信息。例如， RRC信令类型可以包括 RRC连接建立消息，无线承载 (RB, Radio bearer)建立消息， RB重配置消息等。 Optionally, the RNC may send the working carrier configuration information to the UE by using a radio resource control (RRC) message. For example, the RRC signaling type may include an RRC connection setup message, a radio bearer (RB) setup message, an RB reconfiguration message, and the like.

530, UE接收到 RNC发送的工作载波配置信息后，根据工作载波配置信息配置 UE的第一工作载波。 530. After receiving the working carrier configuration information sent by the RNC, the UE configures the first working carrier of the UE according to the working carrier configuration information.

可选的， UE的第一工作载波包括单载波工作模式时的工作载波或者多载波工作模式时的主载波和辅载波，其中 UE在单载波工作模式时的工作载波或者多载波工作模式时的主载波可以称为 UE第一工作载波的第一服务小区。 Optionally, the first working carrier of the UE includes a working carrier in a single carrier working mode or a primary carrier and a secondary carrier in a multi-carrier working mode, where the UE is in a working carrier or a multi-carrier working mode in a single carrier working mode. The primary carrier may be referred to as the first serving cell of the first working carrier of the UE.

可选的， UE可以按照与 RNC预先约定的工作载波配置原则，根据工作载波配置信息配置 UE的第一工作载波。例如，该预先约定的工作载波配置原则可以是 "保证第一工作载波的第一服务小区所在的连续载波块支持的载波个数最大（或者最小） "，换句话说， "保证第一工作载波的第一服务小区所在的连续载波块支持的载波带宽最大（或者最小；)"。假设 UE支持 10M+any gap size+5M的非连续载波能力且 UE配置在单载波工作，则根据 "第一工作载波的第一服务小区所在的连续载波块支持的载波个数最大" 的原则， UE 应该选择将这个单载波配置到 10M接收机上，即图 3所示的第一配置场景。同理，也可以根据 "第一工作载波的第一服务小区所在的连续载波块支持的载波个数最小" 的原则配置， UE可以选择将这个单载波配置到 5M接收机上，即图 4所示的第二配置场景。 Optionally, the UE may configure the first working carrier of the UE according to the working carrier configuration information according to the working carrier configuration principle pre-agreed with the RNC. For example, the pre-agreed working carrier configuration principle may be: "guarantee the maximum (or minimum) number of carriers supported by consecutive carrier blocks in which the first serving cell of the first working carrier is located", in other words, "guarantee the first working carrier. The contiguous carrier block in which the first serving cell is located supports the largest (or minimum;) carrier bandwidth. Assuming that the UE supports 10M+any gap size+5M non-contiguous carrier capability and the UE is configured to operate on a single carrier, according to the principle that “the number of carriers supported by consecutive carrier blocks where the first serving cell of the first working carrier is located is the largest”, The UE should choose to configure this single carrier to the 10M receiver, that is, the first configuration scenario shown in FIG. For the same reason, the UE may select to configure the single carrier to the 5M receiver according to the principle that the number of carriers supported by the continuous carrier block where the first serving cell of the first working carrier is the smallest, that is, as shown in FIG. The second configuration scenario.

540, RNC向 UE发送第一待测载波配置信息。该第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 540. The RNC sends the first to-be-tested carrier configuration information to the UE. The first to-be-tested carrier configuration information indicates that the UE performs an uncompressed mode inter-frequency measurement on the first carrier to be tested.

可选的， RNC可以根据 UE的非连续载波能力以及通过 RNC与 UE预先约定的工作载波配置原则确定的第一工作载波的信息，决定第一待测载波配置信息。 Optionally, the RNC may be based on the non-contiguous carrier capability of the UE and pre-received by the RNC and the UE. The information of the first working carrier determined by the first agreed working carrier configuration principle determines the first carrier configuration information to be tested.

可选的，该第一工作载波的信息可以包括第一服务小区所在载波块最大可接收的载波个数。 RNC根据与 UE预先约定的工作载波配置原则即 "第一工作载波的第一服务小区所在的连续载波块支持的载波个数最大（或者最小）" 的原则， RNC可以判断出 UE第一工作载波的第一服务小区所在的连续载波块的最大可接收载波数（或最大带宽信息）的能力，进而可以判断出 UE可以不启动压缩测量模式测量的辅载波的范围。 RNC可以从这些载波中挑选出至少一个，作为待测载波配置给 UE。 Optionally, the information of the first working carrier may include a maximum number of carriers that can be received by the carrier block where the first serving cell is located. The RNC can determine the first working carrier of the UE according to the principle of the working carrier configuration agreed in advance with the UE, that is, the principle that the number of carriers supported by the continuous carrier block where the first serving cell of the first working carrier is supported is the largest (or minimum). The capability of the maximum number of receivable carriers (or the maximum bandwidth information) of the contiguous carrier block in which the first serving cell is located may further determine the range of the secondary carrier that the UE may not initiate the measurement in the compressed measurement mode. The RNC may select at least one of the carriers to be configured as a carrier to be tested to the UE.

假设 UE支持 10M+any gap size+5M的非连续载波能力且 RNC配置 UE 在单载波工作，则 RNC根据 "第一工作载波的第一服务小区所在的连续载波块支持的载波个数最大" 的原则，可以判断 UE当前的工作载波配置场景为图 3所示的第一配置场景，进一步可以判断出 UE第一工作载波的第一服务小区所在载波块最大可接收的载波个数为 2, 而 UE支持 2 (个连续载波带宽） +any gap size +l (个连续载波带宽），则 UE可以测量的载波有两个，其中一个是和第一服务小区相邻的载波 F2(因为 UE当前工作在单载波模式，但第一服务小区所在载波块支持 2个载波同时接收，所以还余一个和第一服务小区相邻的载波），另外一个是该频带内的任意一个和第一工作载波的第一服务小区以及与第一工作载波的第一服务小区的相邻载波不同的另外一个载波 F0。 Assuming that the UE supports 10M+any gap size+5M non-contiguous carrier capability and the RNC configures the UE to work on a single carrier, the RNC according to the “the number of carriers supported by the continuous carrier block where the first serving cell of the first working carrier is located is the largest” The principle that the current working carrier configuration scenario of the UE is the first configuration scenario shown in FIG. 3, and further, the maximum number of carriers that can be received by the first serving cell of the first working carrier of the UE is 2, and The UE supports 2 (one continuous carrier bandwidth) + any gap size + l (one continuous carrier bandwidth), then the UE can measure two carriers, one of which is the carrier F2 adjacent to the first serving cell (because the UE is currently working) In the single carrier mode, but the carrier block where the first serving cell is located supports two carriers simultaneously, so there is one carrier adjacent to the first serving cell, and the other one is any one of the frequency bands and the first working carrier. The first serving cell and another carrier F0 different from the adjacent carrier of the first serving cell of the first working carrier.

550, UE根据 RNC发送的第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力。 550. The UE determines, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

例如，当第一待测载波、第一工作载波组成的组合符合 UE支持的非连续载波组合能力时，确定 UE具有对第一待测载波执行非压缩模式异频测量的能力。或者，当第一待测载波、第一工作载波组成的组合不符合 UE支持的非连续载波组合能力时，确定 UE不具有对所述第一待测载波执行非压缩模式异频测量的能力。 For example, when the combination of the first carrier to be tested and the first working carrier conforms to the non-contiguous carrier combining capability supported by the UE, it is determined that the UE has the capability of performing uncompressed mode inter-frequency measurement on the first carrier to be tested. Or, when the combination of the first carrier to be tested and the first working carrier does not meet the non-contiguous carrier combining capability supported by the UE, determining that the UE does not have the capability of performing uncompressed mode inter-frequency measurement on the first carrier to be tested.

可选的，本发明实施例中， UE接收到 RNC发送的第一待测载波信息，结合 UE的工作载波信息（即单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波）和 UE支持的非连续载波能力，可以判断 UE是否具备对第一待测载波执行非压缩模式异频测量的能力。如果具备该能力，则进行测量。以 10M+any gap size+5M的 UE中如图 3所示的第一配置场景为例，当 UE接收到 RNC指示的待测载波为 F2和 F3时，则 UE根据待测载波 F2和 F3、工作载波 F1以及 UE支持的非连续载波组合能力 10M+any gap size+5M, 可以判断出 UE能够对待测载波 F2和 F0进行不启动压缩模式的测量。本实施例中，通过图 5所示的方法， RNC通过与 UE预先约定的工作载波配置原则得到 UE的工作载波支持的测量能力，并根据 UE的工作载波的支持的测量能力生成待测载波配置信息，从而使得 UE接收的待测载波符合 UE的测量能力要求。 Optionally, in the embodiment of the present invention, the UE receives the first carrier information to be tested sent by the RNC, and combines the working carrier information of the UE (that is, the primary carrier and the secondary carrier in the working carrier or the multi-carrier working mode in the single carrier working mode) Carrier) and the non-contiguous carrier capability supported by the UE, can determine whether the UE is The ability to perform an uncompressed mode inter-frequency measurement on the first carrier to be tested. If this capability is available, measurements are taken. For example, the first configuration scenario shown in FIG. 3 is used in the UE of 10M+any gap size+5M. When the UE receives the carrier to be tested indicated by the RNC as F2 and F3, the UE is based on the tested carriers F2 and F3. The working carrier F1 and the non-contiguous carrier combining capability supported by the UE are 10M+any gap size+5M, and it can be determined that the UE can perform the measurement of the non-initialized compressed mode for the carriers F2 and F0 to be tested. In this embodiment, the RNC obtains the measurement capability supported by the working carrier of the UE by using the working carrier configuration principle agreed in advance with the UE, and generates the carrier configuration to be tested according to the supported measurement capability of the working carrier of the UE. The information is such that the carrier to be tested received by the UE meets the measurement capability requirement of the UE.

图 6是本发明又一实施例的异频测量过程的示意流程图。 6 is a schematic flow chart of an inter-frequency measurement process according to still another embodiment of the present invention.

610, UE向 RNC发送 UE支持的非连续载波组合能力。 610. The UE sends the UE-supported non-contiguous carrier combining capability to the RNC.

620, RNC向 UE发送工作载波配置信息，该工作载波配置信息指示 UE 的待配置工作载波的信息。 620. The RNC sends working carrier configuration information to the UE, where the working carrier configuration information indicates information about a working carrier to be configured by the UE.

步骤 610和 620的执行方式可类似于图 5的步骤 510和 520, 在此不再赘述。 The manner of execution of steps 610 and 620 can be similar to steps 510 and 520 of FIG. 5, and details are not described herein again.

630, UE接收到 RNC发送的工作载波配置信息后，根据工作载波配置信息配置 UE的第一工作载波。 630. After receiving the working carrier configuration information sent by the RNC, the UE configures the first working carrier of the UE according to the working carrier configuration information.

例如， UE可根据接收的工作载波配置信息进行第一工作载波的配置。如果第一工作载波的第一服务小区可以配置在不同的连续载波块时，则 UE 从中选择一个进行配置。假设 UE支持 10M+any gap size+5M的非连续载波能力且 RNC配置 UE在单载波工作，则 UE可以选择 10M接收机执行单载波接收，即图 3所示的第一配置场景；也可以采用 5M接收机执行单载波接收，即所述图 4所示的第二配置场景。 For example, the UE may perform configuration of the first working carrier according to the received working carrier configuration information. If the first serving cell of the first working carrier can be configured in different consecutive carrier blocks, the UE selects one of them to perform configuration. Assuming that the UE supports 10M+any gap size+5M non-contiguous carrier capability and the RNC configures the UE to work on a single carrier, the UE may select a 10M receiver to perform single carrier reception, that is, the first configuration scenario shown in FIG. 3; The 5M receiver performs single carrier reception, that is, the second configuration scenario shown in FIG.

640, UE向 RNC发送 UE的第一工作载波的信息。 640. The UE sends information about the first working carrier of the UE to the RNC.

在本实施例中， UE向 RNC发送的第一工作载波的信息可以包括：第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。假设 UE支持 10M+any gap size+5M的非连续载波能力且 RNC配置 UE在单载波工作，且配置为图 4所示的第二配置场景即 UE选择 5M的接收机去执行单载波的信号接收，则 UE可以把这个载波支持的最大载波个数 ( 1个）或最大带宽信息（5MHz )发送给 RNC。 In this embodiment, the information about the first working carrier that is sent by the UE to the RNC may include: a maximum number of carriers or a maximum bandwidth information supported by consecutive carrier blocks where the first serving cell of the first working carrier is located. It is assumed that the UE supports 10M+any gap size+5M non-contiguous carrier capability and the RNC configures the UE to work on a single carrier, and is configured as the second configuration scenario shown in FIG. 4, that is, the UE selects a 5M receiver to perform single-carrier signal reception. The UE may send the maximum number of carriers (1) or the maximum bandwidth information (5 MHz) supported by the carrier to the RNC.

650, RNC向 UE发送第一待测载波配置信息，其中，第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 650. The RNC sends the first to-be-tested carrier configuration information to the UE, where the first to-be-tested carrier is configured. The set information indicates that the UE performs uncompressed mode inter-frequency measurement on the first carrier to be tested.

本发明实施例中， RNC根据 UE的非连续载波组合能力和 UE发送的第一工作载波的信息，可以判断出 UE可以不启动压缩模式测量的辅载波的范围。 UE发送的第一工作载波的信息可以包括第一工作载波的第一服务小区所在的连续载波块的最大可接收的载波数 (或最大带宽信息 )的能力。 RNC 从 UE可以不启动压缩模式测量的辅载波的范围中挑选出一个或者两个配置给 UE进行测量。假设 UE支持 10M+any gap size+5M的非连续载波能力且 RNC配置 UE在单载波工作，且 RNC获知 UE的第一工作载波的第一服务小区所在的连续载波块的最大可接收的载波数为 1 , 而 UE支持 2 (个连续载波带宽 ) +any gap size +1 (个连续载波带宽 ), 则 UE可以测量的载波，有两个，是该频带内任意两个连续的载波 F1和 F2 , RNC可以以此配置 UE的待测载波。 In the embodiment of the present invention, the RNC may determine, according to the non-contiguous carrier combining capability of the UE and the information of the first working carrier sent by the UE, the range of the secondary carrier that the UE may not initiate the compressed mode measurement. The information of the first working carrier transmitted by the UE may include the capability of the maximum number of receivable carriers (or maximum bandwidth information) of consecutive carrier blocks in which the first serving cell of the first working carrier is located. The RNC selects one or two configurations from the range of secondary carriers in which the UE may not initiate compression mode measurement for measurement by the UE. It is assumed that the UE supports 10M+any gap size+5M non-contiguous carrier capability and the RNC configures the UE to work on a single carrier, and the RNC learns the maximum number of receivable carriers of the continuous carrier block where the first serving cell of the first working carrier of the UE is located. If the UE supports 2 (continuous carrier bandwidth) + any gap size +1 (one continuous carrier bandwidth), then the UE can measure two carriers, which are any two consecutive carriers F1 and F2 in the frequency band. The RNC can configure the UE to be tested carrier.

660, UE根据 RNC发送的第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力。 660. The UE determines, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combination capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

步骤 660的执行方式可类似于图 5的步骤 550, 在此不再赘述。 The execution manner of step 660 can be similar to step 550 of FIG. 5, and details are not described herein again.

可选的， RNC和 UE通过 UE在配置完第一工作载波后向 RNC发送第一工作载波的消息，使得 RNC可以清楚的获知 UE可以不启动压缩模式测量的辅载波的范围，从而能够准确的根据 UE的测量能力配置载波。 Optionally, the RNC and the UE send the message of the first working carrier to the RNC after the first working carrier is configured, so that the RNC can clearly know the range of the secondary carrier that the UE can not start the compressed mode measurement, so that the RNC and the UE can accurately The carrier is configured according to the measurement capability of the UE.

本实施例中， RNC根据 UE的非连续载波组合能力和 UE发送的第一工作载波的信息，可以判断出 UE工作载波支持的测量能力，并根据 UE的工作载波的测量能力生成待测载波配置信息，从而使得 UE接收的待测载波符合 UE的测量能力要求。 In this embodiment, the RNC can determine the measurement capability supported by the UE working carrier according to the non-contiguous carrier combination capability of the UE and the information of the first working carrier sent by the UE, and generate a carrier configuration to be tested according to the measurement capability of the working carrier of the UE. The information is such that the carrier to be tested received by the UE meets the measurement capability requirement of the UE.

图 7是本发明又一实施例的异频测量过程的示意流程图。 7 is a schematic flow chart of an inter-frequency measurement process according to still another embodiment of the present invention.

710, UE向 RNC发送 UE支持的非连续载波组合能力。 710. The UE sends a UE-supported non-contiguous carrier combining capability to the RNC.

720, RNC向 UE发送工作载波配置信息，该工作载波配置信息指示 UE 的待配置工作载波的信息。 720. The RNC sends, to the UE, working carrier configuration information, where the working carrier configuration information indicates information about a working carrier to be configured by the UE.

730, UE接收到 RNC发送的工作载波配置信息后，根据工作载波配置信息配置 UE的第一工作载波。 730. After receiving the working carrier configuration information sent by the RNC, the UE configures the first working carrier of the UE according to the working carrier configuration information.

步骤 710-730的执行方式可类似于图 6的步骤 610、 620和 630, 在此不再赘述。 740, RNC向 UE发送第一待测载波配置信息，其中，第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 The manner of execution of steps 710-730 may be similar to steps 610, 620, and 630 of FIG. 6, and details are not described herein again. 740. The RNC sends the first to-be-tested carrier configuration information to the UE, where the first to-be-tested carrier configuration information indicates that the UE performs the uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

可选的，本实施例中， RNC根据 UE 的非连续载波组合能力和发送给 UE的工作载波配置信息，可以判断出 UE第一工作载波可能的第一服务小区所在的连续载波块的最大可接收的载波数的能力，进而可以判断出可能的 UE可以不启动压缩模式测量的辅载波的范围。 RNC从这些能的 UE可以不启动压缩模式测量的辅载波的范围中挑选出一个或者两个配置给 UE进行测量。假设 UE支持 10M+any gap size+5M的非连续载波能力且 RNC配置 UE 在单载波工作，则 RNC可以判断出 UE可能的配置场景如图 3所示的第一配置场景和图 4所示的第二配置场景，进而可以判断 UE第一工作载波的第一服务小区所在的连续载波块的最大可接收的载波数为 1或者 2。则在图 3 所示的第一配置场景中， UE 可以测量的载波，有两个，一个是和第一服务小区相邻的载波，另外一个是该 band 内的任意一个和第一服务小区以及与第一服务小区相邻载波不同的另外一个载波;在图 4所示的第二配置场景中， UE可以测量的载波，有两个，是该 band内任意两个连续的载波 RNC从这两种可能的情况中选择一种配置待测载波信息发给 UE进行测量。 Optionally, in this embodiment, the RNC may determine, according to the non-contiguous carrier combination capability of the UE and the working carrier configuration information that is sent to the UE, that the maximum carrier block of the first serving cell where the first working carrier of the UE is located may be determined. The ability to receive the number of carriers, which in turn can determine the range of secondary carriers that the UE may not initiate compressed mode measurements. The RNC picks one or two configurations from the range of secondary carriers that these capable UEs may not initiate compressed mode measurements for the UE to measure. Assuming that the UE supports the non-contiguous carrier capability of 10M+any gap size+5M and the RNC configures the UE to work on a single carrier, the RNC can determine the possible configuration scenario of the UE as shown in the first configuration scenario shown in FIG. 3 and FIG. The second configuration scenario may further determine that the maximum number of receivable carriers of the continuous carrier block where the first serving cell of the first working carrier of the UE is located is 1 or 2. In the first configuration scenario shown in FIG. 3, the UE can measure two carriers, one is a carrier adjacent to the first serving cell, and the other is any one of the band and the first serving cell. Another carrier that is different from the carrier of the first serving cell; in the second configuration scenario shown in FIG. 4, there are two carriers that the UE can measure, which are any two consecutive carriers RNC in the band. In a possible case, one type of configuration carrier information is selected and sent to the UE for measurement.

750, UE根据 RNC发送的第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力。 750. The UE determines, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

步骤 750的执行方式可类似于图 5的步骤 550, 在此不再赘述。 The execution manner of step 750 can be similar to step 550 of FIG. 5, and details are not described herein again.

可选的， UE根据步骤 550判断出不能对第一待测载波进行不启动压缩模式的测量之后，确认 RNC发送的第一待测载波配置信息配置失败。转入 760。或者判断进行切换接收机后能否对对第一待测载波进行不启动压缩模式的测量，如果可以则进行接收机切换。比如。比如上述例子， UE初始被配置到单载波工作，且 UE选择利用 10M接收机进行单载波配置，则 UE可以测量的载波为单载波服务小区 F1的左右邻频或者是该 Band内任意其他一个载波。如果此时网络测量控制配置了测量两频率为 F2, F3, 且 F2, F3相邻但都不是 F1的左右邻频，则此时 UE判断需要切换接后才能进行该测量，则将当前单载波重配置到 5M带宽接收机上，同时利用 10M带宽接收机去测量这两个载波。 Optionally, after determining, according to step 550, that the UE does not perform the measurement of the non-initiated compression mode on the first to-be-tested carrier, the UE determines that the configuration of the first to-be-tested carrier configuration information sent by the RNC fails. Transfer to 760. Or, it is judged whether the measurement of the non-starting compression mode for the first carrier to be tested can be performed after the handover of the receiver, and if so, the receiver can be switched. such as. For example, in the above example, the UE is initially configured to work on a single carrier, and the UE selects a single carrier configuration by using the 10M receiver, and the UE can measure the left and right adjacent frequencies of the single carrier serving cell F1 or any other carrier in the Band. . If the network measurement control is configured to measure the two frequencies as F2, F3, and F2, and F3 are adjacent but not the left and right adjacent frequencies of F1, then the UE determines that the measurement needs to be switched before the measurement can be performed, and the current single carrier is used. Reconfigure to the 5M bandwidth receiver while using the 10M bandwidth receiver to measure the two carriers.

760, 当 UE确认 RNC发送的第一待测载波配置信息配置失败后，向 RNC发送待测载波配置信息配置失败的信息。步骤 760是可选的步骤。本发明实施例中，当 UE不具备对第一待测载波进行不启动压缩模式的测量时，需要向 RNC发送 UE不具备对第一待测载波进行不启动压缩模式的测量的信息。 760, after the UE confirms that the configuration of the first to-be-tested carrier configuration information sent by the RNC fails, The RNC sends the information that the configuration of the carrier configuration information to be tested fails. Step 760 is an optional step. In the embodiment of the present invention, when the UE does not have the measurement that the first to-be-tested carrier is not in the compressed mode, the UE needs to send the information that the UE does not have the measurement that the first to-be-tested carrier does not start the compressed mode.

770, RNC接收到 UE发送的第一待测载波配置信息失败的消息后，选择其他的待测载波配置发送给 UE。步骤 770是可选的步骤。 770. After receiving the message that the first test carrier configuration information that is sent by the UE fails, the RNC selects another test carrier configuration to send to the UE. Step 770 is an optional step.

可选的，本实施例中，当 RNC收到 UE不具备对第一待测载波进行不启动压缩模式的测量时，可以从 UE其他可能的待测载波配置方式中选择一个生成待测载波配置信息，重新发送给 UE。 Optionally, in this embodiment, when the RNC receives the measurement that the UE does not perform the compression mode of the first test carrier, the RNC may select one of the other possible carrier configuration modes of the UE to generate the carrier configuration to be tested. Information, resent to the UE.

图 8是本发明实施例的用户设备示意图。如图 8所示，本发明实施例中的用户设备 800可以包括发送单元 801、配置单元 802、接收单元 803和确定单元 804。 FIG. 8 is a schematic diagram of a user equipment according to an embodiment of the present invention. As shown in FIG. 8, the user equipment 800 in the embodiment of the present invention may include a sending unit 801, a configuration unit 802, a receiving unit 803, and a determining unit 804.

发送单元 801可向 RNC发送 UE支持的非连续载波组合能力。 The transmitting unit 801 can send the non-contiguous carrier combining capability supported by the UE to the RNC.

接收单元 803可接收 RNC发送的工作载波配置信息。其中，该工作载波配置信息指示 UE的待配置工作载波的信息。 The receiving unit 803 can receive the working carrier configuration information sent by the RNC. The working carrier configuration information indicates information about a working carrier to be configured of the UE.

配置单元 802可根据工作载波配置信息配置 UE的第一工作载波。接收单元 803还可以接收 RNC发送的第一待测载波配置信息。其中，第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 The configuration unit 802 can configure the first working carrier of the UE according to the working carrier configuration information. The receiving unit 803 can also receive the first carrier configuration information to be tested sent by the RNC. The first to-be-tested carrier configuration information indicates that the UE performs uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

确定单元 804可根据第一待测载波、第一工作载波和非连续载波组合能力，确定 UE对该第一待测载波执行非压缩模式异频测量的能力。 The determining unit 804 may determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability, the UE's ability to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested.

通过图 8所示，用户设备 800可以收到 RNC根据用户设备 800支持的非连续载波组合能力和工作载波配置的待测载波，并判断用户设备 800是否具备对该待测载波执行非压缩模式异频测量的能力。 As shown in FIG. 8, the user equipment 800 can receive the non-contiguous carrier combination capability supported by the RNC and the carrier to be tested configured according to the working carrier, and determine whether the user equipment 800 has an uncompressed mode for the carrier to be tested. The ability to measure frequency.

可选的，发送单元 801还可以用于在根据第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力之后，当该 UE不具备对第一待测载波执行非压缩模式异频测量的能力时，向 RNC发送第一待测载波配置信息失败的信息。其中，该第一待测载波配置信息失败的信息为 UE不具备对第一待测载波执行非压缩模式异频测量的能力的信息。 Optionally, the sending unit 801 is further configured to determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested. Then, when the UE does not have the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested, the information that the first carrier configuration information to be tested fails is sent to the RNC. The information that the first to-be-tested carrier configuration information fails is that the UE does not have the capability of performing non-compressive mode inter-frequency measurement on the first to-be-tested carrier.

可选的，第一工作载波可以包括单载波工作模式时的单载波或多载波工作模式时的主载波和辅载波，其中该单载波工作模式时的单载波或多载波工作模式时的主载波为该第一工作载波的第一服务小区。 Optionally, the first working carrier may include a primary carrier and a secondary carrier in a single carrier or multiple carrier working mode in a single carrier working mode, where the single carrier or multiple carrier in the single carrier working mode The primary carrier in the mode is the first serving cell of the first working carrier.

可选的，接收单元 803接收的第一待测载波配置信息，可以是由 RNC 根据非连续载波组合能力和 RNC得到的第一工作载波的信息确定的。其中，第一工作载波的信息包括第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 Optionally, the first to-be-tested carrier configuration information received by the receiving unit 803 may be determined by the RNC according to the non-contiguous carrier combining capability and the information of the first working carrier obtained by the RNC. The information of the first working carrier includes a maximum number of carriers or maximum bandwidth information supported by consecutive carrier blocks where the first serving cell of the first working carrier is located.

可选的，配置单元 802可以根据工作载波配置信息选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置第一工作载波。 Optionally, the configuration unit 802 can configure the first working carrier according to the working carrier configuration information, and select a working carrier configuration mode in which the number of carriers supported by the continuous carrier block of the first serving cell is the largest or smallest.

可选的，发送单元 801还可以用于在根据工作载波配置信息配置 UE的第一工作载波之后，向 RNC发送第一工作载波的信息，以便 RNC确定第一待测载波。 Optionally, the sending unit 801 is further configured to: after configuring the first working carrier of the UE according to the working carrier configuration information, send information of the first working carrier to the RNC, so that the RNC determines the first carrier to be tested.

可选的， UE的非连续载波组合能力包括： UE支持的连续载波块的大小和 /或 UE支持的连续载波块之间的间隔区域的大小。 Optionally, the non-contiguous carrier combining capability of the UE includes: a size of the continuous carrier block supported by the UE and/or a size of the interval area between the consecutive carrier blocks supported by the UE.

可选的，确定单元 804可以用于当第一待测载波、第一工作载波组成的组合符合 UE支持的非连续载波组合能力时，确定 UE具有对第一待测载波执行非压缩模式异频测量的能力；或者当第一待测载波、第一工作载波组成的组合不符合 UE支持的非连续载波组合能力时，确定 UE不具有对所述第一待测载波执行非压缩模式异频测量的能力。 Optionally, the determining unit 804 is configured to: when the combination of the first carrier to be tested and the first working carrier meets the non-contiguous carrier combination capability supported by the UE, determine that the UE has performed the uncompressed mode inter-frequency on the first carrier to be tested. The capability of the measurement; or when the combination of the first carrier to be tested and the first working carrier does not meet the non-contiguous carrier combination capability supported by the UE, determining that the UE does not have the uncompressed mode inter-frequency measurement on the first carrier to be tested Ability.

在本实施例中，用户设备 800可以是上述图 5、图 6和图 7中的 UE, 并执行相应的操作。为避免重复，在此不再赘述。 In this embodiment, the user equipment 800 may be the UEs in the above-mentioned FIG. 5, FIG. 6, and FIG. 7, and perform corresponding operations. To avoid repetition, we will not repeat them here.

图 9是本发明实施例的无线网络控制器示意图。图 9的无线网络控制器 900可以包括接收单元 901、生成单元 902和发送单元 903。 9 is a schematic diagram of a radio network controller according to an embodiment of the present invention. The radio network controller 900 of FIG. 9 may include a receiving unit 901, a generating unit 902, and a transmitting unit 903.

接收单元 901可接收 UE发送的该 UE支持的非连续载波组合能力。生成单元 902可生成工作载波配置信息。其中，该工作载波配置信息指示 UE配置第一工作载波的配置信息。 The receiving unit 901 can receive the non-contiguous carrier combining capability supported by the UE and sent by the UE. Generating unit 902 can generate working carrier configuration information. The working carrier configuration information indicates configuration information of the first working carrier configured by the UE.

发送单元 903可向 UE发送工作载波配置信息。 The transmitting unit 903 can send the working carrier configuration information to the UE.

生成单元 902还可以根据 UE支持的非连续载波组合能力和 RNC得到的第一工作载波的信息生成第一待测载波配置信息。其中该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量。 The generating unit 902 may further generate the first to-be-tested carrier configuration information according to the non-contiguous carrier combining capability supported by the UE and the information of the first working carrier obtained by the RNC. The first to-be-tested carrier information indicates that the UE performs the inter-frequency measurement on the first to-be-tested carrier without starting the compressed mode.

发送单元 903还可以向 UE发送第一待测载波配置信息。 The sending unit 903 can also send the first carrier configuration information to be tested to the UE.

通过图 9所示，无线网络控制器 900可以获知 UE的非连续载波能力和 UE可能的工作载波配置情况，进而根据 UE的非连续载波能力和 UE可能的工作载波配置情况配置发送 UE的待测载波，以确认 UE是否具备对该待测载波执行非压缩模式异频测量的能力。 As shown in FIG. 9, the radio network controller 900 can learn the non-contiguous carrier capability of the UE and The possible working carrier configuration of the UE, and then configuring the to-be-tested carrier of the UE according to the non-contiguous carrier capability of the UE and the possible working carrier configuration of the UE, to confirm whether the UE has performed the uncompressed mode inter-frequency measurement on the carrier to be tested. ability.

可选的，接收单元 901还可以用于在根据 UE支持的非连续载波组合能力和 UE的第一工作载波的信息向 UE发送第一待测载波配置信息之后，接收 UE在不具备对第一待测载波执行非压缩模式异频测量的能力时发送的第一待测载波配置信息失败的信息，其中第一待测载波配置信息失败的信息为 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 Optionally, the receiving unit 901 is further configured to: after transmitting the first to-be-tested carrier configuration information to the UE according to the non-contiguous carrier combining capability supported by the UE and the information of the first working carrier of the UE, the receiving UE does not have the first When the carrier to be tested performs the capability of performing the uncompressed mode inter-frequency measurement, the information about the failure of the first to-be-tested carrier configuration information is sent, where the information that the first to-be-tested carrier configuration information fails is that the UE does not support performing non-compression on the first to-be-tested carrier. The information of the mode inter-frequency measurement.

可选的，第一工作载波可以包括单载波工作模式时的单载波或多载波工作模式时的主载波和辅载波，其中该单载波工作模式时的单载波或多载波工作模式时的主载波为该第一工作载波的第一服务小区。 Optionally, the first working carrier may include a primary carrier and a secondary carrier in a single carrier or multiple carrier working mode in a single carrier working mode, where the primary carrier in a single carrier or multiple carrier working mode in the single carrier working mode Is the first serving cell of the first working carrier.

可选的，发送单元 901中，无线网络控制器 900得到的第一工作载波的信息，是无线网络控制器 900根据无线网络控制器 900与 UE预先约定的工作载波选择方式和 UE的非连续载波组合能力确定的。可选的，无线网络控制器 900与 UE预先约定，选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置所述第一工作载波。 Optionally, the information about the first working carrier obtained by the radio network controller 900 in the sending unit 901 is a working carrier selection manner pre-agreed by the radio network controller 900 according to the radio network controller 900 and the non-contiguous carrier of the UE. The ability to combine is determined. Optionally, the wireless network controller 900 pre-arranges with the UE to configure the first working carrier by selecting a working carrier selection mode in which the number of carriers supported by consecutive carrier blocks in which the first serving cell is supported is the largest or smallest.

可选的，第一工作载波的信息可以包括第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 Optionally, the information of the first working carrier may include a maximum number of carriers or maximum bandwidth information supported by consecutive carrier blocks of the first serving cell of the first working carrier.

可选的，接收单元 901还可以用于在向 UE发送工作载波配置信息之后，接收 UE发送的第一工作载波的信息，以便 RNC确定所述第一待测载波。 Optionally, the receiving unit 901 is further configured to: after sending the working carrier configuration information to the UE, receive information about the first working carrier sent by the UE, so that the RNC determines the first carrier to be tested.

可选的， UE的非连续载波组合能力可以包括： UE支持的连续载波块的大小和 /或 UE支持的连续载波块之间的间隔区域的大小。 Optionally, the non-contiguous carrier combining capability of the UE may include: a size of a continuous carrier block supported by the UE and/or a size of an interval area between consecutive carrier blocks supported by the UE.

在本实施例中，无线网络控制器 900可以是上述图 5、图 6和图 7中的 RNC, 并执行相应的操作。为避免重复，在此不再赘述。 In the present embodiment, the radio network controller 900 may be the RNCs in Figs. 5, 6, and 7, and perform corresponding operations. To avoid repetition, we will not repeat them here.

图 10是本发明实施例的用户设备示意图。如图 10所示，本发明实施例中的用户设备 1000可以包括接收单元 1001、处理器 1002、发送单元 1003。 FIG. 10 is a schematic diagram of a user equipment according to an embodiment of the present invention. As shown in FIG. 10, the user equipment 1000 in the embodiment of the present invention may include a receiving unit 1001, a processor 1002, and a sending unit 1003.

发送单元 1003可向 RNC发送 UE支持的非连续载波组合能力。 The transmitting unit 1003 can send the non-contiguous carrier combining capability supported by the UE to the RNC.

接收单元 1001可接收 RNC发送的工作载波配置信息。其中，该工作载波配置信息指示 UE的待配置工作载波的信息。 The receiving unit 1001 can receive the working carrier configuration information sent by the RNC. The working carrier configuration information indicates information about a working carrier to be configured of the UE.

处理器 1002可根据工作载波配置信息配置 UE的第一工作载波，其中处理器 1002还可以称为中央处理器 CPU或者处理器。接收单元 1001还可以接收 RNC发送的第一待测载波配置信息。其中，第一待测载波配置信息指示 UE对第一待测载波执行非压缩模式异频测量。 The processor 1002 can configure the first working carrier of the UE according to the working carrier configuration information, where the processor 1002 can also be referred to as a central processing unit CPU or a processor. The receiving unit 1001 may further receive the first to-be-tested carrier configuration information that is sent by the RNC. The first to-be-tested carrier configuration information indicates that the UE performs uncompressed mode inter-frequency measurement on the first to-be-tested carrier.

处理器 1002还可以根据第一待测载波、第一工作载波和非连续载波组合能力，确定 UE对该第一待测载波执行非压缩模式异频测量的能力。 The processor 1002 is further configured to determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability, a capability of the UE to perform an uncompressed mode inter-frequency measurement on the first carrier to be tested.

通过图 10所示，用户设备 1000可以收到 RNC根据用户设备 1000支持的非连续载波组合能力和工作载波配置的待测载波，并判断用户设备 1000 是否具备对该待测载波执行非压缩模式异频测量的能力。 As shown in FIG. 10, the user equipment 1000 can receive the non-contiguous carrier combination capability supported by the RNC and the carrier to be tested configured according to the working carrier, and determine whether the user equipment 1000 has an uncompressed mode for the carrier to be tested. The ability to measure frequency.

可选的，发送单元 1003还可以用于在根据第一待测载波、第一工作载波和 UE支持的非连续载波组合能力，确定 UE对第一待测载波执行非压缩模式异频测量的能力之后，当该 UE不具备对第一待测载波执行非压缩模式异频测量的能力时，向 RNC发送第一待测载波配置信息失败的信息。其中，该第一待测载波配置信息失败的信息为 UE不具备对第一待测载波执行非压缩模式异频测量的能力的信息。 Optionally, the sending unit 1003 is further configured to determine, according to the first carrier to be tested, the first working carrier, and the non-contiguous carrier combining capability supported by the UE, the capability of the UE to perform the uncompressed mode inter-frequency measurement on the first carrier to be tested. Then, when the UE does not have the capability of performing the uncompressed mode inter-frequency measurement on the first carrier to be tested, the information that the first carrier configuration information to be tested fails is sent to the RNC. The information that the first to-be-tested carrier configuration information fails is that the UE does not have the capability of performing non-compressive mode inter-frequency measurement on the first to-be-tested carrier.

可选的，接收单元 1001接收的第一待测载波配置信息，可以是由 RNC 根据非连续载波组合能力和 RNC得到的第一工作载波的信息确定的。其中，第一工作载波的信息包括第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 Optionally, the first to-be-tested carrier configuration information received by the receiving unit 1001 may be determined by the RNC according to the non-contiguous carrier combining capability and the information of the first working carrier obtained by the RNC. The information of the first working carrier includes a maximum number of carriers or maximum bandwidth information supported by consecutive carrier blocks where the first serving cell of the first working carrier is located.

可选的，处理器 1002可以根据工作载波配置信息选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置第一工作载波。 Optionally, the processor 1002 may configure the first working carrier according to the working carrier configuration information, and select a working carrier configuration mode in which the number of carriers supported by the continuous carrier block of the first serving cell is the largest or the smallest.

可选的，发送单元 1003 还可以用于在根据工作载波配置信息配置 UE 的第一工作载波之后，向 RNC发送第一工作载波的信息，以便 RNC确定第一待测载波。 Optionally, the sending unit 1003 is further configured to: after configuring the first working carrier of the UE according to the working carrier configuration information, send information of the first working carrier to the RNC, so that the RNC determines the first carrier to be tested.

可选的，处理器 1002可以用于当第一待测载波、第一工作载波组成的组合符合 UE支持的非连续载波组合能力时，确定 UE具有对第一待测载波执行非压缩模式异频测量的能力；或者当第一待测载波、第一工作载波组成的组合不符合 UE支持的非连续载波组合能力时，确定 UE不具有对所述第一待测载波执行非压缩模式异频测量的能力。 Optionally, the processor 1002 is configured to: when the combination of the first carrier to be tested and the first working carrier meets the non-contiguous carrier combination capability supported by the UE, determine that the UE has performed the uncompressed mode inter-frequency on the first carrier to be tested. The capability of measurement; or when the first carrier to be tested and the first working carrier are composed When the combination does not comply with the non-contiguous carrier combining capability supported by the UE, it is determined that the UE does not have the capability of performing uncompressed mode inter-frequency measurement on the first carrier to be tested.

在本实施例中，用户设备 1000可以是上述图 5、图 6和图 7中的 UE, 并执行相应的操作。为避免重复，在此不再赘述。 In this embodiment, the user equipment 1000 may be the UEs in FIG. 5, FIG. 6, and FIG. 7 described above, and perform corresponding operations. To avoid repetition, we will not repeat them here.

图 11是本发明实施例的无线网络控制器示意图。图 11的无线网络控制器 1100可以包括接收单元 1101、处理器 1102和发送单元 1103。 11 is a schematic diagram of a radio network controller according to an embodiment of the present invention. The wireless network controller 1100 of FIG. 11 may include a receiving unit 1101, a processor 1102, and a transmitting unit 1103.

接收单元 1101可接收 UE发送的该 UE支持的非连续载波组合能力。处理器 1102可生成工作载波配置信息。其中，该工作载波配置信息指示 UE配置第一工作载波的配置信息，处理器 1102还可以称为中央处理器 CPU或者处理器。 The receiving unit 1101 can receive the non-contiguous carrier combining capability supported by the UE and sent by the UE. The processor 1102 can generate working carrier configuration information. The working carrier configuration information indicates that the UE configures configuration information of the first working carrier, and the processor 1102 may also be referred to as a central processing unit CPU or a processor.

发送单元 1103可向 UE发送工作载波配置信息。 The transmitting unit 1103 can send the working carrier configuration information to the UE.

处理器 1102还可以根据 UE支持的非连续载波组合能力和 RNC得到的第一工作载波的信息生成第一待测载波配置信息。其中该第一待测载波信息指示 UE对第一待测载波进行不启动压缩模式的异频测量。 The processor 1102 may further generate the first to-be-tested carrier configuration information according to the non-contiguous carrier combination capability supported by the UE and the information of the first working carrier obtained by the RNC. The first to-be-tested carrier information indicates that the UE performs the inter-frequency measurement on the first to-be-tested carrier without starting the compression mode.

发送单元 1103还可以向 UE发送第一待测载波配置信息。 The sending unit 1103 may also send the first carrier configuration information to be tested to the UE.

通过图 11所示，无线网络控制器 1100可以获知 UE的非连续载波能力和 UE可能的工作载波配置情况，进而 ^据 UE的非连续载波能力和 UE可能的工作载波配置情况配置发送 UE的待测载波，以确认 UE是否具备对该待测载波执行非压缩模式异频测量的能力。 As shown in FIG. 11, the radio network controller 1100 can learn the non-contiguous carrier capability of the UE and the possible working carrier configuration of the UE, and configure the UE to be configured according to the non-contiguous carrier capability of the UE and the possible working carrier configuration of the UE. The carrier is measured to confirm whether the UE has the capability of performing uncompressed mode inter-frequency measurement on the carrier to be tested.

可选的，接收单元 1101还可以用于在根据 UE支持的非连续载波组合能力和 UE的第一工作载波的信息向 UE发送第一待测载波配置信息之后，接收 UE在不具备对第一待测载波执行非压缩模式异频测量的能力时发送的第一待测载波配置信息失败的信息，其中第一待测载波配置信息失败的信息为 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 Optionally, the receiving unit 1101 is further configured to: after receiving the first to-be-tested carrier configuration information according to the non-contiguous carrier combining capability supported by the UE and the information of the first working carrier of the UE, the receiving UE does not have the first When the carrier to be tested performs the capability of performing the uncompressed mode inter-frequency measurement, the information about the failure of the first to-be-tested carrier configuration information is sent, where the information that the first to-be-tested carrier configuration information fails is that the UE does not support performing non-compression on the first to-be-tested carrier. The information of the mode inter-frequency measurement.

可选的，发送单元 1103中，无线网络控制器 1100得到的第一工作载波的信息，是无线网络控制器 1100根据无线网络控制器 1100与 UE预先约定的工作载波选择方式和 UE的非连续载波组合能力确定的。可选的，无线网络控制器 1100与 UE预先约定,选择第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置所述第一工作载波。 Optionally, the information about the first working carrier obtained by the radio network controller 1100 in the sending unit 1103 is a working carrier selection manner pre-agreed by the radio network controller 1100 and the UE, and a non-contiguous carrier of the UE. The ability to combine is determined. Optionally, the radio network controller 1100 pre-arranges with the UE to select a continuous carrier block supported by the first serving cell. The first working carrier is configured in a working carrier selection manner in which the number of carriers is the largest or the smallest.

可选的，接收单元 1101还可以用于在向 UE发送工作载波配置信息之后，接收 UE发送的第一工作载波的信息，以便 RNC确定所述第一待测载波。 Optionally, the receiving unit 1101 is further configured to: after sending the working carrier configuration information to the UE, receive information about the first working carrier sent by the UE, so that the RNC determines the first to-be-tested carrier.

在本实施例中，无线网络控制器 1100可以是上述图 5、图 6和图 7中的 RNC, 并执行相应的操作。为避免重复，在此不再赘述。 In the present embodiment, the radio network controller 1100 may be the RNCs in Figs. 5, 6, and 7, and perform corresponding operations. To avoid repetition, we will not repeat them here.

应理解，在本发明的各种实施例中，上述各过程的序号的大小并不意味着执行顺序的先后，各过程的执行顺序应以其功能和内在逻辑确定，而不应对本发明实施例的实施过程构成任何限定。 It should be understood that, in various embodiments of the present invention, the size of the sequence numbers of the above processes does not mean the order of execution, and the order of execution of each process should be determined by its function and internal logic, and should not be taken to the embodiments of the present invention. The implementation process constitutes any limitation.

本领域普通技术人员可以意识到，结合本文中所公开的实施例描述的各示例的单元及算法步骤，能够以电子硬件、或者计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行，取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能，但是这种实现不应认为超出本发明的范围。 Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the various examples described in connection with the embodiments disclosed herein can be implemented in a combination of electronic hardware or computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the solution. A person skilled in the art can use different methods for implementing the described functions for each particular application, but such implementation should not be considered to be beyond the scope of the present invention.

所属领域的技术人员可以清楚地了解到，为描述的方便和筒洁，上述描述的***、装置和单元的具体工作过程，可以参考前述方法实施例中的对应过程，在此不再赘述。 It will be apparent to those skilled in the art that, for the convenience of the description and the cleaning process, the specific operation of the system, the device and the unit described above may be referred to the corresponding processes in the foregoing method embodiments, and details are not described herein again.

在本申请所提供的几个实施例中，应该理解到，所揭露的***、装置和方法，可以通过其它的方式实现。例如，以上所描述的装置实施例仅仅是示意性的，例如，所述单元的划分，仅仅为一种逻辑功能划分，实际实现时可以有另外的划分方式，例如多个单元或组件可以结合或者可以集成到另一个 ***，或一些特征可以忽略，或不执行。另一点，所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口，装置或单元的间接耦合或通信连接，可以是电性，机械或其它的形式。 In the several embodiments provided herein, it should be understood that the disclosed systems, devices, and methods may be implemented in other ways. For example, the device embodiments described above are merely illustrative. For example, the division of the unit is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed. In addition, the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise.

所述作为分离部件说明的单元可以是或者也可以不是物理上分开的，作为单元显示的部件可以是或者也可以不是物理单元，即可以位于一个地方，或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。 The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. You can choose some of them according to actual needs or All units are used to achieve the objectives of the solution of this embodiment.

另外，在本发明各个实施例中的各功能单元可以集成在一个处理单元中，也可以是各个单元单独物理存在，也可以两个或两个以上单元集成在一个单元中。 In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.

所述功能如果以软件功能单元的形式实现并作为独立的产品销售或使用时，可以存储在一个计算机可读取存储介质中。基于这样的理解，本发明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来，该计算机软件产品存储在一个存储介质中，包括若干指令用以使得一台计算机设备（可以是个人计算机，服务器，或者网络设备等）执行本发明各个实施例所述方法的全部或部分步骤。而前述的存储介质包括： U盘、移动硬盘、只读存储器（ ROM , Read-Only Memory )、随机存取存储器（RAM, Random Access Memory ), 磁碟或者光盘等各种可以存储程序代码的介质。 The functions, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, or a part of the technical solution, may be embodied in the form of a software product, which is stored in a storage medium, including The instructions are used to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present invention. The foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk or an optical disk, and the like, which can store program codes. .

以上所述，仅为本发明的具体实施方式，但本发明的保护范围并不局限于此，任何熟悉本技术领域的技术人员在本发明揭露的技术范围内，可轻易想到变化或替换，都应涵盖在本发明的保护范围之内。因此，本发明的保护范围应以所述权利要求的保护范围为准。 The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims

权利要求 Rights request

1、一种异频测量方法，其特征在于，包括： 1. An inter-frequency measurement method, characterized by including:

向无线网络控制器 RNC发送 UE支持的非连续载波组合能力；接收所述 RNC发送的工作载波配置信息，其中，所述工作载波配置信息指示所述 UE的待配置工作载波的信息；根据所述工作载波配置信息配置所述 UE的第一工作载波； Send the discontinuous carrier combination capability supported by the UE to the radio network controller RNC; receive the working carrier configuration information sent by the RNC, wherein the working carrier configuration information indicates the information of the working carrier to be configured of the UE; according to the The working carrier configuration information configures the first working carrier of the UE;

接收所述 RNC发送的第一待测载波配置信息，其中，所述第一待测载波配置信息指示所述 UE对第一待测载波执行非压缩模式异频测量； Receive the first carrier under test configuration information sent by the RNC, wherein the first carrier under test configuration information instructs the UE to perform non-compressed mode inter-frequency measurement on the first carrier under test;

根据所述第一待测载波、所述第一工作载波和所述非连续载波组合能力，确定所述 UE对所述第一待测载波执行非压缩模式异频测量的能力。 The ability of the UE to perform non-compressed mode inter-frequency measurement on the first carrier to be tested is determined based on the first carrier to be tested, the first working carrier and the discontinuous carrier combination capability.

2、根据权利要求 1所述的方法，其特征在于，在所述根据所述第一待测载波、所述第一工作载波和所述 UE支持的非连续载波组合能力，确定所述 UE对所述第一待测载波执行非压缩模式异频测量的能力之后，还包括：当所述 UE不具备对所述第一待测载波执行非压缩模式异频测量的能力时，向所述 RNC发送所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述 UE不具备对所述第一待测载波执行非压缩模式异频测量的能力的信息。 2. The method according to claim 1, characterized in that, in the step of determining the pair of the UE based on the first carrier to be tested, the first working carrier and the discontinuous carrier combination capability supported by the UE. After the first carrier under test has the ability to perform non-compressed mode inter-frequency measurement, it also includes: when the UE does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test, reporting to the RNC The information indicating that the configuration information of the first carrier under test failed to be sent is that the UE does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test. information.

3、根据权利要求 1或 2所述的方法，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中所述单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 3. The method according to claim 1 or 2, characterized in that, the first operating carrier includes: an operating carrier in a single carrier operating mode or a main carrier and a secondary carrier in a multi-carrier operating mode, wherein the single carrier The working carrier in the carrier working mode or the main carrier in the multi-carrier working mode is the first serving cell of the first working carrier.

4、根据权利要求 3所述的方法，其特征在于，所述第一待测载波配置信息由所述 RNC根据所述非连续载波组合能力和所述 RNC得到的所述第一工作载波的信息确定。 4. The method according to claim 3, characterized in that, the first carrier configuration information to be tested is obtained by the RNC based on the discontinuous carrier combination capability and the information of the first working carrier obtained by the RNC. Sure.

5、根据权利要求 3或 4所述的方法，其特征在于，所述根据所述工作载波配置信息配置所述 UE的第一工作载波，包括： 5. The method according to claim 3 or 4, characterized in that: configuring the first working carrier of the UE according to the working carrier configuration information includes:

根据所述工作载波配置信息选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置所述第一工作载波。 According to the working carrier configuration information, select the working carrier configuration mode with the largest or smallest number of carriers supported by the continuous carrier block where the first serving cell is located to configure the first working carrier.

6、根据权利要求 3或 4所述的方法，其特征在于，在所述根据所述工作载波配置信息配置所述 UE 的第一工作载波之后，还包括：向所述 RNC 发送所述第一工作载波的信息，以便所述 RNC确定所述第一待测载波。 6. The method according to claim 3 or 4, characterized in that, after configuring the first working carrier of the UE according to the working carrier configuration information, further comprising: reporting to the RNC Send information about the first working carrier so that the RNC determines the first carrier to be tested.

7、根据权利要求 4或 6所述的方法，其特征在于，所述第一工作载波的信息包括： 7. The method according to claim 4 or 6, characterized in that the information of the first working carrier includes:

所述第一工作载波的第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 The maximum number of carriers or the maximum bandwidth information supported by the continuous carrier block where the first serving cell of the first working carrier is located.

8、根据权利要求 1至 7任一项所述的方法，其特征在于，所述 UE支持的非连续载波组合能力包括：所述 UE支持的连续载波块的大小和 /或所述 UE支持的连续载波块之间的间隔区域的大小。 8. The method according to any one of claims 1 to 7, characterized in that the discontinuous carrier combination capability supported by the UE includes: the size of the continuous carrier block supported by the UE and/or the size of the continuous carrier block supported by the UE. The size of the spacing area between consecutive carrier blocks.

9、根据权利要求 1至 8任一项所述的方法，其特征在于，所述根据所述第一待测载波、所述第一工作载波和所述 UE支持的非连续载波组合能力，确定所述 UE对所述第一待测载波执行非压缩模式异频测量的能力，包括：当所述第一待测载波、所述第一工作载波组成的组合符合所述 UE支持的非连续载波组合能力时，确定所述 UE具有对所述第一待测载波执行非压缩模式异频测量的能力；或者 9. The method according to any one of claims 1 to 8, characterized in that, based on the first carrier to be tested, the first working carrier and the discontinuous carrier combination capability supported by the UE, determining The UE's ability to perform non-compressed mode inter-frequency measurement on the first carrier to be tested includes: when the combination of the first carrier to be tested and the first working carrier complies with the discontinuous carrier supported by the UE When combining capabilities, it is determined that the UE has the ability to perform non-compressed mode inter-frequency measurement on the first carrier to be tested; or

当所述第一待测载波、所述第一工作载波组成的组合不符合所述 UE支持的非连续载波组合能力时，确定所述 UE不具有对所述第一待测载波执行非压缩模式异频测量的能力。 When the combination of the first carrier to be tested and the first working carrier does not comply with the discontinuous carrier combination capability supported by the UE, it is determined that the UE does not have the ability to perform a non-compressed mode on the first carrier to be tested. Ability to measure at different frequencies.

10、一种异频测量方法，其特征在于，包括： 10. An inter-frequency measurement method, characterized by including:

接收 UE发送的所述 UE支持的非连续载波组合能力，并向所述 UE发送工作载波配置信息，所述工作载波配置信息指示所述 UE配置第一工作载波的配置信息； Receive the discontinuous carrier combination capability supported by the UE sent by the UE, and send working carrier configuration information to the UE, where the working carrier configuration information instructs the UE to configure the configuration information of the first working carrier;

根据所述 UE支持的非连续载波组合能力和所述 RNC得到的所述第一工作载波的信息向所述 UE发送第一待测载波配置信息，所述第一待测载波信息指示所述 UE对第一待测载波进行不启动压缩模式的异频测量。 The first carrier to be tested configuration information is sent to the UE according to the discontinuous carrier combination capability supported by the UE and the information of the first working carrier obtained by the RNC, and the first carrier to be tested information indicates to the UE Perform an inter-frequency measurement without starting the compression mode on the first carrier to be tested.

11、根据权利要求 10 所述的方法，其特征在于，在所述根据所述 UE 支持的非连续载波组合能力和所述 UE的第一工作载波的信息向所述 UE发送第一待测载波配置信息之后还包括： 11. The method according to claim 10, wherein the first carrier to be tested is sent to the UE according to the discontinuous carrier combination capability supported by the UE and the information of the first working carrier of the UE. The configuration information also includes:

接收所述 UE在不具备对所述第一待测载波执行非压缩模式异频测量的能力时发送的所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 Receive information indicating that the configuration information of the first carrier to be tested failed when the UE does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier to be tested, and the configuration information of the first carrier to be tested fails. The information is that the UE does not support performing non-compressed mode inter-frequency measurement on the first carrier to be tested.

12、根据权利要求 10或 11所述的方法，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 12. The method according to claim 10 or 11, characterized in that, the first operating carrier includes: an operating carrier in single-carrier operating mode or a main carrier and a secondary carrier in multi-carrier operating mode, wherein single-carrier operating mode The working carrier in mode or the main carrier in multi-carrier working mode is the first serving cell of the first working carrier.

13、根据权利要求 12所述的方法，其特征在于，所述 RNC得到的所述 13. The method according to claim 12, characterized in that: the RNC obtains

UE的第一工作载波的信息是所述 RNC根据所述 RNC与所述 UE预先约定的工作载波选择方式和所述 UE的非连续载波组合能力确定的。 The information of the first working carrier of the UE is determined by the RNC based on the working carrier selection method pre-agreed between the RNC and the UE and the discontinuous carrier combination capability of the UE.

14、根据权利要求 13所述的方法，其特征在于，所述 RNC与所述 UE 预先约定的工作载波选择方式为所述 UE选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置所述第一工作载波。 14. The method according to claim 13, characterized in that, the working carrier selection method pre-agreed between the RNC and the UE is the number of carriers supported by the continuous carrier block where the first serving cell is selected by the UE. The first working carrier is configured using the largest or smallest working carrier selection method.

15、根据权利要求 12所述的方法，其特征在于，在所述向所述 UE发送工作载波配置信息之后，还包括： 15. The method according to claim 12, characterized in that, after sending the working carrier configuration information to the UE, further comprising:

接收所述 UE发送的第一工作载波的信息，以便所述 RNC确定所述第一待测载波。 Receive the information of the first working carrier sent by the UE, so that the RNC determines the first carrier to be tested.

16、根据权利要求 10至 15所述的方法，其特征在于，所述第一工作载波的信息包括： 16. The method according to claims 10 to 15, characterized in that the information of the first working carrier includes:

所述第一服务小区所在的连续载波块支持的最大载波个数或最大带宽信息。 The maximum number of carriers or the maximum bandwidth information supported by the continuous carrier block where the first serving cell is located.

17、根据权利要求 10至 16任一项所述的方法，其特征在于，所述 UE 发送的非连续载波组合能力包括：所述 UE支持的连续载波块的大小和 /或所述 UE支持的连续载波块之间的间隔区域的大小。 17. The method according to any one of claims 10 to 16, characterized in that the non-continuous carrier combination capability sent by the UE includes: the size of the continuous carrier block supported by the UE and/or the size of the continuous carrier block supported by the UE. The size of the spacing area between consecutive carrier blocks.

18、一种用户设备，其特征在于，包括： 18. A user equipment, characterized by: including:

发送单元，用于向无线网络控制器 RNC发送所述用户设备支持的非连续载波组合能力； A sending unit, configured to send the discontinuous carrier combination capabilities supported by the user equipment to the radio network controller RNC;

接收单元，用于接收所述 RNC发送的工作载波配置信息，其中，所述工作载波配置信息指示所述用户设备的待配置工作载波的信息； A receiving unit, configured to receive the working carrier configuration information sent by the RNC, wherein the working carrier configuration information indicates the information of the working carrier to be configured of the user equipment;

配置单元，用于根据所述工作载波配置信息配置所述用户设备的第一工作载波； A configuration unit configured to configure the first working carrier of the user equipment according to the working carrier configuration information;

所述接收单元还用于接收所述 RNC发送的第一待测载波配置信息，所述第一待测载波配置信息指示所述用户设备对第一待测载波执行非压缩模式异频测量； The receiving unit is also configured to receive the first carrier to be tested configuration information sent by the RNC. The first carrier to be tested configuration information instructs the user equipment to perform uncompressed mode on the first carrier to be tested. Different frequency measurement;

确定单元，用于根据所述第一待测载波、所述第一工作载波和所述非连续载波组合能力，确定所述用户设备对所述第一待测载波执行非压缩模式异频测量的能力。 Determining unit, configured to determine whether the user equipment performs non-compressed mode inter-frequency measurement on the first carrier to be tested based on the first carrier to be tested, the first working carrier and the discontinuous carrier combination capability. ability.

19、根据权利要求 18所述的用户设备，其特征在于，所述发送单元还用于在所述根据所述第一待测载波、所述第一工作载波和所述用户设备支持的非连续载波组合能力，确定所述用户设备对所述第一待测载波执行非压缩模式异频测量的能力之后，当所述用户设备不具备对所述第一待测载波执行非压缩模式异频测量的能力时，向所述 RNC发送所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述用户设备不具备对所述第一待测载波执行非压缩模式异频测量的能力的信息。 19. The user equipment according to claim 18, characterized in that, the sending unit is further configured to perform the non-continuous operation according to the first carrier to be tested, the first working carrier and the user equipment. Carrier combination capability: after determining that the user equipment has the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test, when the user equipment does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test When the capability is obtained, sending to the RNC the information that the configuration information of the first carrier under test fails, and the information that the configuration information of the first carrier under test fails is that the user equipment does not have the ability to perform the configuration on the first carrier under test. Information on the capabilities of non-compressed mode interfrequency measurements.

20、根据权利要求 18或 19所述的用户设备，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中所述单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 20. The user equipment according to claim 18 or 19, characterized in that, the first operating carrier includes: an operating carrier in a single-carrier operating mode or a primary carrier and a secondary carrier in a multi-carrier operating mode, wherein the The working carrier in the single-carrier working mode or the main carrier in the multi-carrier working mode is the first serving cell of the first working carrier.

21、根据权利要求 20所述的用户设备，其特征在于，所述第一待测载波配置信息由所述 RNC根据所述非连续载波组合能力和所述 RNC得到的所述第一工作载波的信息确定。 21. The user equipment according to claim 20, characterized in that, the first carrier configuration information to be tested is obtained by the RNC according to the discontinuous carrier combination capability and the first working carrier obtained by the RNC. Information confirmed.

22、根据权利要求 20或 21所述的用户设备，其特征在于，所述配置单元具体用于：根据所述工作载波配置信息选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置所述第一工作载波。 22. The user equipment according to claim 20 or 21, characterized in that the configuration unit is specifically configured to: select the number of carriers supported by the continuous carrier block where the first serving cell is located according to the working carrier configuration information. The first working carrier is configured in the maximum or minimum working carrier configuration mode.

23、根据权利要求 20或 21所述的用户设备，其特征在于，所述发送单元还用于在所述根据所述工作载波配置信息配置所述用户设备的第一工作载波之后，向所述 RNC发送所述第一工作载波的信息，以便所述 RNC确定所述第一待测载波。 23. The user equipment according to claim 20 or 21, characterized in that, the sending unit is further configured to send a message to the user equipment after configuring the first working carrier of the user equipment according to the working carrier configuration information. The RNC sends information about the first working carrier so that the RNC determines the first carrier to be tested.

24、根据权利要求 21或 23所述的用户设备，其特征在于，所述第一工作载波的信息包括： 24. The user equipment according to claim 21 or 23, characterized in that the information of the first working carrier includes:

25、根据权利要求 18至 24任一项所述的用户设备，其特征在于，所述用户设备支持的非连续载波组合能力包括：所述用户设备支持的连续载波块的大小和 /或所述用户设备支持的连续载波块之间的间隔区域的大小。 25. The user equipment according to any one of claims 18 to 24, characterized in that: The non-continuous carrier combination capability supported by the user equipment includes: the size of the continuous carrier blocks supported by the user equipment and/or the size of the spacing area between the continuous carrier blocks supported by the user equipment.

26、根据权利要求 18至 25任一项所述的用户设备，其特征在于，所述确定单元具体用于当所述第一待测载波、所述第一工作载波组成的组合符合所述用户设备支持的非连续载波组合能力时，确定所述用户设备具有对所述第一待测载波执行非压缩模式异频测量的能力； 26. The user equipment according to any one of claims 18 to 25, characterized in that the determining unit is specifically configured to determine when the combination of the first carrier to be tested and the first operating carrier meets the requirements of the user. When the device supports the discontinuous carrier combination capability, it is determined that the user equipment has the ability to perform non-compressed mode inter-frequency measurement on the first carrier to be tested;

所述确定单元具体还用于当所述第一待测载波、所述第一工作载波组成的组合不符合所述用户设备支持的非连续载波组合能力时，确定所述用户设备不具有对所述第一待测载波执行非压缩模式异频测量的能力。 The determination unit is specifically configured to determine that the user equipment does not have the ability to support the combination of discontinuous carriers when the combination of the first carrier to be tested and the first working carrier does not meet the discontinuous carrier combination capability supported by the user equipment. Describes the ability of the first carrier under test to perform non-compressed mode inter-frequency measurement.

27、一种无线网络控制器，其特征在于，包括： 27. A wireless network controller, characterized by including:

接收单元，用于接收用户设备 UE发送的所述 UE支持的非连续载波组合能力； A receiving unit, configured to receive the discontinuous carrier combination capability supported by the user equipment UE and sent by the UE;

生成单元，用于生成工作载波配置信息，所述工作载波配置信息指示所述 UE配置第一工作载波的配置信息； A generating unit, configured to generate working carrier configuration information, where the working carrier configuration information instructs the UE to configure the configuration information of the first working carrier;

发送单元，用于向所述 UE发送所述工作载波配置信息； A sending unit, configured to send the working carrier configuration information to the UE;

所述生成单元还用于根据所述 UE支持的非连续载波组合能力和所述无线网络控制器得到的所述第一工作载波的信息生成第一待测载波配置信息，所述第一待测载波信息指示所述 UE对第一待测载波进行不启动压缩模式的异频测量； The generating unit is also configured to generate the first carrier configuration information to be tested according to the discontinuous carrier combination capability supported by the UE and the information of the first working carrier obtained by the radio network controller, the first carrier to be tested is The carrier information instructs the UE to perform inter-frequency measurement without starting the compression mode on the first carrier to be tested;

所述发送单元还用于向所述 UE发送所述第一待测载波配置信息。 The sending unit is also configured to send the first carrier configuration information to be tested to the UE.

28、根据权利要求 27所述的无线网络控制器，其特征在于，所述接收单元还用于在所述根据所述 UE支持的非连续载波组合能力和所述 UE的第一工作载波的信息向所述 UE发送第一待测载波配置信息之后，接收所述 UE在不具备对所述第一待测载波执行非压缩模式异频测量的能力时发送的所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 28. The radio network controller according to claim 27, wherein the receiving unit is further configured to combine information based on the discontinuous carrier combination capability supported by the UE and the first working carrier of the UE. After sending the first carrier under test configuration information to the UE, receiving the first carrier under test configuration information sent by the UE when it does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test. The failure information, the information that the configuration information of the first carrier under test fails is the information that the UE does not support performing non-compressed mode inter-frequency measurement on the first carrier under test.

29、根据权利要求 27或 28所述的无线网络控制器，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 29. The wireless network controller according to claim 27 or 28, wherein the first working carrier includes: a working carrier in single-carrier working mode or a primary carrier and a secondary carrier in multi-carrier working mode, wherein The working carrier in the single-carrier working mode or the main carrier in the multi-carrier working mode is the first serving cell of the first working carrier.

30、根据权利要求 29所述的无线网络控制器，其特征在于，所述无线网络控制器得到的所述 UE的第一工作载波的信息是所述无线网络控制器根据所述无线网络控制器与所述 UE预先约定的工作载波选择方式和所述 UE 的非连续载波组合能力确定的。 30. The wireless network controller according to claim 29, characterized in that, the wireless The information about the first working carrier of the UE obtained by the network controller is based on the working carrier selection method pre-agreed between the radio network controller and the UE and the discontinuous carrier combination capability of the UE. definite.

31、根据权利要求 30所述的无线网络控制器，其特征在于，所述无线网络控制器与所述 UE预先约定的工作载波选择方式为所述 UE选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置所述第一工作载波。 31. The radio network controller according to claim 30, wherein the working carrier selection method pre-agreed between the radio network controller and the UE is for the UE to select the continuous carrier where the first serving cell is located. The first working carrier is configured by selecting the working carrier with the largest or smallest number of carriers supported by the block.

32、根据权利要求 29所述的无线网络控制器，其特征在于，所述接收单元还用于在所述向所述 UE发送工作载波配置信息之后，接收所述 UE发送的第一工作载波的信息，以便所述无线网络控制器确定所述第一待测载波。 32. The radio network controller according to claim 29, characterized in that, the receiving unit is further configured to receive the first working carrier sent by the UE after the working carrier configuration information is sent to the UE. information so that the radio network controller determines the first carrier to be tested.

33、根据权利要求 27至 32任一项所述的无线网络控制器，其特征在于，所述第一工作载波的信息包括： 33. The radio network controller according to any one of claims 27 to 32, characterized in that, the information of the first working carrier includes:

34、根据权利要求 27至 33任一项所述的无线网络控制器，其特征在于，所述非连续载波组合能力包括：所述 UE支持的连续载波块的大小和 /或所述 UE支持的连续载波块之间的间隔区域的大小。 34. The radio network controller according to any one of claims 27 to 33, wherein the discontinuous carrier combination capability includes: the size of the continuous carrier blocks supported by the UE and/or the size of the continuous carrier blocks supported by the UE. The size of the spacing area between consecutive carrier blocks.

35、一种用户设备，其特征在于，包括： 35. A user equipment, characterized by: including:

处理器，用于 ^据所述工作载波配置信息配置所述用户设备的第一工作载波； A processor configured to configure the first working carrier of the user equipment according to the working carrier configuration information;

所述接收单元还用于接收所述 RNC发送的第一待测载波配置信息，所述第一待测载波配置信息指示所述用户设备对第一待测载波执行非压缩模式异频测量； The receiving unit is also configured to receive the first carrier under test configuration information sent by the RNC, where the first carrier under test configuration information instructs the user equipment to perform non-compressed mode inter-frequency measurement on the first carrier under test;

所述处理器还用于根据所述第一待测载波、所述第一工作载波和所述非连续载波组合能力，确定所述用户设备对所述第一待测载波执行非压缩模式异频测量的能力。 The processor is further configured to determine that the user equipment performs non-compressed mode inter-frequency on the first carrier to be tested based on the first carrier to be tested, the first working carrier and the discontinuous carrier combination capability. The ability to measure.

36、根据权利要求 35所述的用户设备，其特征在于，所述发送单元还用于在所述根据所述第一待测载波、所述第一工作载波和所述用户设备支持的非连续载波组合能力，确定所述用户设备对所述第一待测载波执行非压缩模式异频测量的能力之后，当所述用户设备不具备对所述第一待测载波执行非压缩模式异频测量的能力时，向所述 RNC发送所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述用户设备不具备对所述第一待测载波执行非压缩模式异频测量的能力的信息。 36. The user equipment according to claim 35, characterized in that, the sending unit is further configured to perform the non-continuous operation according to the first carrier to be tested, the first working carrier and the user equipment. Carrier combination capability: after determining that the user equipment has the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test, when the user equipment does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test When the capability is reached, the information indicating that the configuration information of the first carrier to be tested failed is sent to the RNC, and the information indicating that the configuration information of the first carrier to be tested failed is that the user equipment does not have the ability to execute the configuration information on the first carrier to be tested. Information on the capabilities of non-compressed mode interfrequency measurements.

37、根据权利要求 35或 36所述的用户设备，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中所述单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 37. The user equipment according to claim 35 or 36, characterized in that the first operating carrier includes: an operating carrier in a single-carrier operating mode or a primary carrier and a secondary carrier in a multi-carrier operating mode, wherein the The working carrier in the single-carrier working mode or the main carrier in the multi-carrier working mode is the first serving cell of the first working carrier.

38、根据权利要求 37所述的用户设备，其特征在于，所述第一待测载波配置信息由所述 RNC根据所述非连续载波组合能力和所述 RNC得到的所述第一工作载波的信息确定。 38. The user equipment according to claim 37, characterized in that, the first carrier configuration information to be tested is obtained by the RNC according to the discontinuous carrier combination capability and the first working carrier obtained by the RNC. Information confirmed.

39、根据权利要求 37或 38所述的用户设备，其特征在于，所述处理器具体用于：根据所述工作载波配置信息选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波配置方式配置所述第一工作载波。 39. The user equipment according to claim 37 or 38, characterized in that the processor is specifically configured to: select the number of carriers supported by the continuous carrier block where the first serving cell is located according to the working carrier configuration information. The first working carrier is configured in the maximum or minimum working carrier configuration mode.

40、根据权利要求 37或 38所述的用户设备，其特征在于，所述发送单元还用于在所述根据所述工作载波配置信息配置所述用户设备的第一工作载波之后，向所述 RNC发送所述第一工作载波的信息，以便所述 RNC确定所述第一待测载波。 40. The user equipment according to claim 37 or 38, characterized in that, the sending unit is further configured to send a message to the user equipment after configuring the first working carrier of the user equipment according to the working carrier configuration information. The RNC sends information about the first working carrier so that the RNC determines the first carrier to be tested.

41、根据权利要求 38或 40所述的用户设备，其特征在于，所述第一工作载波的信息包括： 41. The user equipment according to claim 38 or 40, characterized in that the information of the first working carrier includes:

42、根据权利要求 35至 41任一项所述的用户设备，其特征在于，所述用户设备支持的非连续载波组合能力包括：所述用户设备支持的连续载波块的大小和 /或所述用户设备支持的连续载波块之间的间隔区域的大小。 42. The user equipment according to any one of claims 35 to 41, characterized in that the non-continuous carrier combination capability supported by the user equipment includes: the size of the continuous carrier blocks supported by the user equipment and/or the The size of the spacing area between consecutive carrier blocks supported by the user equipment.

43、根据权利要求 35至 42任一项所述的用户设备，其特征在于，所述处理器具体用于当所述第一待测载波、所述第一工作载波组成的组合符合所述用户设备支持的非连续载波组合能力时，确定所述用户设备具有对所述第一待测载波执行非压缩模式异频测量的能力； 43. The user equipment according to any one of claims 35 to 42, characterized in that the processor is specifically configured to: when the combination of the first carrier to be tested and the first working carrier meets the required When the non-continuous carrier combination capability supported by the user equipment is described, it is determined that the user equipment has the ability to perform non-compressed mode inter-frequency measurement on the first carrier to be measured;

所述处理器具体还用于当所述第一待测载波、所述第一工作载波组成的组合不符合所述用户设备支持的非连续载波组合能力时，确定所述用户设备不具有对所述第一待测载波执行非压缩模式异频测量的能力。 The processor is specifically further configured to determine that the user equipment does not have the ability to combine the first carrier to be tested and the first working carrier when the combination of the first carrier to be tested and the first working carrier does not meet the discontinuous carrier combination capability supported by the user equipment. Describes the ability of the first carrier under test to perform non-compressed mode inter-frequency measurement.

44、一种无线网络控制器，其特征在于，包括： 44. A wireless network controller, characterized by including:

处理器，用于生成工作载波配置信息，所述工作载波配置信息指示所述 UE配置第一工作载波的配置信息； A processor, configured to generate working carrier configuration information, where the working carrier configuration information instructs the UE to configure the configuration information of the first working carrier;

所述处理器还用于根据所述 UE支持的非连续载波组合能力和所述无线网络控制器得到的所述第一工作载波的信息生成第一待测载波配置信息，所述第一待测载波信息指示所述 UE对第一待测载波进行不启动压缩模式的异频测量； The processor is also configured to generate first carrier configuration information to be tested based on the discontinuous carrier combination capability supported by the UE and the information of the first working carrier obtained by the radio network controller, the first carrier to be tested being The carrier information instructs the UE to perform inter-frequency measurement without starting the compression mode on the first carrier to be tested;

45、根据权利要求 44所述的无线网络控制器，其特征在于，所述接收单元还用于在所述根据所述 UE支持的非连续载波组合能力和所述 UE的第一工作载波的信息向所述 UE发送第一待测载波配置信息之后，接收所述 UE在不具备对所述第一待测载波执行非压缩模式异频测量的能力时发送的所述第一待测载波配置信息失败的信息，所述第一待测载波配置信息失败的信息为所述 UE不支持对第一待测载波执行非压缩模式异频测量的信息。 45. The radio network controller according to claim 44, characterized in that, the receiving unit is further configured to combine information based on the discontinuous carrier combination capability supported by the UE and the first working carrier of the UE. After sending the first carrier under test configuration information to the UE, receiving the first carrier under test configuration information sent by the UE when it does not have the ability to perform non-compressed mode inter-frequency measurement on the first carrier under test. The failure information, the information that the configuration information of the first carrier under test fails is the information that the UE does not support performing non-compressed mode inter-frequency measurement on the first carrier under test.

46、根据权利要求 44或 45所述的无线网络控制器，其特征在于，所述第一工作载波包括：单载波工作模式时的工作载波或多载波工作模式时的主载波和辅载波，其中单载波工作模式时的工作载波或多载波工作模式时的主载波为所述第一工作载波的第一服务小区。 46. The wireless network controller according to claim 44 or 45, characterized in that, the first working carrier includes: a working carrier in single-carrier working mode or a primary carrier and a secondary carrier in multi-carrier working mode, wherein The working carrier in the single-carrier working mode or the main carrier in the multi-carrier working mode is the first serving cell of the first working carrier.

47、根据权利要求 46所述的无线网络控制器，其特征在于，所述无线网络控制器得到的所述 UE的第一工作载波的信息是所述无线网络控制器根据所述无线网络控制器与所述 UE预先约定的工作载波选择方式和所述 UE 的非连续载波组合能力确定的。 47. The radio network controller according to claim 46, characterized in that, the information of the first working carrier of the UE obtained by the radio network controller is the information obtained by the radio network controller according to the radio network controller. It is determined by the operating carrier selection method pre-agreed with the UE and the discontinuous carrier combination capability of the UE.

48、根据权利要求 47所述的无线网络控制器，其特征在于，所述无线网络控制器与所述 UE预先约定的工作载波选择方式为所述 UE选择所述第一服务小区所在的连续载波块支持的载波个数最大或者最小的工作载波选择方式配置所述第一工作载波。 48. The wireless network controller according to claim 47, characterized in that, the wireless The working carrier selection method pre-agreed between the network controller and the UE is for the UE to select the working carrier selection method with the largest or smallest number of carriers supported by the continuous carrier block where the first serving cell is located to configure the first working carrier. .

49、根据权利要求 46所述的无线网络控制器，其特征在于，所述接收单元还用于在所述向所述 UE发送工作载波配置信息之后，接收所述 UE发送的第一工作载波的信息，以便所述无线网络控制器确定所述第一待测载波。 49. The radio network controller according to claim 46, wherein the receiving unit is further configured to receive the first working carrier sent by the UE after the working carrier configuration information is sent to the UE. information so that the radio network controller determines the first carrier to be tested.

50、根据权利要求 44至 49任一项所述的无线网络控制器，其特征在于，所述第一工作载波的信息包括： 50. The wireless network controller according to any one of claims 44 to 49, characterized in that, the information of the first working carrier includes:

51、根据权利要求 44至 50任一项所述的无线网络控制器，其特征在于，所述非连续载波组合能力包括：所述 UE支持的连续载波块的大小和 /或所述 UE支持的连续载波块之间的间隔区域的大小。 51. The radio network controller according to any one of claims 44 to 50, wherein the discontinuous carrier combination capability includes: the size of the continuous carrier blocks supported by the UE and/or the size of the continuous carrier blocks supported by the UE. The size of the spacing area between consecutive carrier blocks.