WO2012092825A1

WO2012092825A1 - Method and device for processing capability of user equipment

Info

Publication number: WO2012092825A1
Application number: PCT/CN2011/084918
Authority: WO
Inventors: 梁靖; 赵亚利
Original assignee: 大唐移动通信设备有限公司
Priority date: 2011-01-06
Filing date: 2011-12-29
Publication date: 2012-07-12
Also published as: CN102045763B; CN102045763A

Abstract

Disclosed are a method and device for processing the capacity of user equipment, wherein the method includes: notifying, by the user equipment, the network side whether or not it itself has the capability of supporting the aggregation of different TTD uplink/downlink subframe configuration carriers; or notifying, by the user equipment, the network side the capability information thereof. In the embodiments of the present invention, the network side can learn the information about whether or not the user equipment has the capability of supporting the aggregation of different TTD uplink/downlink configuration carriers and enable the user equipment to operate in this scenario.

Description

一种用户设备能力的处理方法和设备本申请要求于 2011 年 1 月 6 日提交中国专利局，申请号为 201110001886.8,发明名称为 "一种用户设备能力的处理方法和设备" 的中国专利申请的优先权，其全部内容通过引用结合在本申请中。技术领域 The present invention claims to be submitted to the Chinese Patent Office on January 6, 2011, the application number is 201110001886.8, and the invention is entitled "A User Equipment Capability Processing Method and Equipment" Chinese Patent Application Priority is hereby incorporated by reference in its entirety. Technical field

本发明涉及通信技术领域，尤其涉及一种用户设备能力的处理方法和设备。背景技术 The present invention relates to the field of communications technologies, and in particular, to a processing method and apparatus for user equipment capabilities. Background technique

( 1 )载波聚合技术 (1) Carrier aggregation technology

在 LTE ( Long Term Evolution, 长期演进） ***及以前的无线通信***中，一个小区中只有一个载波，在 LTE ***中最大带宽为 20MHz , 如图 1 所示的 LTE 小区的载波分布示意图。在 LTE-A ( LTE- Advanced , 高级 LTE ) ***中， ***的峰值速率比 LTE*** 有巨大的提高，要求达到下行 lGbps, 上行 500Mbps。 In the LTE (Long Term Evolution) system and the previous wireless communication system, there is only one carrier in one cell, and the maximum bandwidth in the LTE system is 20 MHz, as shown in Figure 1 for the carrier distribution of the LTE cell. In the LTE-A (LTE-Advanced, Advanced LTE) system, the peak rate of the system is greatly improved compared with the LTE system, and it is required to achieve downlink lGbps and uplink 500 Mbps.

如果只使用一个最大带宽为 20MHz的载波是无法达到峰值速率要求的，因此， LTE-A***需要扩展 UE ( User Equipment,用户设备 ) 可以使用的带宽，由此引入了 CA ( Carrier Aggregation, 载波聚合）技术，即将同一个 eNB (基站）下的多个连续或不连续的载波聚合在一起，同时为 UE提供服务，以提供 UE所需的速率。这些聚合在一起的载波又称为 CC ( component carrier, 成员载波），每个小区均可是一个成员载波，不同 eNB 下的小区（成员载波）不能聚合。而为了保证 LTE的 UE能在每一个聚合的载波下工作，每个载波最大不超过 20MHz, 如图 2所示的 LTE-A***的 CA技术示意图。图 2所示的 LTE-A的基站下有 4个可聚合的载波，基站可同时在 4个载波上和 UE进行数据传输，以提高***吞吐量。 If only one carrier with a maximum bandwidth of 20 MHz is used, the peak rate requirement cannot be met. Therefore, the LTE-A system needs to extend the bandwidth that can be used by the user equipment (UE), thereby introducing CA (Carrier Aggregation). The technology is to aggregate multiple consecutive or discontinuous carriers under the same eNB (base station) while providing services to the UE to provide the rate required by the UE. These aggregated carriers are also called CC (component carriers), and each cell can be a member carrier. Cells (member carriers) under different eNBs cannot be aggregated. In order to ensure that the LTE UE can work under each aggregated carrier, each carrier does not exceed 20 MHz at most, as shown in Figure 2 for the CA technology diagram of the LTE-A system. The LTE-A base station shown in Figure 2 has four aggregatable carriers, and the base station can perform data transmission with the UE on four carriers at the same time to improve system throughput.

( 2 ) LTE***中的 TDD ( Time Division Duplex, 时分双工）子帧配置 (2) TDD (Time Division Duplex) in LTE system Frame configuration

在 LTE***中， FDD ( Frequency Division Duplex, 频分双工）和 TDD模式均是一个无线帧 10ms, —个子帧 lms。对于每个 TDD 的无线帧，定义了七种 TDD上 /下行子帧配置，如表 1所示，其中 D 代表 DL子帧， U代表 UL子帧， S代表 TDD***的特殊子帧，例如，配置 1为 DSUUDDSUUD。 In the LTE system, the FDD (Frequency Division Duplex) and TDD modes are each a radio frame of 10 ms, which is a subframe lms. For each TDD radio frame, seven TDD uplink/downlink subframe configurations are defined, as shown in Table 1, where D represents a DL subframe, U represents a UL subframe, and S represents a special subframe of the TDD system, for example, Configuration 1 is DSUUDDSUUD.

TDD上 /下行子帧配置 TDD uplink/downlink subframe configuration

( 3 ) 不同 TDD上 /下行子帧配置的聚合场景 (3) Aggregation scenarios for different TDD uplink/downlink subframe configurations

LTE Rel-11或以后版本的***中，为了避免对其他 TDD***的干扰，位于不同 band (频带）的 LTE小区可能使用不同的 TDD上 / 下行子帧配置，如图 3所示的 LTE-A CA的 UE的聚合的不同 band 使用不同 TDD上 /下行子帧配置示意图。其中，载波 1和载波 2位于 Band A, 载波 3位于 Band B, 小区 1、小区 2和小区 3分别是载波 1、载波 2和载波 3上的小区。小区 1和小区 2的 TDD上 /下行配置相同，均为配置 1 ,小区 3的 TDD上 /下行子帧配置与小区 1和小区 2不同，为配置 2。如果 UE希望利用这三个小区进行载波聚合，则会出现 UE 所有聚合小区的 TDD上 /下行配置不同的情况。需要说明的是，如果一个 UE可以聚合多个 band, 而且不同 band可以支持不同 TDD上 / 下行子帧配置，则一般来说， UE会针对不同 band使用不同的收发机。在实现本发明的过程中，发明人发现现有技术中至少存在以下问题： In LTE Rel-11 or later systems, in order to avoid interference with other TDD systems, LTE cells located in different bands may use different TDD uplink/downlink subframe configurations, as shown in Figure 3 for LTE-A. The different bands of the aggregation of the UE of the CA use different TDD uplink/downlink subframe configuration diagrams. Wherein, carrier 1 and carrier 2 are located in Band A, carrier 3 is located in Band B, and cell 1, cell 2, and cell 3 are cells on carrier 1, carrier 2, and carrier 3, respectively. The TDD uplink/downlink configuration of the cell 1 and the cell 2 are the same, and both are configuration 1. The TDD uplink/downlink subframe configuration of the cell 3 is different from that of the cell 1 and the cell 2, and is configuration 2. If the UE wants to use these three cells for carrier aggregation, there may be cases where the TDD uplink/downlink configurations of all the aggregated cells of the UE are different. It should be noted that, if one UE can aggregate multiple bands, and different bands can support different TDD uplink/downlink subframe configurations, in general, the UE uses different transceivers for different bands. In the process of implementing the present invention, the inventors have found that at least the following problems exist in the prior art:

现有技术中 UE只能对 TDD上 /下行子帧配置相同的小区进行聚合，在 LTE Rel-11 , 针对 UE聚合的不同载^频带可能引入不同的 TDD上 /下行子帧配置，现有技术无法让 UE在这种场景下工作。 In the prior art, the UE can only perform the aggregation of the same cell in the TDD uplink/downlink subframe configuration. In LTE Rel-11, different TDD uplink/downlink subframe configurations may be introduced for the different carrier bands of the UE aggregation. It is not possible for the UE to work in this scenario.

发明内容 Summary of the invention

本发明实施例提供一种用户设备能力的处理方法和设备，以使网络能够获知用户设备是否支持聚合不同 TDD上 /下行配置载波的能力信息。 The embodiments of the present invention provide a method and a device for processing user equipment capabilities, so that the network can know whether the user equipment supports capability information for aggregating different TDD uplink/downlink configuration carriers.

为了达到上述目的，本发明实施例提供一种用户设备能力的处理方法，包括： In order to achieve the above object, an embodiment of the present invention provides a method for processing user equipment capabilities, including:

用户设备将自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者， The user equipment notifies the network side whether it supports the ability to aggregate carriers in different TDD uplink/downlink subframes; or

用户设备将自身的能力信息通知给网络侧。 The user equipment notifies the network side of its own capability information.

本发明实施例提供一种用户设备能力的处理方法，包括：网络侧接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息；或者， An embodiment of the present invention provides a method for processing a user equipment capability, including: receiving, by the network side, whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframes to configure a carrier wave; or

网络侧接收用户设备的能力信息，并才艮据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The network side receives the capability information of the user equipment, and determines whether the user equipment supports the ability to aggregate carriers in different TDD uplink/downlink subframes according to the capability information.

本发明实施例提供一种用户设备，包括： An embodiment of the present invention provides a user equipment, including:

发送模块，用于将是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者，将用户设备的能力信息通知给网络侧。 And a sending module, configured to notify the network side of the capability of the carrier to be configured to aggregate the different TDD uplink/downlink subframes; or notify the network side of the capability information of the user equipment.

本发明实施例提供一种网络侧设备，包括： The embodiment of the invention provides a network side device, including:

接收模块，用于接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息；或者，接收用户设备的能力信息； a receiving module, configured to receive information about whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframes to configure a carrier; or, receiving capability information of the user equipment;

确定模块，用于根据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 a determining module, configured to determine, according to the capability information, whether the user equipment supports aggregation The ability to configure a carrier with the TDD uplink/downlink subframe.

与现有技术相比，本发明至少具有以下优点： Compared with the prior art, the present invention has at least the following advantages:

网络侧能够获知用户设备是否支持聚合不同 TDD上 /下行配置载波的能力信息，并使用户设备可以在这种场景下工作。附图说明 The network side can know whether the user equipment supports the capability information for aggregating different TDD uplink/downlink configuration carriers, and enables the user equipment to work in such a scenario. DRAWINGS

图 1为现有技术中 LTE小区的载波分布示意图； 1 is a schematic diagram of carrier distribution of an LTE cell in the prior art;

图 2为现有技术中 LTE-A***的 CA技术示意图； 2 is a schematic diagram of a CA technology of an LTE-A system in the prior art;

图 3为现有技术中 LTE-A CA的 UE的聚合的不同 band使用不同 FIG. 3 is a different aggregation of different UEs of the LTE-A CA in the prior art.

TDD上 /下行子帧配置示意图； Schematic diagram of TDD uplink/downlink subframe configuration;

图 4 为本发明实施例一提供的一种用户设备能力的处理方法流程示意图； 4 is a schematic flowchart of a method for processing user equipment capabilities according to Embodiment 1 of the present invention;

图 5 为本发明实施例二提供的一种用户设备能力的处理方法流程示意图； FIG. 5 is a schematic flowchart of a method for processing user equipment capabilities according to Embodiment 2 of the present invention; FIG.

图 6为本发明实施例提供的一种用户设备结构示意图；图 7为本发明实施例提供的一种网络侧设备结构示意图。具体实施方式 FIG. 6 is a schematic structural diagram of a user equipment according to an embodiment of the present invention; FIG. 7 is a schematic structural diagram of a network side device according to an embodiment of the present invention. detailed description

下面结合附图和实施例，对本发明的具体实施方式作进一步详细描述： The specific embodiments of the present invention are further described in detail below with reference to the accompanying drawings and embodiments.

在 LTE-A***中引入了 CA技术， UE可以同时聚合多个载波进行工作，对于 TDD模式的 UE, 在 LTE Rd-10仅能聚合上 /下行子帧配置相同的载波，由于可聚合的载波可能归属不同频带，且归属的频带间距可能较大，而这些频带可能是和其它***（如 TD-SCDMA系统）共享或者相邻的，因此为了避免不同***之间的上 /下行交叉干扰，在 LTE Rel-11 , 针对 UE聚合的不同载^频带可能引入不同的 TDD上 /下行子帧配置。 The CA technology is introduced in the LTE-A system, and the UE can simultaneously aggregate multiple carriers to work. For the TDD mode UE, only the uplink/downlink subframes can be configured with the same carrier in the LTE Rd-10, due to the aggregated carrier. May belong to different frequency bands, and the frequency band spacing of the home may be large, and these frequency bands may be shared or adjacent to other systems (such as TD-SCDMA systems), so in order to avoid uplink/downlink cross interference between different systems, LTE Rel-11, different TDD uplink/downlink subframe configurations may be introduced for different carrier bands of UE aggregation.

为了保证 UE在不同载波 /频带上配置不同 TDD上 /下行子帧配置的情况下仍可正常工作， UE需要支持这种配置，而网络侧需要获取 UE的这种能力，现有技术中并没有相关的 UE能力获取和使用方法。针对上述问题，本发明实施例提供一种用户设备能力的处理方法和设备，以使网络侧获知 UE是否支持不同 TDD上 /下行子帧配置的能力信息，并使 UE可以正常工作。 In order to ensure that the UE configures different TDD uplink/downlink subframe configurations on different carriers/bands The UE still needs to support this configuration, and the network needs to acquire the capability of the UE. There is no related UE capability acquisition and usage method in the prior art. For the above problem, the embodiments of the present invention provide a method and a device for processing user equipment capabilities, so that the network side can learn whether the UE supports the capability information of different TDD uplink/downlink subframe configurations, and enables the UE to work normally.

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，所描述的实施例仅仅是本发明的一部分实施例，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。实施例一 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 only 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 creative efforts are within the scope of the present invention. Embodiment 1

本发明实施例一提供一种用户设备能力的处理（如 UE能力的获取及使用）方法，如图 4所示，该方法包括以下步骤： The first embodiment of the present invention provides a method for processing user equipment capabilities (such as UE capability acquisition and usage). As shown in FIG. 4, the method includes the following steps:

步骤 401 , UE根据预设策略和自身的能力信息确定自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力。其中，该预设策略可以为预先规定的，包括但不限于：可使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，可使用不同 TDD上 /下行子帧配置的载波聚合场景。该能力信息包括但不限于以下信息之一或任意组合：用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息等。 Step 401: The UE determines, according to the preset policy and its own capability information, whether it supports the ability to aggregate carriers configured by different TDD uplink/downlink subframes. The preset policy may be pre-defined, including but not limited to: a minimum band interval that may be configured using different TDD uplink/downlink subframes; or a carrier aggregation scenario configured with different TDD uplink/downlink subframe configurations. The capability information includes, but is not limited to, one or any combination of the following information: band information, frequency point information, bandwidth information, number of receivers, and the like supported by the user equipment.

具体的， UE可根据预设策略，并结合自身的射频设备（如接收机）、所支持的频带（频点）、带宽等信息，确定是否具备支持聚合不同 TDD上 /下行子帧配置的载波的 UE能力。 Specifically, the UE may determine, according to a preset policy, a carrier that supports aggregation of different TDD uplink/downlink subframe configurations, according to information of its own radio equipment (such as a receiver), a supported frequency band (frequency point), and bandwidth. UE capabilities.

步骤 402, 用户设备将自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧。其中，用户设备可通过 RRC ( Radio Resource Control,无线资源控制）过程将自身是否支持聚合不同 TDD 上 /下行子帧配置载波的能力通知给网络侧。该 RRC过程可以利用现有的 UE能力查询过程，也可以是新增的 RRC过程。 Step 402: The user equipment notifies the network side of the capability of the carrier to support different TDD uplink/downlink subframe configuration carriers. The user equipment can notify the network side of the ability of the RRC (Radio Resource Control) process to support the aggregation of different TDD uplink/downlink subframes. The RRC procedure may utilize an existing UE capability inquiry procedure or a new RRC procedure.

本发明实施例中，可通过第一标识（如某个 bit为 0 )表示支持聚合不同 TDD上 /下行子帧配置载波的能力、通过第二标识（如某个 bit为 1 )表示不支持聚合不同 TDD上 /下行子帧配置载波的能力；或者，通过第三标识（如某个 bit为 0 )表示支持某个 band和其他 band 聚合不同 TDD上 /下行子帧配置载波、通过第四标识（如某个 bit为 1 ) 表示不支持所述 band和其他 band聚合不同 TDD上 /下行子帧配置载波；或者，通过第五标识（如某个 bit为 0 )表示支持某个 band组合聚合不同 TDD上 /下行子帧配置载波、通过第六标识（如某个 bit为 1 ) 表示不支持所述 band组合聚合不同 TDD上 /下行子帧配置载波；或者，通过第七标识（如某个 bit为 0 )表示支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识（如某个 bit为 1 )表示不支持所述聚合场景聚合不同 TDD上 /下行子帧配置载波。 In the embodiment of the present invention, the first identifier (such as a bit is 0) indicates support. The ability to aggregate carriers in different TDD uplink/downlink subframes, and the ability to aggregate carriers in different TDD uplink/downlink subframes by using the second identifier (for example, a bit is 1); or, by using a third identifier (such as a certain identifier) If the bit is 0, it means that a certain band and other bands are aggregated to different TDD uplink/downlink subframe configuration carriers, and the fourth identifier (such as a bit is 1) indicates that the band and other bands are not aggregated on different TDDs. The downlink subframe is configured with a carrier; or the fifth identifier (for example, a bit is 0) indicates that a certain band combination is used to aggregate different TDD uplink/downlink subframe configuration carriers, and the sixth identifier (such as a bit is 1) is represented by The above-mentioned band combination is not used to aggregate different TDD uplink/downlink subframe configuration carriers. Alternatively, the seventh identifier (for example, a certain bit is 0) indicates that an aggregation scenario is supported to aggregate different TDD uplink/downlink subframe configuration carriers. The eight identifiers (such as a bit is 1) indicate that the aggregation scenario is not supported by the aggregation of different TDD uplink/downlink subframes.

步骤 403 , 网络侧接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息。其中，网络侧可通过 RRC过程接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息。 Step 403: The network side receives information about whether the user equipment supports the capability of aggregating carriers of different TDD uplink/downlink subframes. The network side may receive, by using an RRC procedure, information about whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes.

步骤 404, 如果用户设备支持聚合不同 TDD上 /下行子帧配置载波的能力，网络侧为用户设备配置可聚合的不同 TDD上 /下行子帧配置的载波集合。 Step 404: If the user equipment supports the ability to aggregate carriers in different TDD uplink/downlink subframes, the network side configures a carrier set of different TDD uplink/downlink subframe configurations that can be aggregated for the user equipment.

具体的，网络侧可根据 UE能力，并结合其他信息（如***需求或者限制 ) 为 UE配置可以聚合的不同 TDD上 /下行子帧配置的载波集合。实施例二 Specifically, the network side may configure a carrier set configured by different TDD uplink/downlink subframes that can be aggregated according to UE capabilities and combined with other information (such as system requirements or restrictions). Embodiment 2

本发明实施例二提供一种用户设备能力的处理方法，如图 5 所示，该方法包括以下步骤： The second embodiment of the present invention provides a method for processing user equipment capabilities. As shown in FIG. 5, the method includes the following steps:

步骤 501 , UE将自身的能力信息通知给网络侧。其中，该能力信息包括但不限于以下信息之一或任意组合：用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息等。 Step 501: The UE notifies the network side of its own capability information. The capability information includes, but is not limited to, one or any combination of the following information: frequency band information, frequency point information, bandwidth information, number of receivers, and the like supported by the user equipment.

本发明实施例中，用户设备可通过 RRC过程将自身的能力信息通知给网络侧，该 RRC过程可以利用现有的 UE能力查询过程，也可以是新增的 RRC过程。 In the embodiment of the present invention, the user equipment may notify its own capability information to the network side through an RRC process, and the RRC process may utilize an existing UE capability query process, It can be a new RRC process.

步骤 502, 网络侧通过 RRC过程接收用户设备的能力信息。步骤 503, 网络侧根据该能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 Step 502: The network side receives capability information of the user equipment by using an RRC process. Step 503: The network side determines, according to the capability information, whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframes to configure carriers.

具体的，网络侧可根据预设策略和该能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力；网络侧可根据预设策略、用户设备的能力信息、网络侧的能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。其中，该预设策略可以为预先规定的，包括但不限于：可使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，可使用不同 TDD上 /下行子帧配置的载波聚合场景。该网络侧的能力信息包括：网络侧是否支持聚合不同 TDD 上 /下行子帧配置的载波。 Specifically, the network side may determine, according to the preset policy and the capability information, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes; the network side may be based on a preset policy, capability information of the user equipment, and network capability. The information determines whether the user equipment supports the ability to aggregate different TDD uplink/downlink subframe configuration carriers. The preset policy may be pre-defined, including but not limited to: a minimum band interval that may be configured using different TDD uplink/downlink subframes; or a carrier aggregation scenario configured with different TDD uplink/downlink subframe configurations. The capability information on the network side includes: Whether the network side supports aggregation of carriers configured with different TDD uplink/downlink subframes.

步骤 504, 如果用户设备支持聚合不同 TDD上 /下行子帧配置载波的能力，网络侧为用户设备配置可聚合的不同 TDD上 /下行子帧配置的载波集合。 Step 504: If the user equipment supports the ability to aggregate carriers in different TDD uplink/downlink subframes, the network side configures a carrier set of different TDD uplink/downlink subframe configurations that can be aggregated for the user equipment.

具体的，网络侧可根据 UE能力，并结合其他信息（如***需求或者限制 ) 为 UE配置可以聚合的不同 TDD上 /下行子帧配置的载波集合。实施例三 Specifically, the network side may configure a carrier set configured by different TDD uplink/downlink subframes that can be aggregated according to UE capabilities and combined with other information (such as system requirements or restrictions). Embodiment 3

本实施例中，从硬件能力和需求等角度，协议预先规定可以使用不同 TDD上 /下行子帧配置的最小频带间隔为 100MHz。 UE有两个接收机，接收机 1支持 bandl , 接收机 2支持 band2, 二个 band的频率间隔为 200MHz。 UE可同时聚合 bandl中的带宽为 20MHz的载波和 band2内的带宽为 20MHz的载波进行载波聚合传输。 In this embodiment, from the perspective of hardware capabilities and requirements, the protocol pre-specifies that the minimum band spacing that can be configured using different TDD uplink/downlink subframes is 100 MHz. The UE has two receivers, the receiver 1 supports bandl, the receiver 2 supports band2, and the two bands have a frequency interval of 200 MHz. The UE can simultaneously aggregate carriers with a bandwidth of 20 MHz in band1 and carriers with a bandwidth of 20 MHz in band2 for carrier aggregation transmission.

UE根据最小频带间隔的需求（ 100MHz )以及自身的射频设备能力（支持 bandl和 band2聚合，二者间隔为 200MHz ), 确定自身支持聚合不同 TDD上 /下行配置的载波。例如， bandl中的带宽为 20MHz 的小区 1和 band2中的带宽为 20MHz的小区 2, 可以是不同的 TDD 上 /下行配置，小区 1为 TDD配置 1 , 小区 2为 TDD配置 2, 则 UE 能力中会指示 UE可聚合小区 1和小区 2。 The UE determines that it supports the aggregation of carriers of different TDD uplink/downlink configurations according to the requirement of the minimum frequency band interval (100 MHz) and its own radio equipment capability (supporting bandl and band2 aggregation, the interval between the two is 200 MHz). For example, cell 2 in band 1 with bandwidth of 20 MHz and cell 2 with bandwidth of 20 MHz in band 2 may be different TDDs. In the uplink/downlink configuration, cell 1 is TDD configuration 1 and cell 2 is TDD configuration 2, and the UE capability indicates that the UE can aggregate cell 1 and cell 2.

进一步的， UE确定自己可以聚合这两个 band上的 TDD上 /下行配置不同的载波，并将其包含在 UE 能力中通知给网络。其中， UE 能力中的指示可以是一个 BOOLEAN型的变量， TRUE表示支持， FALSE表示不支持。或者是一个 bit, "1" 表示支持， "0" 表示不支持。 UE能力的格式可以如表 2所示： Further, the UE determines that it can aggregate the TDD uplink/downlink configuration on the two bands to configure different carriers, and includes it in the UE capability to notify the network. The indication in the UE capability may be a BOOLEAN type variable, TRUE indicates support, and FALSE indicates no support. Or a bit, "1" means support, "0" means not supported. The format of the UE capability can be as shown in Table 2:

表 2 Table 2

本发明实施例中， UE可以利用现有的 UE能力查询过程通知网络该能力；也可以使用新的 RRC过程，在网络需要该能力时向网络上报该能力。 In the embodiment of the present invention, the UE may use the existing UE capability query process to notify the network of the capability. The new RRC process may also be used to report the capability to the network when the network needs the capability.

进一步的，网络侧（如基站）根据上报的 UE能力，为 UE配置可以聚合的不同 TDD 上 /下行配置的载波集合，即为 UE 配置聚合 bandl的小区 1和 band2的小区 2, 并且在这两个小区上调度 UE进行后续工作。实施例四 Further, the network side (such as a base station) configures, according to the reported UE capability, a set of carriers of different TDD uplink/downlink configurations that can be aggregated for the UE, that is, configures the cell 1 of the aggregated band 1 and the cell 2 of the band 2 for the UE, and The UE is scheduled to perform subsequent work on the cells. Embodiment 4

本实施例中，从硬件能力和需求等角度，协议预先规定可以使用不同 TDD上 /下行子帧配置的最小频带间隔为 100MHz。 UE有两个接收机，接收机 1支持 bandl , 接收机 2支持 band2, 二个 band的频率间隔为 200MHz。 UE可同时聚合 bandl中的带宽为 20MHz的载波和 band2内的带宽为 20MHz的载波进行载波聚合传输。 UE将以上信息包含在 UE能力中通知给网络， UE能力的格式可以如表 3所示：表 3 In this embodiment, from the perspective of hardware capabilities and requirements, the protocol pre-specifies that the minimum band spacing that can be configured using different TDD uplink/downlink subframes is 100 MHz. The UE has two receivers, the receiver 1 supports bandl, the receiver 2 supports band2, and the two bands have a frequency interval of 200 MHz. The UE can simultaneously aggregate carriers with a bandwidth of 20 MHz in band1 and carriers with a bandwidth of 20 MHz in band2 for carrier aggregation transmission. The UE notifies the network of the above information in the UE capability, and the format of the UE capability can be as shown in Table 3: Table 3

UE支持的聚合频带组合可以聚合的带宽 Bandl +Band2 20MHz ( bandl ) +20MHz The aggregation band supported by the UE can aggregate the bandwidth Bandl + Band2 20MHz ( bandl ) +20MHz

( band2 ) (band2)

进一步的，网络根据最小频带间隔的需求（100MHz ) 以及 UE 上报的 UE能力（支持 bandl和 band2聚合 ),同时结合 bandl和 band2 的频率间隔为 200MHz, 确定该 UE支持聚合不同 TDD上 /下行配置的载波。例如， bandl中的带宽为 20MHz的小区 1和 band2中的带宽为 20MHz的小区 2, 可以是不同的 TDD上 /下行配置，小区 1为 TDD配置 1 , 小区 2为 TDD配置 2, UE可以聚合。 Further, the network is configured according to the minimum bandwidth interval requirement (100 MHz) and the UE reporting capability (supporting band1 and band2 aggregation), and the frequency interval between the band1 and the band2 is 200 MHz, and determining that the UE supports aggregation of different TDD uplink/downlink configurations. Carrier. For example, a cell 2 with a bandwidth of 20 MHz in band 1 and a cell 2 with a bandwidth of 20 MHz in band 2 may be different TDD uplink/downlink configurations, cell 1 is TDD configuration 1 and cell 2 is TDD configuration 2, and UEs may be aggregated.

基站根据上报的 UE能力确定 UE可以聚合 bandl和 band2上的不同 TDD配置小区（小区 1和小区 2 ), 之后结合基站自身能力也支持 bandl和 band2聚合，为 UE配置可以聚合的不同 TDD上 /下行配置的载波集合，即为 UE配置聚合 bandl的小区 1和 band2的小区 2, 并且在这两个小区上调度 UE进行后续工作。实施例五 The base station determines, according to the reported UE capability, that the UE can aggregate different TDD configuration cells (cell 1 and cell 2) on the band1 and the band2, and then supports the aggregation of the band1 and the band2 in combination with the capability of the base station, and configures different TDD uplink/downlinks that can be aggregated for the UE. The configured carrier set, that is, the cell 1 of the cell 1 and the band 2 of the aggregated band1 is configured for the UE, and the UE is scheduled to perform subsequent operations on the two cells. Embodiment 5

本实施例中，从硬件能力和需求等角度，协议预先规定可以使用不同 TDD上 /下行子帧配置的载波聚合场景：对于 TDD的 UE, 可以聚合 bandl和 band5上的使用不同 TDD上 /下行子帧配置的载波。 UE 有两个接收机，接收机 1支持 bandl , 接收机 2支持 band5； UE可以同时聚合 bandl 中的带宽为 20MHz 的载波和 band5 内的带宽为 In this embodiment, from the perspective of hardware capabilities and requirements, the protocol pre-specifies carrier aggregation scenarios that can be configured with different TDD uplink/downlink subframes: For TDD UEs, the different TDD uplink/downlink sub-bands can be aggregated on band1 and band5. The carrier of the frame configuration. The UE has two receivers, the receiver 1 supports bandl, and the receiver 2 supports band5; the UE can simultaneously aggregate the bandwidth of the carrier with a bandwidth of 20 MHz in band1 and the bandwidth in band5.

20MHz的载波进行载波聚合传输。 The 20 MHz carrier performs carrier aggregation transmission.

UE根据载波聚合场景（对于 TDD的 UE,可以聚合 bandl和 band5 上的使用不同 TDD上 /下行子帧配置的载波）以及自身的射频设备能力（支持 bandl和 band5聚合 ) , 确定自身支持聚合不同 TDD上 /下行配置的载波。例如， bandl 中的带宽为 20MHz的小区 1和 band5 中的带宽为 20MHz的小区 2,可以是不同的 TDD上 /下行配置，小区 1为 TDD配置 1 , 小区 2为 TDD配置 2, 则 UE能力中会指示 UE可以聚合小区 1和小区 2。 The UE determines that it supports aggregation of different TDDs according to the carrier aggregation scenario (for TDD UEs, it can aggregate carriers configured on different TDD uplink/downlink subframes on band1 and band5) and its own radio equipment capabilities (supporting bandl and band5 aggregation). Carrier for uplink/downlink configuration. For example, the cell 2 in the band 1 with the bandwidth of 20 MHz and the cell 2 with the bandwidth of 20 MHz in the band 5 may be different TDD uplink/downlink configurations, the cell 1 is TDD configuration 1 and cell 2 is TDD configuration 2. The UE capability indicates that the UE can aggregate cell 1 and cell 2.

UE确定自身可以聚合这两个 band上的 TDD上 /下行配置不同的载波，将其包含在 UE能力中通知网络。 UE能力中的指示可以是一个 BOOLEAN型的变量， TRUE表示支持， FALSE表示不支持；或者是一个 bit, "1" 表示支持， "0" 表示不支持。 UE能力的格式可以 ^口表 4所示。 The UE determines that it can aggregate the carriers with different TDD uplink/downlink configurations on the two bands, and includes them in the UE capability to notify the network. The indication in the UE capability may be a BOOLEAN type variable, TRUE indicates support, FALSE indicates no support; or is a bit, "1" indicates support, and "0" indicates no support. The format of the UE capability can be as shown in Table 4.

表 4 Table 4

进一步的，网络侧（如基站）根据上报的 UE能力，为 UE配置可以聚合的不同 TDD 上 /下行配置的载波集合，即为 UE 配置聚合 bandl的小区 1和 band5的小区 2, 并且在这两个小区上调度 UE进行后续工作。实施例六 Further, the network side (such as the base station) configures, according to the reported UE capability, the carrier set of the different TDD uplink/downlink configurations that can be aggregated for the UE, that is, configures the cell 1 of the aggregated band 1 and the cell 2 of the band 5 for the UE, and The UE is scheduled to perform subsequent work on the cells. Embodiment 6

本实施例中，从硬件能力和需求等角度，协议预先规定可以使用不同 TDD上 /下行子帧配置的载波聚合场景：对于 TDD的 UE, 可以聚合 bandl和 band5上的使用不同 TDD上 /下行子帧配置的载波。 UE 有两个接收机，接收机 1支持 bandl , 接收机 2支持 band5; UE可以同时聚合 bandl 中的带宽为 20MHz 的载波和 band5 内的带宽为 20MHz的载波进行载波聚合传输。 UE将以上信息包含在 UE能力中通知网络， UE能力的格式可以如表 5所示： In this embodiment, from the perspective of hardware capabilities and requirements, the protocol pre-specifies carrier aggregation scenarios that can be configured with different TDD uplink/downlink subframes: For TDD UEs, the different TDD uplink/downlink sub-bands can be aggregated on band1 and band5. The carrier of the frame configuration. The UE has two receivers, the receiver 1 supports band1, and the receiver 2 supports band5. The UE can simultaneously aggregate carrier with bandwidth of 20MHz in band1 and carrier with bandwidth of 20MHz in band5 for carrier aggregation transmission. The UE includes the above information in the UE capability to notify the network, and the format of the UE capability can be as shown in Table 5:

表 5 UE支持的聚合频带组合可以聚合的带宽table 5 The aggregation band supported by the UE can aggregate the bandwidth

Bandl+Band5 20MHz ( bandl ) +20MHz Bandl+Band5 20MHz (bandl) +20MHz

( band5 ) (band5)

进一步的，网络根据载波聚合场景（对于 TDD的 UE, 可以聚合 bandl和 band5上的使用不同 TDD上 /下行子帧配置的载波），同时结合 UE能力中的 UE支持 bandl和 band5聚合，确定该 UE支持聚合不同 TDD上 /下行配置的载波。例如， bandl中的带宽为 20MHz的小区 1和 band5中的带宽为 20MHz的小区 2, 可以是不同的 TDD上 / 下行配置，小区 1为 TDD配置 1 , 小区 2为 TDD配置 2, UE可以聚合。 Further, the network is configured according to the carrier aggregation scenario (for the UE of the TDD, the carrier configured by using different TDD uplink/downlink subframes on the band 1 and the band 5) may be aggregated, and the UE in the UE capability is supported to support the aggregation of the band 1 and the band 5 to determine the UE. Supports aggregation of carriers in different TDD uplink/downlink configurations. For example, the cell 1 in band1 and the cell 2 in band 5 with a bandwidth of 20 MHz may be different TDD uplink/downlink configurations, cell 1 is TDD configuration 1 and cell 2 is TDD configuration 2, and UEs may be aggregated.

基站根据 UE上报的 UE能力确定了 UE可以聚合 bandl和 band5 上的不同 TDD配置小区（小区 1和小区 2 ), 然后结合基站自身能力也支持 bandl和 band5聚合，为 UE配置可以聚合的不同 TDD上 /下行配置的载波集合，即为 UE配置聚合 bandl的小区 1和 band5的小区 2, 并且在这两个小区上调度 UE进行后续工作。实施例七 The base station determines, according to the UE capability reported by the UE, that the UE can aggregate different TDD configured cells (cell 1 and cell 2) on the band1 and the band5, and then supports the aggregation of the band1 and the band5 in combination with the capability of the base station, and configures the different TDDs that can be aggregated for the UE. The carrier set of the downlink/downlink configuration, that is, the cell 2 of the cell 1 and the band 5 of the aggregated band1 is configured for the UE, and the UE is scheduled to perform subsequent operations on the two cells. Example 7

基于与上述方法同样的发明构思，本发明实施例中还提供了一种用户设备，如图 6所示，该设备包括： Based on the same inventive concept as the above method, the embodiment of the present invention further provides a user equipment. As shown in FIG. 6, the device includes:

发送模块 11 ,用于将是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者，将用户设备的能力信息通知给网络侧。 The sending module 11 is configured to notify the network side of whether the capability of the carrier to support the different TDD uplink/downlink subframes is configured, or to notify the network side of the capability information of the user equipment.

确定模块 12, 用于根据预设策略和用户设备的能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The determining module 12 is configured to determine, according to the preset policy and the capability information of the user equipment, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes.

本发明实施例中，所述预设策略包括：可使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，可使用不同 TDD上 /下行子帧配置的载波聚合场景。所述能力信息包括以下信息之一或任意组合：所述用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息。 In the embodiment of the present invention, the preset policy includes: a minimum frequency band interval that can be configured by using different TDD uplink/downlink subframes; or a carrier aggregation scenario configured by using different TDD uplink/downlink subframes. The capability information includes one or any combination of the following information: frequency band information, frequency point information, bandwidth information, and number of receivers supported by the user equipment.

所述发送模块 11 , 具体用于通过 RRC过程将自身是否支持聚合不同 TDD 上 /下行子帧配置载波的能力通知给网络侧；或者，通过 RRC过程将自身的能力信息通知给网络侧。 The sending module 11 is specifically configured to notify the network side of the capability of the carrier to support the aggregation of the TDD uplink/downlink subframes by using the RRC procedure; or notify the network side of the capability information by using the RRC procedure.

本发明实施例中，可通过第一标识表示支持聚合不同 TDD 上 / 下行子帧配置载波的能力、通过第二标识表示不支持聚合不同 TDD 上 /下行子帧配置载波的能力；或者，通过第三标识表示支持某个 band 和其他 band聚合不同 TDD上 /下行子帧配置载波、通过第四标识表示不支持所述 band和其他 band聚合不同 TDD上 /下行子帧配置载波；或者，通过第五标识表示支持某个 band组合聚合不同 TDD上 /下行子帧配置载波、通过第六标识表示不支持所述 band组合聚合不同 TDD上 /下行子帧配置载波；或者，通过第七标识表示支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识表示不支持所述聚合场景聚合不同 TDD上 /下行子帧配置载波。 In the embodiment of the present invention, the capability of supporting the aggregation of different TDD uplink/downlink subframes by the first identifier may be indicated by the first identifier, and the capability of configuring the carrier by different uplink/downlink subframes by the second identifier may be indicated by the second identifier; or The third identifier indicates that a certain band and other bands are aggregated to different TDD uplink/downlink subframe configuration carriers, and the fourth identifier indicates that the band and other bands are not aggregated to configure different TDD uplink/downlink subframe configuration carriers; or, through the fifth The identifier indicates that a certain band combination is used to aggregate different TDD uplink/downlink subframe configuration carriers, and the sixth identifier indicates that the band combination is not supported to aggregate different TDD uplink/downlink subframe configuration carriers; or The aggregation scenario aggregates different TDD uplink/downlink subframe configuration carriers, and the eighth identifier indicates that the aggregation scenario is not supported to aggregate different TDD uplink/downlink subframe configuration carriers.

其中，本发明实施例的装置的各个模块可以集成于一体，也可以分离部署。上述模块可以合并为一个模块，也可以进一步拆分成多个子模块。实施例八 The modules of the device in the embodiment of the present invention may be integrated into one module or may be separately deployed. The above modules can be combined into one module, or they can be further split into multiple sub-modules. Example eight

基于与上述方法同样的发明构思，本发明实施例中还提供了一种网络侧设备，如图 7所示，该设备包括： Based on the same inventive concept as the above method, the network side device is further provided in the embodiment of the present invention. As shown in FIG. 7, the device includes:

接收模块 21 ,用于接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息；或者，接收用户设备的能力信息； The receiving module 21 is configured to receive information about whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframes to configure a carrier, or receive capability information of the user equipment;

确定模块 22, 用于根据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The determining module 22 is configured to determine, according to the capability information, whether the user equipment supports the capability of assembling different TDD uplink/downlink subframe configuration carriers.

所述确定模块 22, 具体用于根据预设策略和所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The determining module 22 is specifically configured to determine, according to the preset policy and the capability information, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes.

所述确定模块 22, 具体用于根据预设策略、所述用户设备的能力信息、网络侧的能力信息确定用户设备是否支持聚合不同 TDD上 / 下行子帧配置载波的能力。 The determining module 22 is specifically configured to: according to a preset policy, the capability of the user equipment The capability information and the network side capability information determine whether the user equipment supports the ability to aggregate different TDD uplink/downlink subframe configuration carriers.

本发明实施例中，所述预设策略包括：可使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，可使用不同 TDD上 /下行子帧配置的载波聚合场景。所述用户设备的能力信息包括以下信息之一或任意组合：所述用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息；所述网络侧的能力信息包括：网络侧是否支持聚合不同 TDD上 /下行子帧配置的载波。 In the embodiment of the present invention, the preset policy includes: a minimum frequency band interval that can be configured by using different TDD uplink/downlink subframes; or a carrier aggregation scenario configured by using different TDD uplink/downlink subframes. The capability information of the user equipment includes one or any combination of the following information: frequency band information, frequency point information, bandwidth information, and number of receivers supported by the user equipment; Whether to support the aggregation of carriers in different TDD uplink/downlink subframe configurations.

所述接收模块 21 , 具体用于通过 RRC过程接收用户设备是否支持聚合不同 TDD 上 /下行子帧配置载波的能力的信息；或者，通过 RRC过程接收用户设备的能力信息。 The receiving module 21 is specifically configured to receive, by using an RRC procedure, information about whether the user equipment supports the capability of arranging carriers for different TDD uplink/downlink subframes; or receiving capability information of the user equipment by using an RRC procedure.

该网络侧设备还包括： The network side device further includes:

配置模块 23,用于如果用户设备支持聚合不同 TDD上 /下行子帧配置载波的能力，为所述用户设备配置可聚合的不同 TDD上 /下行子帧配置的载波集合。 The configuration module 23 is configured to configure, for the user equipment, a carrier set configured by different TDD uplink/downlink subframes that can be aggregated if the user equipment supports the capability of aggregating different TDD uplink/downlink subframes.

其中，本发明实施例的装置的各个模块可以集成于一体，也可以分离部署。上述模块可以合并为一个模块，也可以进一步拆分成多个子模块。通过以上的实施方式的描述，本领域的技术人员可以清楚地了解到本发明实施例可借助软件加必需的通用硬件平台的方式来实现，当然也可以通过硬件，但很多情况下前者是更佳的实施方式。基于这样的理解，本发明实施例的技术方案本质上或者说对现有技术做出贡献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的方法。 The modules of the device in the embodiment of the present invention may be integrated into one body or may be separately deployed. The above modules can be combined into one module, or can be further split into multiple sub-modules. Through the description of the above embodiments, those skilled in the art can clearly understand that the embodiments of the present invention can be implemented by means of software plus a necessary general hardware platform, and of course, can also be through hardware, but in many cases, the former is better. Implementation. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied in the form of a software product in essence or in the form of a software product, which is stored in a storage medium and includes a plurality of instructions. A computer device (which may be a personal computer, server, or network device, etc.) is caused to perform the methods described in various embodiments of the present invention.

本领域技术人员可以理解附图只是一个优选实施例的示意图，附图中的模块或流程并不一定是实施本发明所必须的。 A person skilled in the art can understand that the drawings are only a schematic diagram of a preferred embodiment, and the modules or processes in the drawings are not necessarily required to implement the invention.

本领域技术人员可以理解实施例中的装置中的模块可以按照实施例描述进行分布于实施例的装置中，也可以进行相应变化位于不同于本实施例的一个或多个装置中。上述实施例的模块可以合并为一个模块，也可以进一步拆分成多个子模块。 Those skilled in the art can understand that the modules in the apparatus in the embodiments may be distributed in the apparatus of the embodiment according to the description of the embodiments, or may be correspondingly changed in one or more apparatuses different from the embodiment. The modules of the above embodiments may be combined into one module, or may be further split into a plurality of sub-modules.

上述本发明实施例序号仅仅为了描述，不代表实施例的优劣。以上公开的仅为本发明的几个具体实施例，但是，本发明并非局限于此，任何本领域的技术人员能思之的变化都应落入本发明的保护范围。 The serial numbers of the embodiments of the present invention are merely for the description, and do not represent the advantages and disadvantages of the embodiments. The above disclosure is only a few specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be made by those skilled in the art should fall within the protection scope of the present invention.

Claims

权利要求 Rights request

1、一种用户设备能力的处理方法，其特征在于，包括：用户设备将自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者， A method for processing a user equipment capability, the method includes: the user equipment notifying, to the network side, whether the capability of the user equipment to support aggregation of different TDD uplink/downlink subframes is configured; or

2、如权利要求 1所述的方法，其特征在于，所述用户设备将自给网络侧，包括： 2. The method according to claim 1, wherein the user equipment is to be self-supplied to the network side, and includes:

所述用户设备根据预设策略和自身的能力信息确定自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力，并将确定的能力通知给网络侧； The user equipment determines, according to the preset policy and its own capability information, whether it supports the ability to aggregate carriers in different TDD uplink/downlink subframes, and notifies the network side of the determined capability;

其中，所述能力信息包括以下信息之一或任意组合： The capability information includes one or any combination of the following information:

所述用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息。 Band information, frequency point information, bandwidth information, and number of receivers supported by the user equipment.

3、如权利要求 2所述的方法，其特征在于，所述预设策略包括：使用不同 TDD 上 /下行子帧配置的最小频带间隔；或者，使用不同 TDD上 /下行子帧配置的载波聚合场景。 The method according to claim 2, wherein the preset policy comprises: a minimum frequency band interval configured by using different TDD uplink/downlink subframes; or, a carrier aggregation using different TDD uplink/downlink subframe configurations Scenes.

4、如权利要求 1-3任一项所述的方法，其特征在于，该方法进一步包括： 4. The method of any of claims 1-3, wherein the method further comprises:

所述用户设备通过无线资源控制 RRC过程将自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者， The user equipment notifies the network side of the capability of the carrier to support different TDD uplink/downlink subframe configuration carriers through the RRC process; or

所述用户设备通过 RRC过程将自身的能力信息通知给网络侧。 The user equipment notifies the network side of its capability information through an RRC procedure.

5、如权利要求 1-3任一项所述的方法，其特征在于，该方法进一步包括： 5. The method of any of claims 1-3, wherein the method further comprises:

通过第一标识表示支持聚合不同 TDD上 /下行子帧配置载波的能力、通过第二标识表示不支持聚合不同 TDD上 /下行子帧配置载波的能力；或者， The first identifier indicates the capability of supporting the aggregation of different TDD uplink/downlink subframes, and the second identifier indicates that the capability of configuring different carriers for different TDD uplink/downlink subframes is not supported; or

通过第三标识表示支持某个 band和其他 band聚合不同 TDD上 / 下行子帧配置载波、通过第四标识表示不支持所述 band和其他 band 聚合不同 TDD上 /下行子帧配置载波；或者， The third identifier indicates that a certain band and other bands are aggregated on different TDDs. The downlink subframe is configured with a carrier, and the fourth identifier indicates that the band and other bands are not supported to aggregate different TDD uplink/downlink subframe configuration carriers; or

通过第五标识表示支持某个 band组合聚合不同 TDD上 /下行子帧配置载波、通过第六标识表示不支持所述 band组合聚合不同 TDD 上 /下行子帧配置载波；或者， The fifth identifier indicates that a certain band combination is supported to aggregate different TDD uplink/downlink subframe configuration carriers, and the sixth identifier indicates that the band combination is not supported to aggregate different TDD uplink/downlink subframe configuration carriers; or

通过第七标识表示支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识表示不支持所述聚合场景聚合不同 TDD上 / 下行子帧配置载波。 The seventh identifier indicates that a certain aggregation scenario is supported to aggregate different TDD uplink/downlink subframes, and the eighth identifier indicates that the aggregation scenario is not supported to aggregate different TDD uplink/downlink subframe configuration carriers.

6、一种用户设备能力的处理方法，其特征在于，包括：网络侧接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息；或者， A method for processing user equipment capability, comprising: receiving, by the network side, information about whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframes to configure a carrier wave; or

7、如权利要求 6所述的方法，其特征在于，根据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力，包括： The method according to claim 6, wherein the determining, by the capability information, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes, includes:

所述网络侧根据预设策略和所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The network side determines, according to the preset policy and the capability information, whether the user equipment supports the ability to aggregate carriers configured by different TDD uplink/downlink subframes.

8、如权利要求 6所述的方法，其特征在于，根据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力，包括： The method according to claim 6, wherein the determining, by the capability information, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes, includes:

所述网络侧根据预设策略、所述用户设备的能力信息、网络侧的能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力； The network side determines, according to the preset policy, the capability information of the user equipment, and the capability information of the network side, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes.

其中，所述用户设备的能力信息包括以下信息之一或任意组合：所述用户设备所支持的频带信息、频点信息、带宽信息、接收机个数信息； The capability information of the user equipment includes one or any combination of the following information: frequency band information, frequency point information, bandwidth information, and number of receivers supported by the user equipment;

所述网络侧的能力信息包括：网络侧是否支持聚合不同 TDD上 / 下行子帧配置的载波。 The capability information on the network side includes: whether the network side supports aggregation on different TDDs/ Carrier of the downlink subframe configuration.

9、如权利要求 7或 8所述的方法，其特征在于，所述预设策略包括：使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，使用不同 TDD上 /下行子帧配置的载波聚合场景。 The method according to claim 7 or 8, wherein the preset policy comprises: using a minimum frequency band interval configured by different TDD uplink/downlink subframes; or using different TDD uplink/downlink subframe configurations Carrier aggregation scenario.

10、如权利要求 6-8任一项所述的方法，其特征在于，该方法进一步包括： 10. The method of any of claims 6-8, wherein the method further comprises:

网络侧通过 RRC过程接收用户设备是否支持聚合不同 TDD上 / 下行子帧配置载波的能力的信息；或者， The network side receives, by using an RRC procedure, information about whether the user equipment supports the capability of aggregating carriers of different TDD uplink/downlink subframes; or

网络侧通过 RRC过程接收用户设备的能力信息。 The network side receives the capability information of the user equipment through the RRC process.

11、如权利要求 6-8任一项所述的方法，其特征在于，该方法进一步包括： 11. The method of any of claims 6-8, wherein the method further comprises:

如果用户设备支持聚合不同 TDD上 /下行子帧配置载波的能力，网络侧为所述用户设备配置可聚合的不同 TDD上 /下行子帧配置的载波集合。 If the user equipment supports the ability to aggregate carriers in different TDD uplink/downlink subframes, the network side configures the carrier equipment to aggregate the carrier sets of different TDD uplink/downlink subframe configurations.

12、如权利要求 6-8任一项所述的方法，其特征在于，该方法进一步包括： 12. The method of any of claims 6-8, wherein the method further comprises:

通过第一标识确定支持聚合不同 TDD上 /下行子帧配置载波的能力、通过第二标识确定不支持聚合不同 TDD上 /下行子帧配置载波的能力；或者， Determining, by using the first identifier, an ability to aggregate carriers configured by different TDD uplink/downlink subframes, and determining, by using the second identifier, an capability of not configuring aggregation of different TDD uplink/downlink subframes; or

通过第三标识确定支持某个 band和其他 band聚合不同 TDD上 / 下行子帧配置载波、通过第四标识确定不支持所述 band和其他 band 聚合不同 TDD上 /下行子帧配置载波；或者， The third identifier is used to determine that a certain band and other bands are aggregated to different TDD uplink/downlink subframe configuration carriers, and the fourth identifier is used to determine that the band and other bands are not aggregated to allocate different TDD uplink/downlink subframe configuration carriers; or

通过第五标识确定支持某个 band组合聚合不同 TDD上 /下行子帧配置载波、通过第六标识确定不支持所述 band组合聚合不同 TDD 上 /下行子帧配置载波；或者， The fifth identifier is used to determine that a certain band combination is used to aggregate different TDD uplink/downlink subframe configuration carriers, and the sixth identifier is used to determine that the band combination is not supported to aggregate different TDD uplink/downlink subframe configuration carriers; or

通过第七标识确定支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识确定不支持所述聚合场景聚合不同 TDD上 / 下行子帧配置载波。 The seventh identifier is used to determine that an aggregation scenario is configured to aggregate different TDD uplink/downlink subframe configuration carriers, and the eighth identifier is used to determine that the aggregation scenario is not supported by the different TDD uplink/downlink subframe configuration carriers.

13、一种用户设备，其特征在于，包括： 13. A user equipment, comprising:

14、如权利要求 13所述的用户设备，其特征在于，还包括：确定模块，用于根据预设策略和用户设备的能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力； The user equipment of claim 13, further comprising: a determining module, configured to determine, according to the preset policy and the capability information of the user equipment, whether the user equipment supports aggregation of different TDD uplink/downlink subframe configuration carriers ability;

15、如权利要求 14所述的用户设备，其特征在于，所述预设策略包括：使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，使用不同 TDD上 /下行子帧配置的载波聚合场景。 The user equipment according to claim 14, wherein the preset policy comprises: a minimum frequency band interval configured by using different TDD uplink/downlink subframes; or a carrier configured by using different TDD uplink/downlink subframe configurations. Aggregate the scene.

16、如权利要求 13-15任一项所述的用户设备，其特征在于，所述发送模块，具体用于通过 RRC过程将自身是否支持聚合不同 TDD上 /下行子帧配置载波的能力通知给网络侧；或者，通过 RRC 过程将自身的能力信息通知给网络侧。 The user equipment according to any one of claims 13 to 15, wherein the sending module is specifically configured to notify, by using an RRC procedure, whether the capability of the carrier to support aggregation of different TDD uplink/downlink subframes is configured. The network side; or, the RRC process notifies the network side of its capability information.

17、如权利要求 13-15任一项所述的用户设备，其特征在于，所述发送模块，具体用于通过第一标识表示支持聚合不同 TDD 上 /下行子帧配置载波的能力、通过第二标识表示不支持聚合不同 TDD上 /下行子帧配置载波的能力；或者， The user equipment according to any one of claims 13 to 15, wherein the sending module is specifically configured to: by using the first identifier, the capability of supporting the aggregation of different TDD uplink/downlink subframes, and the The second identifier indicates that the ability to aggregate carriers in different TDD uplink/downlink subframes is not supported; or

通过第三标识表示支持某个 band和其他 band聚合不同 TDD上 / 下行子帧配置载波、通过第四标识表示不支持所述 band和其他 band 聚合不同 TDD上 /下行子帧配置载波；或者， The third identifier indicates that a certain band and other bands are supported to aggregate different TDD uplink/downlink subframe configuration carriers, and the fourth identifier indicates that the band and other bands are not supported to aggregate different TDD uplink/downlink subframe configuration carriers; or

通过第七标识表示支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识表示不支持所述聚合场景聚合不同 TDD上 / 下行子帧配置载波。 The seventh identifier indicates that an aggregation scenario is supported to aggregate different TDD uplink/downlink subframe configuration carriers, and the eighth identifier indicates that the aggregation scenario is not supported to aggregate different TDD uplink/downlink subframe configuration carriers.

18、一种网络侧设备，其特征在于，包括： 18. A network side device, comprising:

确定模块，用于根据所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 And a determining module, configured to determine, according to the capability information, whether the user equipment supports the capability of aggregating different TDD uplink/downlink subframe configuration carriers.

19、如权利要求 18所述的网络侧设备，其特征在于， 19. The network side device according to claim 18, wherein

所述确定模块，具体用于根据预设策略和所述能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力。 The determining module is specifically configured to determine, according to the preset policy and the capability information, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes.

20、如权利要求 18所述的网络侧设备，其特征在于， 20. The network side device according to claim 18, wherein

所述确定模块，具体用于根据预设策略、所述用户设备的能力信息、网络侧的能力信息确定用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力； The determining module is specifically configured to determine, according to the preset policy, the capability information of the user equipment, and the capability information of the network side, whether the user equipment supports the capability of aggregating carriers in different TDD uplink/downlink subframes;

所述网络侧的能力信息包括：网络侧是否支持聚合不同 TDD上 / 下行子帧配置的载波。 The capability information on the network side includes: whether the network side supports aggregation of carriers configured on different TDD uplink/downlink subframes.

21、如权利要求 19或 20所述的网络侧设备，其特征在于，所述预设策略包括：使用不同 TDD上 /下行子帧配置的最小频带间隔；或者，使用不同 TDD上 /下行子帧配置的载波聚合场景。 The network side device according to claim 19 or 20, wherein the preset policy comprises: using a minimum frequency band interval configured by using different TDD uplink/downlink subframes; or using different TDD uplink/downlink subframes Configured carrier aggregation scenarios.

22、如权利要求 18-20任一项所述的网络侧设备，其特征在于，所述接收模块，具体用于通过 RRC过程接收用户设备是否支持聚合不同 TDD上 /下行子帧配置载波的能力的信息；或者，通过 RRC 过程接收用户设备的能力信息。 The network side device according to any one of claims 18 to 20, wherein the receiving module is specifically configured to: receive, by using an RRC procedure, whether a user equipment supports aggregation of different TDD uplink/downlink subframes to configure a carrier. Or; receiving capability information of the user equipment through the RRC procedure.

23、如权利要求 18-20任一项所述的网络侧设备，其特征在于，还包括： The network side device according to any one of claims 18 to 20, further comprising:

配置模块，用于如果用户设备支持聚合不同 TDD上 /下行子帧配置载波的能力，为所述用户设备配置可聚合的不同 TDD上 /下行子帧配置的载波集合。 a configuration module, configured to configure, for the user equipment, different transmittable different TDD uplink/downlink subframes, if the user equipment supports the capability of aggregating different TDD uplink/downlink subframe configuration carriers The configured carrier set.

24、如权利要求 18-20任一项所述的网络侧设备，其特征在于，所述接收模块，具体用于通过第一标识确定支持聚合不同 TDD 上 /下行子帧配置载波的能力、通过第二标识确定不支持聚合不同 TDD上 /下行子帧配置载波的能力；或者， The network side device according to any one of claims 18 to 20, wherein the receiving module is configured to determine, by using the first identifier, the capability of supporting the aggregation of different TDD uplink/downlink subframes, and The second identifier determines that the capability of aggregating carriers in different TDD uplink/downlink subframes is not supported; or

通过第七标识确定支持某个聚合场景聚合不同 TDD上 /下行子帧配置载波、通过第八标识确定不支持所述聚合场景聚合不同 TDD上 / 下行子帧配置载波。 The seventh identifier is used to determine that an aggregation scenario is configured to aggregate different TDD uplink/downlink subframes, and the eighth identifier is used to determine that the aggregation scenario is not supported by the aggregation scenario.