Source: https://patents.google.com/patent/CN105009488A/en
Timestamp: 2019-01-18 13:50:01
Document Index: 153171371

Matched Legal Cases: ['arts 11', 'arts16', 'arts 11', 'arts16', '§ 1', '§ 1']

CN105009488A - Pucch resource compression for epdcch in tdd mode - Google Patents
CN105009488A
CN105009488A CN 201380065649 CN201380065649A CN105009488A CN 105009488 A CN105009488 A CN 105009488A CN 201380065649 CN201380065649 CN 201380065649 CN 201380065649 A CN201380065649 A CN 201380065649A CN 105009488 A CN105009488 A CN 105009488A
CN 201380065649
CN105009488B (en )
用于在TDD模式的EPDCCH的PUCCH资源压缩 PUCCH resources for EPDCCH TDD mode compression
[0001] 优先权权利要求 [0001] Priority Claim
[0002] 本申请要求在2013年1月14日提交的申请号为61/752, 386的美国临时专利申请的优先权权益，其全部内容并入在此并作为参考。 [0002] This application claims priority application number 14 January 2013 filed 61/752, 386 priority benefit of US provisional patent application, the entire contents of which are incorporated herein and incorporated by reference.
[0003] 这里描述的实施例大体涉及无线网络和通信系统。 [0003] The embodiments described herein generally relate to wireless communication systems and networks.
[0004] 在LTE(长期演进）蜂窝系统中，如在第三代合作伙伴项目（3GPP)的LTE规范中阐明的一样，终端（这里终端在LTE系统中称为用户设备或UE)连接到为UE提供与诸如互联网的外部网络的LTE系统的其他网络实体的连接的基站（在LTE系统中称为演进节点基站或eNB)。 [0004] As in the LTE (Long Term Evolution) cellular system, as set forth in the Third Generation Partnership Project (3GPP) in the LTE specification, a terminal (herein referred to as user equipment or UE terminal in an LTE system) is connected to the the base station is connected to other network entities of the LTE system and the UE provides the external network such as the Internet (referred to as an evolved node base station or eNB in ​​an LTE system). 作为第三代合作伙伴项目（3GPP)的LTE规范的一部分的LTE-A(高级长期演进）的主要特性逐步支持空间复用用来提供eNB与多个UE之间的分离的下行链路和上行链路通信路径的多用户MHTO(多输入多输出）。 As main characteristics of the Third Generation Partnership Project (3GPP) LTE specification of a part of LTE-A (Long Term Evolution Advanced) stepwise support spatial multiplexing is used to provide separation between the eNB and the UE a plurality of downlink and uplink multi-user link communication path MHTO (multiple input multiple output). 随着更多的UE被调度使用每个子帧用于多用户MM0操作，增加了用于提供物理上行链路资源调度的物理下行链路控制信道（PDCCH) 的需求。 As more of the UE is scheduled for each subframe using multiuser MM0 operation, providing increased physical uplink resources for scheduled physical downlink control channel (PDCCH) needs. LTE规范的第8/9/10版中的H)CCH的设计规定不足以满足该增长的需求的子帧中的三个0FDM(正交频分复用）符号的最大H)CCH尺寸。 H 8/9/10 edition of the LTE specifications) of the CCH is insufficient to meet the maximum design requirements of the H subframes growing demand in three 0FDM (orthogonal frequency-division multiplexing) symbols) the CCH size. 因此，称为增强roCCH(EH)CCH)的另一个控制信道设计引入到LTE规范的版本11中。 Thus, it called enhanced roCCH (EH) CCH) into another control channel design LTE Release 11 specification.
[0005] 在LTE中，从eNB接收下行链路数据的终端经由使用由eNB为此分配的上行链路资源的物理上行链路控制信道（PUCCH)返回确认（或者肯定或者否定）给eNB。 [0005] In LTE, an eNB receives the downlink from the terminal returns an acknowledgment to the data link (either positive or negative) to the eNB via the physical uplink control channel using the uplink resource allocated by the eNB for this purpose (PUCCH). 为了节约信令开销，当前LTE规范允许eNB向终端发送哪个上行链路资源用于PUCCH，作为用来将终端接收将被确认的下行链路数据的下行链路资源给予终端的H)CCH或EPDCCH中所含有的信息的结构函数的信号。 In order to save signaling overhead, the current LTE specification allows eNB which uplink resources to the terminal for the PUCCH, a downlink resource for the terminal receives downlink data is confirmed to give a terminal H) CCH or EPDCCH structure function information signal contained. 基于EPDCCH中所含有的信息的结构，通过隐含的信令有效地为PUCCH分配上行链路资源是本发明的关注点。 Based on the structural information contained in the EPDCCH by implicit signaling efficiently allocate uplink resources for the PUCCH is the focus of the present invention.
[0006] 图1示出根据某些实施例的UE和eNB。 [0006] Figure 1 shows a UE and an eNB in ​​accordance with certain embodiments.
[0007] 图2示出用于子帧的绑定窗口和PUCCH资源指标。 [0007] FIG. 2 shows binding window and PUCCH resource index for the subframe.
[0008] 图3示出具有用于AR0较大负值的PUCCH资源计算被用于将用于子帧SjljS4的PUCCH资源指标范围偏移到子帧范围的绑定。 [0008] FIG. 3 shows a PUCCH resource calculation AR0 for larger negative values ​​is used for the subframe SjljS4 PUCCH resource index range is shifted to the binding of the sub-frame range.
[0009] 图4为示出二比特AR0区段到AR0值的映射的表格。 [0009] FIG. 4 is a diagram illustrating a two-bit mapping table to AR0 section AR0 value.
[0010]LTE使用前向误码校正编码和ARQ(automaticrepeatrequest:自动重传请求） 的组合，称为混合ARQ。 [0010] LTE prior to use error correction coding and ARQ: composition (automaticrepeatrequest automatic repeat request), called Hybrid ARQ. 混合ARQ使用前向误码校正编码来校正某些误码。 Hybrid ARQ prior to use some error correction coding to the error correction. 当检测到没有校正的误码时，丢弃受破坏的传输并且接收机请求重传。 Not corrected when the detected error, discard the transport disrupted and the receiver requests retransmission. 正如这里使用的术语，混合ARQ确认可以或者是表示传输错误已经出现并且请求重传的否定确认（NACK)，或者是指示传输被正确接收的肯定确认（ACK)。 As used herein the term, hybrid ARQ acknowledgment or may represent a transmission error has occurred and requests a negative acknowledgment (NACK) retransmission, or a positive acknowledgment (ACK) indicating a transmission received correctly.
[0011] 当eNB发射数据到UE，UE请求由eNB进行上行链路资源的分配以便响应混合ARQ 确认。 [0011] When the eNB transmits data to UE, UE requests uplink resources allocated by the eNB in ​​response to Hybrid ARQ acknowledgment. 这里所描述的是EPDCCH配置和技术，通过它，这样的上行链路资源可以自动分配到UE以便下行链路资源的分配经由EPDCCH。 EPDCCH described herein are configurations and techniques by which such uplink resource can be automatically assigned to the UE for allocation of downlink resources via EPDCCH.
[0012] LTE空中接口 [0012] LTE air interface
[0013] 图1示出UE100和eNB150的示例。 [0013] FIG. 1 shows an example of the UE100 and eNB150. UE和eNB分别包括电路110和160。 UE and the eNB respectively include circuits 110 and 160. UE中的处理电路110与各自连接到多根天线130中的一根的多个RF收发机120联接。 The UE 110 and the processing circuit 120 are each connected to the plurality of antennas 130 coupled to a plurality of RF transceivers. eNB中的处理电路160与各个连接到多根天线180中的一根的多个RF收发机170联接。 Processing circuit 160 eNB is connected to the respective plurality of antennas 180 to a plurality of RF transceiver 170 is coupled. 所示的组件是为了表示用于提供LTE空中接口并且执行这里所描述的处理功能的任何类型的硬件/ 软件配置。 Assembly is shown in order to indicate for providing LTE air interface and performing any type of processing functions described herein hardware / software configuration.
[0014]LTE空中接口也称为无线接入网络（RAN，radioaccessnetwork)，具有基本上如下所述的协议架构。 [0014] LTE air interface is also called a radio access network (RAN, radioaccessnetwork), having a substantially following the protocol architecture. 用户面（userplane)的最顶层是发射和接收IP(因特网协议）分组的分组数据压缩协议（PDCP，packetdatacompressionprotocol)层。 User plane (Userplane) is the topmost transmit and receive IP (Internet Protocol) packet data compression protocol packets (PDCP, packetdatacompressionprotocol) layer. UE与eNB之间的接入层中的控制面的最高层是无线资源控制（RRC，radioresourcecontrol)层。 Access layer between the UE and the eNB is the highest level control plane radio resource control (RRC, radioresourcecontrol) layer. F>DCP层经由映射有IP分组的无线电承载而与无线电链路控制（RLC)层通信。 F> DCP layer through the radio bearer is mapped with the IP packet to a radio link control (RLC) layer communication. 在介质访问控制（MAC) 层，与上面的RLC层的连接通过逻辑信道，并且与下面的物理层的连接通过传输信道。 Media Access Control (MAC) layer, and the RLC layer are connected through logical channels above and below the connection of the physical layer through a transport channel. MAC 层处理逻辑信道之间的复用/解复用、混合ARQ操作、以及调度，后者单独在演进节点基站的上行链路和下行链路执行。 Multiplexing logical channels between the MAC layer processing / demultiplexing, hybrid ARQ operation, and a scheduler, which is performed separately evolved Node base station in the uplink and downlink. 传输信道上的数据针对在UE和eNB两者执行混合ARQ功能而组织成传输块。 Data transmission channel for performing hybrid ARQ functionality in both the UE and the eNB organized into transport blocks. 用于数据传输的主传输信道、上行链路共享信道（UL-SCH)和下行链路共享信道（DL-SCH)分别在物理层映射到物理上行链路共享信道（PUSCH)和物理下行链路共享信道（PDSCH)。 Primary transport channel for data transmission, an uplink shared channel (UL-SCH) and the downlink shared channel (DL-SCH) in the physical layer are mapped to the physical uplink shared channel (PUSCH) and a Physical Downlink shared channel (PDSCH).
[0015]LTE物理层对于下行链路基于正交频分复用（0FDM)，并且对于上行链路基于相关技术即单载波频分复用（SC-FDM)。 [0015] LTE for the downlink physical layer based on orthogonal frequency division multiplexing (0FDM), and for the related art that is based on uplink single-carrier frequency division multiplexing (SC-FDM). 在0FDM/SC-FDM中，根据诸如QAM(正交振幅调制）的调制方案的复杂调制符号每个单独映射到在0FDM/SC-FDM符号期间发射的专用0FDM/SC-FDM 子载波，称为资源元素（RE，resourceelement)。 In 0FDM / SC-FDM in accordance with the complex modulation symbols such as QAM (quadrature amplitude modulation) modulation scheme mapping each individual dedicated to 0FDM during 0FDM / SC-FDM symbol transmitted / SC-FDM sub-carriers, referred to resource element (RE, resourceelement). RE是LTE中的最小物理资源。 RE is minimum physical resource in LTE. LTE还提供MM0(多输入多输出）操作，在该操作中，多层的数据由多根天线发射和接收，并且每个复杂调制符号映射到多个传输层中的一个并且接着映射到特定天线端口。 LTE also provides MM0 (MIMO) operation, in this operation, a plurality of layers of data transmitted and received by a plurality of antennas, and each of the plurality of complex modulation symbols are mapped to a transport layers and then mapped to a particular antenna port. 每个RE接着由天线端口、子载波位置和无线电帧中的0FDM符号指数唯一识别，正如下文将解释一样。 Each RE Subsequently, 0FDM symbol index subcarrier position and the radio frame is uniquely identified by an antenna port, as will be explained hereinafter the same.
[0016] 在时间域上的LTE传输组织在无线电帧中，每个具有10ms的持续时间。 [0016] LTE transmissions in the time domain of tissue in a radio frame, each having a duration of 10ms. 每个无线电帧由10个子帧组成，并且每个子帧由两个连续的〇.5ms的时隙组成。 Each radio frame consists of 10 subframes, and each subframe consists of two consecutive 〇.5ms slots. 每个时隙包括用于扩展循环前缀的六个索引0FDM符号和用于正常循环前缀的七个索引0FDM符号。 Each slot includes a six extended cyclic prefix index 0FDM index symbol and seven symbols 0FDM normal cyclic prefix. 对应于在单个时隙内的12个连续子载波的一组资源元素称为资源块（RB，resourceblock)，或者针对物理层而称为物理资源块（PRB，physicalresourceblock)。 In a single time slot corresponding to 12 consecutive subcarriers is called a resource element group of resource blocks (RB, resourceblock), or for a physical layer called a physical resource block (PRB, physicalresourceblock).
[0017] 在提供分离的载波频率给上行链路和下行链路传输的FDD(频分复用）操作的情况下，上述帧结构不需要修改便可应用到上行链路和下行链路。 [0017] In separate carrier frequencies provided to the uplink and downlink transmission in the case of FDD (frequency division multiplexing) operation, no need to modify the frame configuration can be applied to the uplink and downlink. 在TDD(时分复用）操作下，子帧分配给具有从下行链路到上行链路的迀移时产生（但是不发生在从上行链路向下行链路传输转换时）的专用子帧的或者上行链路或者下行链路。 In TDD (Time Division Multiplexing) operation is assigned to a subframe having generated from the downlink to uplink Gan shift (but does not occur when the uplink transmission is shifted to the downlink) dedicated subframes or uplink or downlink. eNB管理在TDD操作期间每个无线电帧内的上行链路和下行链路的子帧的分配。 Each eNB manages the allocation of uplink and downlink sub-frame of the radio frame during TDD operation.
[0018]LTE控制信令 [0018] LTE control signaling
[0019] 物理信道对应于用于特定传输信道的传输的一组时间-频率资源，并且每个传输信道映射到对应的物理信道。 [0019] physical channel corresponds to a set time for transmission of particular transmission channel - frequency resources, and each transport channel is mapped to physical channels corresponding. 还存在没有要求支持下行链路和上行链路传输信道的传输的相应的传输信道的物理控制信道。 There is also no requirement to support downlink and uplink transmission channel transmitted physical control channel corresponding transport channel. 这些包括发射下行链路控制信息（DCI)到UE的物理下行链路控制信道（PDCCH)和增强物理下行链路控制信道（ETOCCH)、以及承载从UE到eNB的上行链路控制信息（UCI)的物理上行链路控制信道（PUCCH)。 These include transmitting downlink control information (DCI) to the UE physical downlink control channel (PDCCH) and enhancing physical downlink control channel (ETOCCH), and carry control information from the UE to the eNB uplink (UCI) the physical uplink control channel (PUCCH). 在与本发明有关的范围内， 由H)CCH或EPDCCH承载的DCI可以包括给UE分配上行链路和下行链路资源的调度信息， 而由PUCCH承载的UCI可以包括用于响应由UE接收的传输块的混合ARQ确认。 Within the scope of the present invention relating to, carried by the DCI H) CCH or may comprise EPDCCH UE is allocated the uplink and downlink resource scheduling information, the UCI may include a PUCCH carried by the response received by the UE hybrid ARQ acknowledgment of transport blocks.
[0020] 每个下行链路LTE子帧在子帧的开始部分被划分为控制区域（S卩，前两个、前三个或前四个0FDM字符）、以及构成子帧其余部分的数据区域。 [0020] Each downlink LTE subframe at the beginning of the subframe is divided into a control region (S Jie, the first two, the first three or four front 0FDM characters), and a data area constituting the remainder of the subframe . 控制区域为诸如H)CCH的下行链路控制信道预留，并且roCCH仅在子帧的控制区域被发射。 Control region such as a H) CCH reserved downlink control channel, and roCCH only transmitted in the control region of the subframe. 另一方面，EPDCCH在下行链路子帧的数据区域被发射。 On the other hand, EPDCCH transmitted in the data region of the downlink subframe. 为了接收EPDCCH，终端配置有一组或两组物理资源块，经由这些物理资源块可以发生向终端的EPDCCH传输。 To receive EPDCCH, or the terminal is configured with a set of two physical resource blocks, EPDCCH transmission may occur to the terminal via these physical resource blocks. 每组由两对、四对或八对PRB组成，并且两组的尺寸可以不同。 Each consisting of two pairs, four pairs or eight pairs PRB composition and size of the two may be different. 资源块对可以灵活地和非邻近地位于整个下行链路系统带宽。 Flexibility in resource block pair and positioned non-adjacent the entire downlink system bandwidth. 某个子帧中属于EPDCCH组但不用于向特定终端的EPDCCH传输的PRB对能够用于或者向相同的终端或者向不同的终端的数据传输。 Belonging to a certain subframe EPDCCH PRB group but not EPDCCH for transmission to a specific terminal or can be used in the same terminal or data transmission to different terminals. EPDCCH组可以配置为或者局部式组或者分布式组。 EPDCCH group may be configured as a distributed or localized group or groups. 在局部式组中，单个EPDCCH映射到一个物理资源块对并且仅在需要时映射到额外的PRB对。 Localized in the group, a single EPDCCH mapped to a physical resource block pair and only the additional maps PRB pairs when needed. 在分布式组中，单个EPDCCH分布在多个PRB对上。 In the distributed, a single EPDCCH distributed across multiple PRB pairs. 同样地，在由eNB的多个天线传输的情况下，使用基于天线预编码的DMRS(demodulationreferencesignal:解调参考信号）来发射EPDCCH。 Similarly, in the case where a plurality of transmission antennas of eNB, based antenna precoded DMRS (demodulationreferencesignal: demodulation reference signal) transmitted EPDCCH. 相反地，使用基于发射分集的CRS(专用小区参考信号）来发射H)CCH。 Conversely, the CRS-based (cell-specific reference signal) transmit diversity to transmit H) CCH.
[0021] 使用基于控制信道元素（CCE，controlchannelelements)的特定结构来完成PDCCH到资源元素的映射，其中CCE为一组36个连续资源元素。 [0021] The mapping is done using the PDCCH resource elements based on the particular structure of the control channel element (CCE, controlchannelelements), wherein the CCE is a set of 36 consecutive resource elements. 某一个H)CCH所需的CCE 的数量取决于要承载的DCI的尺寸。 One H) the number of CCE's required depends on the size of DCI CCH to be carried. 根据控制区域子帧中的它们的时间-频率的位置来对CCE进行编号（即索引），以便子帧中的每个H)CCH被组成CCE的CCE指数唯一地识别。 Are numbered (i.e., index) of CCE frequency position, so that each subframe H) of the CCH is composed of CCE CCE index uniquely identifying - in accordance with a control region of a subframe of their time. EPDCCH由被称为增强控制信道元素（ECCE，enhancedcontrolchannelelement)的内容构成，与用于构成H)CCH的CCE相反。 SUMMARY EPDCCH consists referred enhanced control channel elements (ECCE, enhancedcontrolchannelelement), and the opposite constituting H) CCH of CCE. ECCE也根据子帧中的时间-频率的位置来索引。 The subframe also ECCE time - frequency indexed position. 然而，与CCE的索引不同，ECCE的索引是终端专用的。 However, different CCE index, the index is the ECCE terminal-specific.
[0022] 每个roCCH或EPDCCH可以通过给roCCH或EPDCCH附加也用作误码检测的UE专用CRC(循环冗余检查）而寻址于专用UE。 [0022] Each roCCH EPDCCH may or addressed to the UE through a dedicated additional EPDCCH roCCH or also as a UE specific CRC error detection (cyclic redundancy check). 因而，UE通过执行CRC计算和查看计算是否检查来检测用于其的H)CCH。 Accordingly, UE by performing CRC calculation, and checks to see if the calculation thereof for detecting H) CCH. 通过在CRC计算中包括UE的无线电网络临时标识符（RNTI，radio networktemporaryidentifier)来产生UE专用的。 Generating a UE-specific CRC calculation by the UE includes a radio network temporary identifier (RNTI, radio networktemporaryidentifier). LTE还定义搜索空间来限制UE需要监视的一组CCE或ECCE，以便检测其所需的H)CCH或EPDCCH。 LTE also limit the search space is defined by a set of CCE or ECCE UE needs to monitor in order to detect H) CCH or EPDCCH its required.
[0023] 如果在上行链路子帧中已经为UE分配在子帧中发射诸如混合ARQ确认的控制信令的HJSCH资源，则在PUSCH中控制信令能够与数据时间复用。 [0023] If the transmitter has HJSCH resource control signaling, such as hybrid ARQ acknowledgment in a subframe allocated for the UE in the uplink subframe, the PUSCH control signaling can be multiplexed with the data time. 否则，使用PUCCH。 Otherwise, the PUCCH. 每个PUCCH资源由上行链路子帧的两个时隙的每一个中的一个资源块构成。 Each PUCCH resource is constituted by two slots each of uplink subframes in a resource block. 来自多个UE的控制信令使用时域和频域码分复用的组合来复用到单个PUCCH区域。 Control signaling from the UE using the plurality of time domain and frequency-domain code division multiplexing combination into a single multiplexed PUCCH region. 构成控制信令的字符乘以正交覆盖序列以引起在时间上扩展，并且所得到的字符接着用于在频域上调制相位旋转(对应于在时域上的循环偏移）长度12的参考信号序列以引起在频率上扩展。 Control signaling characters is multiplied by an orthogonal cover sequence to cause extension in time, and the resulting character is then used to modulate the phase rotation in the frequency domain (corresponding to cyclic shift in the time domain) of the length of the reference 12 a signal sequence in frequency to cause expansion. 由PUCCH使用的资源因而不仅通过其分配的资源块在时间-频率域上是专用的，而且通过循环偏移和正交覆盖序列而被应用。 Thus PUCCH resources used by only resource blocks assigned in the time - frequency domain are specific, but also through cyclic shift and orthogonal cover sequence is applied. 通过分配不同的循环偏移和正交覆盖序列给不同的UE，从而可以通过不同UE使用相同的时间-频率资源来发射PUCCH。 By allocating different cyclic shift and an orthogonal cover sequence to different UE, UE can be different by using the same time - frequency resources to transmit PUCCH.
[0024] 经由单个BPSK或QPSK(二进制相移键控或四进制相移键控）字符来发射混合ARQ 确认，该字符以刚刚所描述的方式在PUCCH上进行码分复用以经由称为格式1PUCCH的资源块对来扩展字符。 [0024] via a single BPSK or QPSK (binary phase shift keying or quaternary phase shift keying) transmitting hybrid ARQ acknowledgment character, the character in the manner just described for the code division multiplexing on the PUCCH is referred to by format resource block 1PUCCH to be extended characters. PUCCH格式1资源由PUCCH指数来表示，其中资源块对、相位旋转和正交覆盖序列以LTE规范所描述的方式导出（参见3GPPTS36. 211)。 PUCCH format 1 represented by the PUCCH resource index to which the resource block, an orthogonal cover sequence and the phase rotation to the LTE specifications described embodiment derived (see 3GPPTS36. 211).
[0025] 为了提供用于HJCCH的发射分集，也可以使用利用称为空间正交资源发射分集(SORTD，spatialorthogonalresourcetransmitdiversity)的技术的两个天线端口来发射PUCCH。 [0025] In order to provide transmit diversity HJCCH, use may also be referred to as spatial orthogonal resource using two transmit diversity antennas ports (SORTD, spatialorthogonalresourcetransmitdiversity) technology to transmit the PUCCH. 在S0RTD中，使用两个不同的PUCCH指数来发射相同的PUCCH。 In S0RTD, two different indices to transmit the same PUCCH PUCCH.
[0026] 给UE的下行链路调度分配应用于它们被发射的相同的子帧。 [0026] UE to the downlink scheduling assignment applied to the same sub-frame are to be transmitted. 在UE接收特定子帧中的H)SCH分配的情形下，UE需要在指定的后续的子帧中发射混合ARQ确认。 Receiving a specific subframe in H UE) assigned to the case of SCH, UE needs to transmit acknowledgment Hybrid ARQ in a subsequent subframe specify. UE可以使用该后续子帧中的预先分配的上行链路资源（即，或者PUSCH或者PUCCH资源）。 The UE may use the uplink resources in subsequent subframes preassigned (i.e., or PUSCH or PUCCH resources). 否则，对于以格式1PUCCH的混合ARQ确认，eNB在分配将含有将被确认的数据的H)SCH的相同的H)CCH 中分配上行链路资源。 Otherwise the same H, an acknowledgment to the hybrid ARQ 1PUCCH format, the eNB containing the data to be confirmed in the dispensing H) of SCHs) in the CCH allocating uplink resources.
[0027] 在FDD情况下，下行链路子帧发射数据与用于该数据的上行链路子帧发射混合ARQ确认之间存在一对一对应。 [0027] In case of FDD, the downlink subframe used to transmit the uplink data sub-frame for the data transmitter to-one correspondence between the hybrid ARQ acknowledgment. 另一方面，在TDD中，上行链路和下行链路子帧的不对称分配可以需要单个上行链路子帧用于确认多个下行链路子帧，后一组下行链路子帧称为绑定窗口。 On the other hand, in TDD, the asymmetric assignment of uplink and downlink subframes may be needed for a single uplink subframe confirmation plurality of downlink subframes after a subframe referred to as a set of downlink binding window. 尽管在原理上多个HJCCH能够被终端使用以确认多个下行链路子帧，但是当前LTE规范规定每个子帧的每个终端仅有一个PUCCH。 Although in principle the plurality HJCCH terminal can be used to confirm a plurality of downlink subframes, but the current LTE specification for each terminal for each subframe only a PUCCH. 如果终端需要发射比在PUCCH中所分配的比特更多的确认（格式1PUCCH需要两个比特），则利用称为资源选择（也称为信道选择）的技术。 If the terminal needs to transmit more than acknowledgment bits allocated to the PUCCH (1PUCCH format requires two bits) technique called resource selection (also referred to as channel selection) is used. 在该技术下，eNB分配多个PUCCH资源给在连续上行链路子帧中的用于确认多个下行链路传输的终端。 In this technique, eNB PUCCH resources allocated to a plurality of terminals for a plurality of downlink transmission confirmation in the continuous uplink subframes. 尽管所有这些PUCCH资源被预留，并且不能用于其它目的，但是终端仅选择预留PUCCH资源之一来实际发射PUCCH。 While all of these PUCCH resources are reserved, and not used for other purposes, but only the terminal selects one of the reserved PUCCH resources to actually transmit PUCCH. 预留PUCCH资源的哪一个被终端选择构成用于eNB的附加信息，其可以解释为用于多个下行链路子帧的肯定和否定确认的特定模式。 PUCCH resources reserved terminal which is selected for the additional information constituting the eNB, which can be interpreted as positive and specific pattern for a plurality of downlink subframes negative acknowledgment.
[0028] 用于EPDCCH的PUCCH映射方案 [0028] PUCCH mapping scheme for the EPDCCH
[0029] 为了减少信令开销，eNB隐含地发送用于通过在分配给终端的H)SCH的H)CCH或EPDCCH的结构中包括该信息而用于确认一个或多个H)SCH传输的格式la/bPUCCH的资源。 [0029] To reduce signaling overhead, eNB transmits implicitly by including the information H) H-SCHs allocated to the terminal or the EPDCCH structure CCH) was used to confirm the one or more H) SCHs transmitted format la / bPUCCH resources. 特别地，PUCCH资源是用于构成调度roSCH传输的roCCH的CCE或ECCE的最低指数的函数。 In particular, PUCCH resources is a function constituting the CCE or ECCE scheduled transmissions roCCH roSCH index for the lowest.
[0030] 对于roCCH调度下行链路传输，用于混合ARQ确认的资源指数作为用于调度向终端的下行链路传输的roCCH中的第一CCE的函数来给出。 [0030] For roCCH scheduling downlink transmission resource index is used as a hybrid-ARQ acknowledgment is given to roCCH for scheduling downlink transmission as a function of the terminal of the first CCE. 那么就不需要在下行链路调度分配中隐含地包括有关PUCCH资源的信息。 We do not need implicit in the downlink scheduling assignment includes information about the PUCCH resources. 由于在接收roSCH之后的固定时间发射混合ARQ 确认，因此eNB知道何时在分配的PUCCH资源上预期混合ARQ。 Since a fixed time after receiving roSCH transmitting Hybrid ARQ acknowledgment, the eNB knows when to expect the hybrid ARQ on a PUCCH resource allocation.
[0031] 然而，对于EPDCCH调度传输，不能单独在EPDCCH中使用第一ECCE的指数。 [0031] However, for EPDCCH scheduled transmission can not be used alone in a first EPDCCH the ECCE index. 由于ECCE指数为每个终端配置且是终端专用的，因此在不同PRB上具有EPDCCH的两个不同的终端可以在EPDCCH中具有相同数量的第一ECCE。 Since the configuration and each terminal is a terminal dedicated ECCE index, thus having two different terminals on different EPDCCH PRB may have the same number of first ECCE the EPDCCH. 因此当前LTE规范在EPDCCH中提供了确认资源偏移（ARO，acknowledgmentresourceoffset)区段，其使eNB能够调整基于EPDCCH 的最低ECCE指数由终端计算的PUCCH资源的指数。 Thus the current LTE specification provides acknowledgment resource offset (ARO, acknowledgmentresourceoffset) EPDCCH in section, it is possible for the eNB PUCCH resource index is adjusted based on the minimum EPDCCH ECCE index was calculated by the terminal. eNB使用AR0来避免分配给终端的多个PUCCH资源之间或者分配给不同终端的PUCCH资源之间的冲突。 eNB uses AR0 to avoid conflicts between the PUCCH resources among a plurality of PUCCH resources allocated to the terminal or assigned to different terminals. eNB还经由在由终端的PUCCH资源指数的计算中所使用的RRC信令配置附加参数^参数是由eNB配置的偏移，其将为特定EPDCCH组q计算的PUCCH资源指数从为其他EPDCCH组计算的那些中分离。 The eNB may also configure additional parameters via RRC signaling terminal is calculated by the PUCCH resource index used by the eNB ^ parameter is an offset configuration, which is calculated for a specific set of q EPDCCH PUCCH resource index is calculated from other groups EPDCCH those isolated. 分配给不同终端（或分配给相同终端）的不同EPDCCH组可以因此为由的值在PUCCH资源指数空间中分离的分配的PUCCH资源。 EPDCCH different groups allocated to different terminals (or allocated to the same terminal) may thus separated PUCCH resource by the value of the index of the PUCCH resource in the allocated space.
[0032] 对于FDD模式，用于EPDCCH资源的格式la/bPUCCH可以计算为： [0032] For the FDD mode, for EPDCCH resource format la / bPUCCH can be calculated as:
[0034] 用于配置用于向UE的分布式传输的EPDCCH组q，并且 [0034] q set for configuring the distributed EPDCCH transmission to the UE, and
[0036] 用于向UE的局部式传输的EPDCCH组q，其中nE^q为用于构成在子帧m中发射的EPDCCH的最小ECCE指数；为由eNB配置的偏移以从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAR。 [0036] q is used to set EPDCCH localized transmission to the UE, wherein for constituting nE ^ q minimum ECCE transmitted in a subframe index m in the EPDCCH; eNB configured as an offset from the other to the group EPDCCH separating those calculated for computing the set of q EPDCCH PUCCH resource index; AAR. 为包括在EPDCCH的DCI中的AR0的值； NECCEiq为在具有相对指数i的子帧中配置用于EPDCCH组q的ECCE的数量；~为在资源块中的ECCE的数量；n'为从在子帧m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的〇到3之间的数字。 Including a value in the DCI AR0 in EPDCCH; NECCEiq is a group having the number q of ECCE EPDCCH subframe relative index i is configured to; ~ ECCE is the number of resource blocks; n 'is from the m subframe DMRS for EPDCCH transmission (demodulation reference signal) to the antenna port determined number between 3 billion. 如果使用S0RTD发射PUCCH，则对于一个天线端口使用所计算的资源指数，并且对于另一个天线端口增加1。 If S0RTD transmit the PUCCH, the antenna port for a resource using the calculated index and an increase for the other antenna ports. 通过AR0和的适当设置，eNB试图避开分配给不同的EPDCCH的PUCCH资源指数。 By AR0 and the appropriate settings, eNB trying to avoid PUCCH resource index allocated to different EPDCCH of. 对于FDD，AR0可以通过eNB从下面的组选择：{-2，-1，0,2}。 For FDD, AR0 can be set by selecting eNB from the following: {- 2, -1,0,2}. 通过包括该组中的1和2(或者-2)两者，eNB能够在利用S0RTD或者不利用S0RTD发射PUCCH的情况下分离PUCCH资源指数。 By including 1 and 2 (or -2) both in the group, eNB PUCCH resource index can be separated in the case of using or not using S0RTD S0RTD the PUCCH is transmitted.
[0037] 对于TDD模式，情况会由于该事实变得复杂，即属于配置用于终端的特定的EPDCCH组会发生在属于必须由单个PUCCH传输确认的绑定窗口的多个子帧。 [0037] For the TDD mode, the situation is complicated due to the fact that the terminal belongs to a particular configuration for EPDCCH plurality of sub-groups belonging to occur by the binding window confirmed to be a single PUCCH transmission frame. 为了在PUCCH 资源指数空间中将用于绑定窗口的不同子帧的PUCCH资源分离，调整上述用于TDD模式的计算以包含包括在配置用于终端的绑定窗口的每个子帧的EPDCCH组中的ECCE的总数的条件。 For PUCCH resource indices in the different sub-spaces for binding window frame PUCCH resource separation, adjusting the calculation for the TDD mode to contain in each sub-group comprising EPDCCH configured for terminal binding window frame the condition of the total number of ECCE. PUCCH资源计算为： PUCCH resource is calculated as:
[0039] 用于配置用于向UE的分布式传输的EPDCCH组q，并且 [0039] q set for configuring the distributed EPDCCH transmission to the UE, and
[0041] 用于向UE的局部式传输的EPDCCH组q，其中nE^q为用于构成在子帧m中发射的EPDCCH的最小ECCE指数；为由eNB配置的偏移以从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAR。 [0041] q is used to set EPDCCH localized transmission to the UE, wherein for constituting nE ^ q minimum ECCE transmitted in a subframe index m in the EPDCCH; eNB configured as an offset from the other to the group EPDCCH separating those calculated for computing the set of q EPDCCH PUCCH resource index; AAR. 为包括在EPDCCH的DCI中的AR0的值； NECCE，q为在具有相对指数i的子帧中配置用于EPDCCH组q的ECCE的数量；为在资源块中的ECCE的数量；n'为从在子帧m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的〇到3之间的数字。 Including a value in the DCI AR0 in EPDCCH; NECCE, q is a subframe having a relative index of i in the configuration of the number of ECCE for EPDCCH set of q; ECCE is the number of resource blocks; n 'is from EPDCCH DMRS for transmission in a sub-frame m (demodulation reference signal) to the antenna port determined number between 3 billion. 再次，如果使用SORTD发射PUCCH，则对于一个天线端口使用所计算的资源指数，并且对于另一个天线端口增加1。 Again, if the PUCCH SORTD emission, then for one antenna port index using the calculated resources, and for the other antenna ports 1 increases.
[0042] 用于FDD模式允许的AR0值的相同组，其中AR0值从{-2, _1，0, 2}中选择，还能够用于TDD模式。 [0042] The same set of values ​​for AR0 FDD mode allows wherein AR0 values ​​{-2, _1,0, 2} is selected from, can also be used for TDD mode. 然而，如上所述在TDD模式中分配PUCCH资源产生的问题是PUCCH资源为绑定窗口的子帧有效预留，而不管ECCE是否实际用于这些子帧的EPDCCH。 However, the problem described above, a PUCCH resource allocation in TDD mode is generated PUCCH resources reserved for sub-frame is valid binding window, regardless of whether the actual ECCE for EPDCCH the subframes. 图2示出由子帧SjljS4组成的绑定窗口。 FIG 2 shows a subframe SjljS4 binding window thereof. 下标指在绑定窗口的他们的相对指数，其中Si是最早子帧，S4是最晚的子帧。 Subscripts refer to their relative binding window index, which is the first subframe Si, S4 is the latest sub-frame. 对于每个子帧为用于该子帧的EPDCCH的ECCE的数量。 ECCE number of frames for the sub-frame for each sub EPDCCH. 如上给出的没有AR0补偿的用于TDD模式的PUCCH资源指数计算意味着用于子帧54的PUCCH资源指数通过为子帧SgljS3预留PUCCH资源而不管EPDCCH传输是否实际发生在这些子帧的方式来计算。 AR0 as no compensation is given PUCCH resource index for the TDD mode calculating means for sub-frame 54 by a PUCCH resource index for the PUCCH resources reserved subframe SgljS3 EPDCCH transmission regardless of whether the actual mode occurs in these subframes calculation. 8卩，NEeeEii到N 的总和预留在PUCCH资源指数空间。 Jie 8, to sum N NEeeEii reserved space in the PUCCH resource index. 需要最小化预留给PUCCH 传输的资源量，因为这些资源能够代替PUCCH传输被分配以增加吞吐量。 Desirable to minimize the amount of resources reserved for PUCCH transmission, such as transmission of PUCCH resources can be allocated in place to increase throughput.
[0043] 改善这种情况的一个途径是为有效压缩HJCCH资源的AR0提供允许值。 One way [0043] to improve this situation is to provide for the allowable value of the effective compression AR0 HJCCH resources. 即，eNB 能够向终端传送具有在PUCCH资源指数空间上压缩该区域的合适AR0的信令，该空间预留用于绑定窗口的子帧。 That is, the eNB can transmit appropriate signaling with the AR0 compression region on the PUCCH resource index to the terminal space, the space reservation of subframes for binding window. 相应地，在一个实施例中，AR0的值可以从下面一组元素选择： Accordingly, in one embodiment, the value AR0 may be selected from the following group of elements:
>这组值中的前两个元素表示的大的负值可以用来将在绑定窗口的子帧的PUCCH资源指数偏移到用于确认在绑定窗口的最前面的子帧中的PUSCH传输的范围。 > Large negative values ​​in the set of the first two elements of the representation can be used to offset PUSCH subframe bundling in the foremost window for confirming the binding window PUCCH resource index subframe range transmission. 对于绑定窗口的最早子帧，不需要大的负值，并且AR0能够从用于FDD 模式的相同组选择：{-2, _1，0,2}，其中能够保持嵌套特性。 For the first subframe bundling window, no large negative value and AR0 can be set the same for the FDD mode selected from: {- 2, _1,0,2}, where nesting property can be maintained. 图3示出由子帧SgljS4组成的绑定窗口，其中具有大的负值AR0的PUCCH资源计算被用来将用于子帧SjljS4的PUCCH 资源指数范围偏移到子帧范围。 FIG 3 illustrates a subframe SgljS4 binding window thereof, wherein PUCCH resource having a large negative value is calculated AR0 is used for the subframe SjljS4 PUCCH resource index range is shifted to the sub-frame range.
[0044] 图4为示出这里描述的实施例的表格。 [0044] FIG. 4 is a table showing the embodiment described herein. 对于具有在1到M-1之间的相对指数m的下行链路子帧，其中M为在绑定窗口中的子帧的数目并且m= 0表示最早的子帧， 在EPDCCH的DCI的两个比特的AR0区段的值解释为对应于由图4中表格所指示的由 For a downlink subframe relative index between 1 and m 1 M-, where M is the number in a binding window of a subframe and m = 0 indicates the first subframe, two of the DCI EPDCCH value AR0 segment bits are interpreted as corresponding to FIG 4 is indicated by the table by
组成的一组元素中的值之一。 One of the values ​​of a set of elements. 在一个实施例中，如果m= 0,则两个比特AR0区段的值对应于下面的一组元素之一：{-2, _1，0, 2}之一。 In one embodiment, if m = 0, then the value of the bit AR0 two sections corresponding to one of the following group of elements: {-, _1,0, one 22}.
[0045] 在另一个实施例中，对于具有相对指数m>0的下行链路子帧，AR0的值从包括下面一组元素的组选择 [0045] In another embodiment, for a relative index m> 0 is a downlink subframe, AR0 value is selected from a group of elements comprising the group
其中a和0是特定整数。 And wherein 0 is a specific integer. 在另一个实施例中，对于具有相对指数m>0的下行链路子帧，AR0的值从下面一组元素选择： In another embodiment, for a relative index m> 0 is a downlink subframe, the value AR0 of a group of elements selected from the following:
，其中a和0是特定整数。 , Wherein a and 0 are specific integers. 在上述实施例中任一个中，整数值可以选为a= 〇和0 = 2。 In any of the embodiments described above, the integer value may be selected and a = 0 = 2 billion.
[0046] 其他提不和不例 [0046] Other embodiments do not mention and
[0047] 在示例1，一种用于在LTE(长期演进）网络中操作演进节点基站（eNB)的方法，其包括：经由由索引的增强控制信道元素（ECCE)组成的增强物理下行链路控制信道(EPDCCH)，将下行链路控制信息（DCI)发射到UE，以授予用于属于绑定窗口的下行链路子帧的物理下行链路共享信道（PDSCH)资源；并且将物理上行链路控制信道（PUCCH)资源指数分配给UE来确认作为用来构成EPDCCH的ECCE的最小指数的函数计算的H)SCH传输， EPDCCH添加到为UE从属于绑定窗口的更早的子帧导出的EPDCCH中的ECCE的数目，并且添加到两个特定整数值之一；并且发射指示UE将PUCCH资源指数偏移等于ARO的数值的量的DCI的ARO区段中的确认资源偏移（ARO)，并且除了绑定窗口的最早子帧以外，从包括将PUCCH资源指数偏移到用来确认在绑定窗口的最早子帧的H)SCH传输的范围的值的群组中选择用于ARO的值。 [0047] In Example 1, a method for LTE (long term evolution) network, the method evolved node base station (eNB) operation, comprising: a reinforcing via enhanced physical control channel element of the index (the ECCE) composed of a downlink control channel (EPDCCH), the downlink control information (DCI) transmitted to the UE, so the physical downlink grant for binding window belonging to downlink subframes shared channel (PDSCH) resources; and a physical uplink control channel (PUCCH) resource allocation index to the UE confirms H) SCH transmission as a function of the minimum index is used to form EPDCCH ECCE calculated, EPDCCH added to the frame belonging to the earlier derived binding sub-window of the UE the number of the EPDCCH ECCE, and added to a particular one of the two integer values; and the UE will transmit the PUCCH resource index indicates an offset acknowledgment resource offset (ARO) an amount equal to the value of ARO ARO section of the DCI, and in addition to the first subframe bundling window comprises PUCCH resource index from an offset value used to confirm ARO in the group selected for the range of values ​​of H SCH first transmission subframe binding window) of .
[0048] 示例2, 一种用于在TDD模式下操作UE的方法，包括：经由由索引的增强控制信道元素（ECCE)组成的增强物理下行链路控制信道（ETOCCH)，接收来自eNB的下行链路控制信息（DCI)，以授予用于属于绑定窗口的下行链路子帧的物理下行链路共享信道（PDSCH)资源；计算作为用于构成EPDCCH的ECCE的最小指数的函数的用于确认H)SCH传输的物理上行链路控制信道（PUCCH)资源指数给UE，EPDCCH添加到为UE从属于绑定窗口的更早的子帧导出的EPDCCH中的ECCE的数目，并且添加到两个特定整数值之一；接收指示UE将PUCCH 资源指数偏移等于ARO的数值的量的DCI的确认资源偏移（ARO)区段中的ARO值；并且AR0区段的值对应于从包括将HJCCH资源指数偏移到用于确认在绑定窗口的最早子帧中的PDSCH传输的范围的值的群组中选择AR0的值。 [0048] Example 2, a method of operation of the UE in the TDD mode, comprising: via an enhanced physical downlink control channel (ETOCCH) by the enhanced control channel element of the index (the ECCE) composed of a downlink received from the eNB downlink control information (DCI), to grant for the physical downlink shared channel belonging binding window downlink subframe (PDSCH) resources; calculated as a function of the minimum index EPDCCH ECCE is configured for confirmed H) physical uplink control channel SCH transmissions (PUCCH) resource index to the UE, EPDCCH ECCE is added to the number of UE belonging to the earlier binding window derived EPDCCH subframe in, and added to the two one specific integer values; UE receives the PUCCH resource index indicates an offset value equal to the value of ARO ARO of a section of the DCI acknowledgment resource offset (ARO); AR0 and the value corresponding to the segment comprising HJCCH resource index is shifted to a range of values ​​for confirming the group PDSCH transmission in the first subframe bundling window of the selected value of AR0.
[0049] 在示例3，eNB包括处理电路和用于与用户设备（UE)进行通信的无线电接口，当在时分复用（TDD)模式下操作时处理电路执行示例1的方法。 , The eNB includes processing circuitry and a user equipment (UE) for radio interface communication is executed example of the processing circuit when operating in a time division multiplexing (TDD) mode method [0049] In the example 31.
[0050] 在示例4中，UE包括处理电路和用于与eNB通信的无线电接口，其中当在时分复用（TDD)模式下操作时，处理电路执行示例2的方法。 [0050] In Example 4, UE includes processing circuitry and a radio interface for communication with the eNB, wherein when operating in a time division multiplexing (TDD) mode, the exemplary method of performing processing circuit 2.
[0051] 在示例5中，如示例1到示例4的任意一个的主题可选择的包括：其中，对于具有在0到M-1之间的相对指数m的下行链路子帧，其中M为在绑定窗口中的子帧的数目并且m= 0表示最早的子帧，PUCCH资源指数《^愧用来确定资源块对、循环偏移和格式1PUCCH的正交覆盖序列，并且计算为： [0051] In Example 5, as any one of Examples 1 to 4 relating to selectable comprising: wherein, for a downlink subframe having a relative index between 0 and m-1 to M, where M is the number of subframes in a binding window and m = 0 indicates the first subframe, the PUCCH resource index "^ shame for determining resource block pair, and a cyclic shift orthogonal cover sequence 1PUCCH format, and is calculated as:
[0053] 其用于配置用于向UE分布式传输的EPDCCH组q，并且 [0053] for configuring a set of q EPDCCH distributed transmission to the UE, and
[0055] 其用于向UE的局部式传输的EPDCCH组q，其中n_q为用于构成在子帧m中发射的EPDCCH的最小ECCE指数；为由eNB配置的偏移以从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAR。 [0055] q set for the EPDCCH localized transmission to the UE, wherein for constituting a minimum n_q ECCE index EPDCCH transmitted in a sub-frame m; configured by the eNB to calculate the offset from the other group EPDCCH separating those calculated for the set of q EPDCCH PUCCH resource index; AAR. 为包括在EPDCCH的DCI中的AR0的值；N_q为在具有相对指数i的子帧中配置用于EPDCCH组Q的ECCE的数量；A/S'%为在资源块中的ECCE的数量；n'为从在子帧m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的0到3之间的数字。 Including a value in the DCI AR0 in EPDCCH; N_q to configure the number of Q groups ECCE EPDCCH for the subframe having a relative index of i; ECCE is the number of resource blocks in the A / S '%; n 'between the number of from 0 to 3 EPDCCH DMRS for transmission in a sub-frame m (demodulation reference signal) determined by the antenna port.
[0056] 在示例6,示例5的主题可选地包括：其中，如果经由使用正交资源发射分集(S0RTD)的两根天线发射PUCCH，则PUCCH资源指数计算用于一个天线端口，并且对另一个天线端口增加1。 [0056] In Example 6, the subject matter of example 5 optionally comprising: wherein, if the transmit diversity (S0RTD) via two antennas using orthogonal transmit PUCCH resource, the PUCCH resource index is calculated for one antenna port and on the other one antenna port increased by one.
[0057] 在示例7,示例5的主题可选地包括：其中对于m>0，AR0的值从下面一组元素中选择： [0057] In Example 7, the subject matter of example 5 optionally comprises: where for values ​​of m> 0, AR0 is selected from the following set of elements:
[0059] 在示例8,示例5的主题可选地包括：其中对于m= 0，AR0的值从下面一组元素中选择： [0059] In Example 8, the subject matter of Example 5 comprises optionally: wherein for value = 0 m, AR0 is selected from the following set of elements:
[0060] {-2，-1，0,2}。 [0060] {-2, -1,0,2}.
[0061] 在示例9中，示例5的主题可选地包括：其中对于m>0，AR0的值从下面一组元素中选择 [0061] In Example 9, the subject of the example 5 optionally comprises: where for values ​​of m> 0, AR0 is selected from the following set of elements
其中a和0是特定整数。 And wherein 0 is a specific integer.
[0062] 在示例10中，示例5的主题可选地包括：其中对于m>0,AR0的值从下面一组元素中选择 [0062] In Example 10, the subject of the example 5 optionally comprises: where for values ​​of m> 0, AR0 is selected from the following set of elements
，其中a和0是特定整数。 , Wherein a and 0 are specific integers.
[0063] 在示例11中，示例9或10的主题可选地包括：其中a= 〇和0 = 2。 [0063] In Example 11, relating to Example 9 or 10 optionally comprises: wherein a = 0 and a = 2 billion.
[0064] 在示例12中，示例1到11的任意主题可选地包括：其中AR0区段为两个比特区段。 [0064] In Example 12, any of Examples 1 to 11 relating optionally comprises: two bits wherein AR0 section segments.
[0065] 在示例13中，示例1到12的任意主题可选地包括：其中从UE接收确认，用于在连续上行链路子帧的HJCCH中的绑定窗口的子帧中的roSCH传输，其中PUCCH包括具有两个比特的确认区段的上行链路控制信息（UCI)。 [0065] In Example 13, any of the examples 1 to 12 relating optionally comprising: wherein receiving an acknowledgment from the UE, for transmission subframe roSCH binding window in the continuous uplink subframes in the HJCCH, wherein the PUCCH includes uplink acknowledgment segment having two bits of control information (UCI).
[0066] 在示例14中，示例13的主题可选地包括：其中在UCI中的两个比特确认区段的值与由UE选择的PUCCH资源组合，以从由UE计算的用于在绑定窗口的子帧中的H)SCH传输的PUCCH资源指数当中发射PUCCH，从而导出四个分离的确认。 [0066] In Example 14, the subject matter of example 13 optionally includes: wherein the two bits in the UCI segment with a confirmation value selected by the UE PUCCH resource combinations in order from the UE calculated for binding in the subframe window H) PUCCH resource index SCH transmission among the transmitting PUCCH, to derive four separate confirmation.
[0067] 在示例15中，机器可读介质保存指令，当执行指令时，使得机器执行如示例1到14 的任意方法。 [0067] In Example 15, a machine-readable medium storing instructions, when executed, cause the machine to perform any method as in Example 1 to 14.
[0068]在示例16, 一种包括用于执行示例1到示例14的任意一个的方法的装置的系统。 [0068] In Example 16, an example system comprising means for performing the method of any one of examples 1 to 14. [0069] 上述详细描述包括对附图的参考，其形成详细描述的一部分。 [0069] The detailed description includes references to the accompanying drawings which form a part of the detailed description. 为了阐明，附图显示可实现的特定实施例。 To clarify, the drawings show a particular embodiment can be achieved. 这些实施例也称为"示例"。 These embodiments are also referred to as "sample." 这样的示例包括除了显示或描述的之外的元素。 Such examples include elements other than shown or described. 然而，包括显示或描述的元素的这些示例也被解释。 However, these examples include a display or elements described herein are also explained. 而且，使用显示或描述的那些元素（或者其中的一个或多个方面）的任意组合或改变的示例也被解释，或者关于特定的示例（或者其中一个或多个方面），或者关于这里显示或描述的其他示例（或者其中的一个或多个方面）。 Moreover, any combination of those elements using the display (or wherein the one or more aspects) or example described also to be interpreted or changed, or information about specific examples (or one or more aspects), shown here, or on or other examples of (or in which one or more aspects) described herein.
[0070] 在本文献中参考的出版物、专利和专利文献作为参考被整体结合，即使作为参考被单独结合。 [0070] In the present document reference publications, patents, and patent documents incorporated by reference in its entirety, even if individually incorporated by reference. 在使用该文献和其他作为参考结合的文献不一致的情况下，在结合的参考中的使用是对本文献的补充；对于不能协调的不一致，在本文献中的使用来进行控制。 In the case of this document and other documents incorporated by reference as inconsistent, in incorporated by reference in this document is complementary; for irreconcilable inconsistencies, used in this document to be controlled.
[0071] 在本文中，使用术语" 一个"，是专利文献中的通用的，其包括一个或超过一个，而不管"至少一个"或"一个或多个"的其他任何例子或使用。 [0071] As used herein, the term "a" is the generic patent literature, including one or more than one, regardless of the "at least one" or "one or more" or any other examples. 在本文中，术语"或者"用来指非排他性，或者诸如"A或B"包括"A但不包括B"、"B但不包括A"和"A和B"，除非另外指出。 As used herein, the term "or" is used to refer to a nonexclusive or, such as "A or B" includes "A but not B", "B but not A" and "A and B", unless otherwise indicated. 在附带的权利要求书中，术语"包括"和"其中"用来作为普通英语，其等同于相应术语"包含"和"其中"。 In the appended claims, the terms "including" and "in which" are used as the plain-English, which is equivalent to the respective terms "comprising" and "wherein." 同样地，在以下权利要求中，术语"包括"和"包含"是开放地，即在权利要求中这样的术语注定落入权利要求的包户范围之后，其包括除了列出的那些元素之外的元素的系统、设备、人造物或过程。 After Similarly, in the following claims, the terms "including" and "comprising" is open to, i.e. such terms are destined to fall within the scope of the claims of the user packets in the claims, comprising in addition to those elements listed system elements, equipment, artifact or process. 而且，在以下权利要求中，术语"第一"、"第二"和"第三" 等仅仅是用来标记的，不是为了对这些主题进行数字排序。 Further, in the following claims, the terms "first", "second" and "third," etc. are merely used to mark, not to sort the digital topics.
[0072] 上述实施例以各种硬件配置来执行，其包括用于执行所述技术的指令的处理器。 [0072] In the above-described embodiments configured to perform various hardware, including a processor instructions for performing the art. 这样的指令可以保存在诸如合适的存储介质或存储器或其他可执行处理器介质的机器可读介质。 Such instructions may be stored in a suitable machine, such as memory or other storage medium, or processor readable medium executable medium.
[0073] 这里所述实施例可在多种环境下执行，例如无线局域网（WLAN)、第三代合作伙伴项目（3GPP)通用陆地无线接入网（UTRAN)、或者长期演进（LTE)或长期演进（LTE)通信系统，尽管本发明的范围不限制于此。 [0073] The long embodiments herein may be performed in a variety of environments, such as wireless local area network (WLAN), Third Generation Partnership Project (3GPP) universal terrestrial radio access network (the UTRAN), or a long term evolution (LTE) or Evolution (LTE) communication system, although the scope of the present invention is not limited thereto. 示例LTE系统包括与基站进行通信的多个移动站，其在LTE规范中定义为用户设备（UE)，所述基站在LTE规范中定义为eNB。 Example LTE system includes a plurality of mobile stations communicating with a base station, which is defined in the LTE specification for the user equipment (the UE), the base station eNB in ​​the LTE is defined as a specification.
[0074] 这里的天线包括一个或多个定向或全向天线，其包括诸如偶极天线、单极天线、贝占片天线、环形天线、微带天线或其他类型的适于RF信号传输的天线。 [0074] Here an antenna comprises one or more directional or omnidirectional antennas, including an antenna which is adapted to transmission of RF signals such as a dipole antenna, a monopole antenna, a shell sheet accounting antennas, loop antennas, microstrip antennas or other types of . 在某些实施例中，代替两根或更多根天线，使用具有多个孔径的单根天线。 In certain embodiments, instead of two or more antennas, a single antenna with multiple apertures. 在这些实施例中，每个孔径称为分离的天线。 In these embodiments, each aperture called separate antenna. 在某些多输入多输出（MHTO)实施例中，天线被有效地分离以帮助空间分集和导致每根天线和发射站的天线之间的不同信道特性。 In some multiple input multiple output (MHTO) embodiment embodiment, the antenna is effectively separated to facilitate spatial diversity and the different channel characteristics leads between the antenna and each antenna of the transmitting station. 在某些MM0实施例中，使用上至波长的1/10 或更多来分离天线。 MM0 In certain embodiments, the use of up to 1/10 of a wavelength or more separated antennas.
[0075] 在某些实施例中，这里所述接收机配置为根据专门的通信标准接收信号，例如，包括IEEE802. 11-2007和/或802. 11 (n)标准的电气和电子工程师协会（IEEE)标准，和/或用于WLAN的提出的规范，尽管本发明的范围不限于该方面，因为其也适于根据其他技术和标准来发射和/或接收通信。 [0075] In certain embodiments, where the receiver is configured to receive a signal in accordance with specific communication standards, e.g., the association including IEEE802. 11-2007 and / or 802. 11 (n) standards Electrical and Electronics Engineers ( IEEE) standard, and / or proposed specifications for WLAN, although the scope of the present invention is not limited in this respect, because it is also adapted to transmit and / or receive communications in accordance with other techniques and standards. 在某些实施例中，接收机配置成按照用于无线城域网（WMAN) 的包括其各种变化和改进的IEEE802. 16-2004、IEEE802. 16(e)和/或IEEE802. 16(m)标准来接收信号，尽管本发明的范围不限于该方面，因为他们还适于根据其它技术和标准发射和/或接收通信。 In certain embodiments, includes a receiver configured in accordance with a wireless metropolitan area network (WMAN) that various changes and modifications of the IEEE802. 16-2004, IEEE802. 16 (e) and / or IEEE802. 16 (m ) to receive the standard signal, although the scope of the present invention is not limited in this respect, because they are also adapted to transmit and / or receive communications in accordance with other techniques and standards. 在某些实施例中，接收机可配置成按照通用陆地无线接入网（UTRAN) LTE通信标准接收信号。 In certain embodiments, the receiver may be configured in accordance with the Universal Terrestrial Radio Access Network (UTRAN) LTE communication standard received signals. 对于关于IEEE802. 11和IEEE802. 16标准的更多信息，请参考"IEEEStandardsforInformationTechnology-TelecommunicationandInformation ExchangebetweenSystems'，-LocalAreaNetworks-SpecificRequirements-Parts 11^WirelessLANMediumAccessControl(MAC)andPhysicalLayer(PHY),IS0/IEC 8802-11:1999"和MetropolitanAreaNetworks-SpecificRequirements-Parts16:"Air InterfaceforFixedBroadbandWirelessAccessSystems"，2005年5 月，和相关的修改/版本。 . For more information on IEEE802 11 and IEEE802 16 standards, please refer to "IEEEStandardsforInformationTechnology-TelecommunicationandInformation ExchangebetweenSystems', - LocalAreaNetworks-SpecificRequirements-Parts 11 ^ WirelessLANMediumAccessControl (MAC) andPhysicalLayer (PHY), IS0 / IEC 8802-11: 1999" and MetropolitanAreaNetworks-SpecificRequirements-Parts16: "Air InterfaceforFixedBroadbandWirelessAccessSystems", in May 2005, and related modifications / version. 对于关于UTRANLTE标准的更多信息，参见2008年3月的用于UTRAN-LTE的第三代合作伙伴项目（3GPP)标准，其包括其中的变化和改进。 For more information on UTRANLTE standards, see the Third Generation Partnership Project (3GPP) in March 2008 for UTRANLTE standards, including changes and improvements therein.
[0076] 上述描述是为了阐述，不是为了限制。 [0076] The foregoing description is for illustrative and not for purposes of limitation. 例如，上述示例（或者其中的一个或多个方面）可与其他组合使用。 For example, the above-described examples (or one or more aspects of which) may be used in combination with others. 可以使用本领域技术人员回顾上述描述想到的其他实施例。 Those skilled in the art can review other embodiments described above occur. 摘要允许读者迅速明确本技术内容的性质，例如与美国的37C.FR § 1.72(b) -致。 Abstract that will allow the reader to quickly clear the nature of the technical content, such as with the United States 37C.FR § 1.72 (b) - induced. 应当知道这不能用来解释或限制权利要求的范围或含义。 It should be understood can not be used to interpret or limit the scope or meaning of the claims. 同样地，在上述详细说明中，各种特征可以放在一起来表现本发明。 Likewise, in the foregoing detailed description, various features may be put together in the performance of the present invention. 然而，权利要求并不解释这里公开的每个特征，因为实施例表现上述特征子集。 However, the claims are not construed Each feature disclosed herein, because the performance of the above-described embodiments feature subset. 另外，实施例包括比在特定示例中公开的特征更少的特征。 Further, embodiments include fewer features than in the specific example disclosed features. 因此，以下权利要求与详细说明结合在一起，使得每个权利要求单独成为一个独立的实施例。 Thus, the following claims together with the detailed description, claims that each individual as a separate embodiment. 这里公开的实施例的范围可以参考附带的权利要求来确定，其与权利要求限定的等同的整个范围保持一致。 Scope of the embodiments disclosed herein may be embodiments with reference to the appended claims to determine which define the full scope of the claims and equivalents consistent.
1. 一种用于在时分复用（TDD)模式下操作演进节点基站（eNB)的方法，包括： 经由由索引的增强控制信道元素巧CC巧组成的增强物理下行链路控制信道(EPDCCH)，将下行链路控制信息值CI)发射到肥，W授予用于属于绑定窗口的下行链路子帖的物理下行链路共享信道（PDSCH)资源；并且将物理上行链路控制信道（PUCCH)资源指数分配给肥来确认作为用来构成EPDCCH的ECCE的最小指数的函数计算的PDSCH传输，所述EPDCCH添加到为所述肥从属于绑定窗口的更早的子帖导出的EPDCCH中的ECCE的数目， 并且添加到两个特定整数值之一；并且发射指示所述肥将所述PUCCH资源指数偏移等于ARO的数值的量的DCI的ARO区段中的确认资源偏移（ARO)，并且除了所述绑定窗口的最早子帖W外，从包括将所述PUCCH资源指数偏移到用来确认在所述绑定窗口的最早子帖的PDSCH传输的范围的值的群组中选择用 1. A method for operating an evolved node base station (eNB) in a time division multiplexing (TDD) mode, comprising: via a physical downlink control channel to enhance a reinforcing element of the index channel CC clever clever composition (EPDCCH) the downlink control information value CI) transmitted to the fertilizer, W physical downlink grant binding window belonging to the downlink sub posts shared channel (PDSCH) resources; and a physical uplink control channel (PUCCH ) resource index assigned to the fertilizer to confirm PDSCH transmissions as a function of the minimum index is used to form EPDCCH ECCE calculated, the EPDCCH is added to the fat binding window belonging to the sub-signature derived earlier in EPDCCH the number of ECCE, and added to a particular one of the two integer values; and transmitting acknowledgment resource offset indicating the fertilizer (ARO) the PUCCH resource index is equal to the amount of the offset value of ARO ARO section of the DCI and in addition to said first sub-bound note window W, the PUCCH resource from the index comprising an offset to the range of values ​​to ensure that the groups of the first sub-PDSCH transmission window posts of the binding of selection ARO的值。 The value of the ARO.
2. 如权利要求1所述方法，其中， 对于具有在0到M-1之间的相对指数m的下行链路子帖，其中M为所述绑定窗口中的子帖的数目并且m= 0表示所述最早子帖，所述PUCCH资源指数《结1,,,用来确定资源块对、 循环偏移和格式1PUCCH的正交覆盖序列，并且计算为： 2. The method as claimed in claim 1, wherein, with respect to the downlink subframe 0 M 1-tie between the relative index m, where M is the number of sub-windows of the posts binding and m = 0 indicates the first sub-posts, the PUCCH resource index "1 ,,, node for determining resource block pair, and a cyclic shift orthogonal cover sequence 1PUCCH format, and is calculated as:
用于为向所述肥的分布式传输配置的EPDCCH组q，并且 Q is set for EPDCCH configured to transmit the distributed fertilizer, and
用于向所述肥的局部式传输的EPDCCH组q，其中necce,q为用于构成在子帖m中发射的EPDCCH的最小ECCE指数；W拍心为由eNB配置的偏移W从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAK。 Q EPDCCH set for the transmission of the localized fat, wherein necce, q configured for transmitting the m sub post EPDCCH minimum ECCE index; W heart beat by eNB configured offset from the other W those isolated EPDCCH group EPDCCH set of q is calculated computing PUCCH resource index; AAK. 为包括在EPDCCH的DCI中的ARO的值； Necce,q为在具有相对指数i的子帖中配置用于EPDCCH组q的ECCE的数量；为在资源块中的ECCE的数量；n'为从在子帖m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的0到3之间的数字。 Including the ARO value in the DCI EPDCCH; Necce, q is a post having a relative index of the sub-i in the configuration of the number of ECCE for EPDCCH set of q; ECCE is the number of resource blocks; n 'is from EPDCCH DMRS for transmission in a sub-post in m (demodulation reference signal) between the number of antenna ports 0 to 3 of the determination.
3. 如权利要求2所述方法，其中， 如果经由使用正交资源发射分集（SORTD)的两根天线发射所述PUCCH，则所述PUCCH资源指数n装。 The method as claimed in claim 2, wherein if transmit diversity (the SORTD) is transmitted via two antennas using orthogonal resource of the PUCCH, the PUCCH resource index n is loaded. 〇^计算用于一个天线端口，并且对另一个天线端口增加1。 ^ Calculates a square antenna port and antenna port 1 further increased.
4. 如权利要求2所述方法，其中， 对于m〉0,所述ARO的值从下面一组元素中选择： 4. The method as claimed in claim 2, wherein for m> 0, the value of ARO is selected from the following set of elements:
5. 如权利要求2所述方法，其中， 对于m= 0,所述ARO的值从下面一组元素中选择：{-2, -1，0, 2}。 5. The method as claimed in claim 2, wherein, for m = 0, the value of ARO is selected from the following set of elements: {- 2, -1, 0, 2}.
6. 如权利要求2所述方法，其中， 对于m〉0,所述ARO的值从下面一组元素中选择： 6. The method as claimed in claim 2, wherein, for a> 0 value of m, the ARO is selected from the following set of elements:
其中a和P是特定整数。 And wherein P is a particular integer.
7. 如权利要求2所述方法，其中， 对于m〉0,所述AR0的值从下面一组元素中选择： 7. The method as claimed in claim 2, wherein, for a> 0 value m, said AR0 is selected from the following set of elements:
中选择AR0的值，其中a和P是特定整数。 AR0 of selected values, and wherein P is a specific integer.
8. 如权利要求7所述方法，其中， 曰=0和0 = 2。 8. The method as claimed in claim 7, wherein said = 0 and 0 = 2.
9. 如权利要求2所述方法，其中， 还包括从所述肥接收确认，用于在连续上行链路子帖的PUCCH中的绑定窗口的子帖中接收PDSCH传输，其中所述PUCCH含有具有两个比特的确认区段的上行链路控制信息扣CI)。 9. The method as claimed in claim 2, wherein further comprising receiving an acknowledgment from the fertilizer, a sub binding window posts in a continuous uplink sub-posts receive PDSCH in the PUCCH transmission, wherein the PUCCH comprising uplink acknowledgment segment having two bits of control information buckle CI).
10. 如权利要求9所述方法，其中， 还包括在所述UCI中的两个比特确认区段的值与由所述肥选择的PUCCH资源组合，W从由所述肥计算的用于在绑定窗口的子帖中的PDSCH传输的PUCCH资源指数当中发射所述PUCCH，从而导出四个分离的确认。 10. The method as claimed in claim 9, wherein further comprising two bits of the UCI segment confirmation value PUCCH resource combinations selected by the fat, W from the fat used in the calculation PUCCH resource index PDSCH transmission in a sub-post binding window among the PUCCH transmitting, to derive four separate confirmation.
11. 一种用于在LTE(长期演进）网络中操作的演进节点基站（eNB)，包括： 处理电路和用于与用户设备扣巧进行通信的无线电接口，当在时分复用灯孤）模式下操作时，所述处理电路将： 经由由索引的增强控制信道元素巧CC巧组成的增强物理下行链路控制信道(EPDCCH)，发射下行链路控制信息值CI)到肥，W授予用于属于绑定窗口的下行链路子帖的物理下行链路共享信道（PDSCH)资源； 将物理上行链路控制信道（PUCCH)资源指数分配给肥来确认作为用来构成EPDCCH的ECCE的最小指数的函数计算的PDSCH传输，所述EPDCCH添加到为所述肥从属于绑定窗口的更早的子帖导出的EPDCCH中的ECCE的数目，并且添加到两个特定整数值之一；并且发射指示所述肥将所述PUCCH资源指数偏移等于AR0的数值的量的DCI的AR0区段中的确认资源偏移（AR0);和所述AR0区段的值对应于从包括将所述PUCCH资源 11. A method for LTE (long term evolution) network operating in an evolved node base station (the eNB), comprising: a processing circuit and a clever radio interface for communicating with a user equipment buckle, when the time division multiplexing solitary lamp) Model when operating, the processing circuit: via an enhanced physical downlink control channel (EPDCCH) enhanced control channel element of the index by a clever composition of the CC clever, emission values ​​downlink control information CI) to fertilizer, W for grant binding window belonging to the downlink physical downlink shared channel sub-posts (PDSCH) resources; the physical uplink control channel (PUCCH) resource index assigned to the fertilizer to be confirmed as the minimum index of ECCE is configured EPDCCH calculate the transfer function of the PDSCH, the number added to the ECCE EPDCCH sub EPDCCH posts derived earlier fertilizer dependent binding to the window, and added to a particular one of the two integer values; and indicating the emission acknowledgment resource offset (AR0) to said fat index of the PUCCH resource offset is equal to the value of the DCI AR0 AR0 section; and a value corresponding to the segment AR0 from the PUCCH resources comprises 数偏移到用于确认在所述绑定窗口的最早子帖中的PDSCH传输的范围的值的群组中选择AR0的值。 Offset to the group for confirming a range of values ​​in the first sub-PDSCH transmission the binding thread selected window of values ​​AR0.
12. 如权利要求11所述eNB，其中， 对于具有在0到M-1之间的相对指数m的下行链路子帖，其中M为所述绑定窗口中的子帖的数目并且m= 0表示所述最早子帖，所述PUCCH资源指数悠用来确定资源块对、 循环偏移和格式1PUCCH的正交覆盖序列，并且计算为： 12. The 11 eNB claim, wherein, with respect to the downlink subframe 0 M 1-tie between the relative index m, where M is the number of sub-windows of the posts binding and m = 0 indicates the first sub-signature, the index of the PUCCH resource to determine the resource block pair Yau, cyclic shift and the orthogonal cover sequence 1PUCCH format, and is calculated as:
用于到肥的局部式传输的EPDCCH组q，其中necce,q为用于构成在子帖m中发射的EPDCCH的最小ECCE指数；ACcbw为由eNB配置的偏移W从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAK。 Is used to set q EPDCCH fat localized transmission, wherein necce, q is the minimum for forming EPDCCH transmitted ECCE index m in the sub-post; ACcbw eNB by the configured offset calculated from the W group other EPDCCH those isolated as a set of q EPDCCH calculated PUCCH resource index; AAK. 为包括在EPDCCH的DCI中的ARO的值； Necce,q为在具有相对指数i的子帖中配置用于EPDCCH组q的ECCE的数量；A噫a'"为在资源块中的ECCE的数量；n'为从在子帖m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的0到3之间的数字。 Including the ARO value in the DCI EPDCCH; Necce, q is a post having a relative index of the sub-i in the configuration of the number of ECCE for EPDCCH set of q; A Alas a ' "in the resource block ECCE is the number ; n 'a number from 0 to 3 from the DMRS for EPDCCH transmission in a sub-post in m (demodulation reference signal) determined by the antenna port.
13. 如权利要求12所述eNB，其中， 对于m〉0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值： 13. The eNB as claimed in claim 12, wherein for m> 0, the value of ARO segment corresponds to a value selected from the following group of elements in the ARO:
14. 如权利要求12所述eNB，其中， 对于m= 0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值：{-2, -1，0， 2}。 14. The eNB as claimed in claim 12, wherein for m = 0, the value of ARO ARO section corresponding to the value selected from the following set of elements: {- 2, -1, 0, 2}.
15. 如权利要求12所述eNB，其中， 对于m〉0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值： 15. The eNB as claimed in claim 12, wherein for m> 0, the value of ARO segment corresponds to a value selected from the following group of elements in the ARO:
，其中a和P是特定整数。 , And wherein P is a specific integer.
16. 如权利要求12所述eNB，其中， 对于m〉0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值： 16. The eNB as claimed in claim 12, wherein for m> 0, the value of ARO segment corresponds to a value selected from the following group of elements in the ARO:
17. -种用于在LTE(长期演进）网络中操作的用户设备扣巧，包括： 处理电路和用于与演进节点基站（eNB)通信的无线电接口，当在时分复用（TDD)模式下操作时，所述处理电路将： 经由由索引的增强控制信道元素巧CC巧组成的增强物理下行链路控制信道(EPDCCH)，从所述eNB接收的下行链路控制信息值CI)，W授予用于属于绑定窗口的下行链路子帖的物理下行链路共享信道（PDSCH)资源； 计算作为用于构成所述EPDCCH的ECCE的最小指数的函数的用于确认所述PDSCH传输的物理上行链路控制信道（PUCCH)资源指数给所述肥，所述EPDCCH添加到为所述肥从属于绑定窗口的更早的子帖导出的EPDCCH中的ECCE的数目，并且添加到两个特定整数值之* 接收指示所述肥将所述PUCCH资源指数偏移等于所述ARO的数值的量的DCI的确认资源偏移（ARO)区段中的ARO值；并且所述ARO区段的值对应于从包括将 17. - species for LTE (long term evolution) network user equipment operating in clever buckle, comprising: a processing circuit, and a base station for the evolved Node (eNB) of the radio interface communication, when time division multiplexing in (TDD) mode in operation, the processing circuit: via an enhanced physical downlink control channel (EPDCCH) enhanced control channel element of the index by a clever composition of the CC clever, received from the eNB downlink control information value CI), W grant for binding window belonging downlink sub post physical downlink shared channel (PDSCH) resources; calculated as a function of the index for the minimum configuration of the ECCE EPDCCH for confirming the transmission of the physical uplink PDSCH link channel (PUCCH) resource index to the fertilizer, the number of EPDCCH ECCE is added to the fat binding window belonging to the sub-signature derived earlier in EPDCCH, integers and added to two specific * value indicating the receiving fertilizer ARO PUCCH resource index value of the offset is equal to the value of the ARO DCI acknowledgment resource offset (ARO) section; and the value corresponding to the segment ARO from including in 所述PUCCH资源指数偏移到用于确认在所述绑定窗口的最早子帖中的PDSCH传输的范围的值的群组中选择ARO的值。 Index of the PUCCH resource for confirming the group is shifted to the range of values ​​in the first sub-PDSCH transmission window the binding thread selected value of ARO.
18. 如权利要求17所述肥，其中， 对于具有在0到M-1之间的相对指数m的下行链路子帖，其中M为所述绑定窗口中的子帖的数目并且m= 0表示所述最早子帖，所述PUCCH资源指数用来确定资源块对、 循环偏移和格式1PUCCH的正交覆盖序列，并且计算为： 18. The fertilizer as claimed in claim 17, wherein, with respect to the downlink subframe 0 M 1-tie between the relative index m, where M is the number of sub-windows of the posts binding and m = 0 indicates the first sub-signature, the index of the PUCCH resource to determine the resource block pair, cyclic shift and orthogonal cover sequences 1PUCCH format, and is calculated as:
其用于配置用于给肥分布式传输的EPDCCH组q，并且 Configured for EPDCCH set to q fertilizer distributed transmission, and
用于到肥的局部式传输的EPDCCH组q，其中necce,q为用于构成在子帖m中发射的EPDCCH的最小ECCE指数；i辟其为由eNB配置的偏移W从为其他EPDCCH组计算的那些中分离为EPDCCH组q计算的PUCCH资源指数；AAK。 Q EPDCCH set for localized transmission to the fat, wherein necce, q is a tie for forming sub-m in minimum emission of ECCE index EPDCCH; I eNB configured by provision of its offset from the other W group EPDCCH separating those calculated for computing the set of q EPDCCH PUCCH resource index; AAK. 为包括在EPDCCH的DCI中的ARO的值； Necce,q为在具有相对指数i的子帖中配置用于EPDCCH组q的ECCE的数量；iV置t'£'"为在资源块中的ECCE的数量；n'为从在子帖m中用于EPDCCH传输的DMRS(解调参考信号）天线端口确定的0到3之间的数字。 Including the ARO value in the DCI EPDCCH; Necce, q is a post having a relative index of the sub-i in the configuration of the number of ECCE for EPDCCH set of q; the iV counter t '£' "is a resource block in ECCE number; n 'a number from 0 to 3 from the DMRS for EPDCCH transmission in a sub-post in m (demodulation reference signal) determined by the antenna port.
19. 如权利要求18所述肥，其中， 对于m〉0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值： 19. The fertilizer as claimed in claim 18, wherein for m> 0, the value of ARO segment corresponds to a value selected from the following group of elements in the ARO:
20. 如权利要求18所述肥，其中， 对于m= 0,所述ARO区段的值对应于从下面一组元素中选择的ARO的值：{-2, -1，0， 2} 〇 {- 2, -1, 0, 2} ○: 20. A fertilizer as claimed in claim 18, wherein for m = 0, the value of ARO segment corresponds to a value selected from the following group of elements in the ARO
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