CN104604167A - 用于载波聚合(ca)的混合自动重传请求(harq)映射 - Google Patents
用于载波聚合(ca)的混合自动重传请求(harq)映射 Download PDFInfo
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- CN104604167A CN104604167A CN201380045096.7A CN201380045096A CN104604167A CN 104604167 A CN104604167 A CN 104604167A CN 201380045096 A CN201380045096 A CN 201380045096A CN 104604167 A CN104604167 A CN 104604167A
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Abstract
公开的技术能动态改变对于载波聚合(CA)的混合自动重传请求(HARQ)映射。在示例中,可操作来动态改变对于载波聚合(CA)映射的混合自动重传请求(HARQ)的用户设备(UE)可以包括计算机电路,该计算机电路配置为:在对于主小区(PCell)的主HARQ绑定窗口大小是零时,确定对于辅小区(SCell)的辅HARQ绑定窗口大小;确定用于使用辅HARQ绑定窗口大小传输HARQ确认(ACK)反馈的物理上行链路控制信道(PUCCH)资源;以及传输PUCCH资源中的HARQ-ACK反馈。
Description
背景技术
无线移动通信技术使用各种标准和协议来在节点(例如,传输站)与无线设备(例如,移动设备)之间发送数据。一些无线设备在下行链路(DL)传输中使用正交频分多址(OFDMA)并且在上行链路(UL)传输中使用单载波频分多址(SC-FDMA)来进行通信。使用正交频分复用(OFDM)进行信号传输的的标准和协议包含第三代合作伙伴计划(3GPP)长期演进(LTE)、电气和电子工程师协会(IEEE)802.16标准(例如,802.16e、802.16m)(通常对于行业组已知为WiMAX(微波接入全球互通))、以及IEEE802.11标准(通常对于行业组已知为WiFi)。
在3GPP无线接入网络(RAN)LTE系统中,节点可以是演进型通用陆地无线接入网络(E-UTRAN)节点B(通常还表示为演进型节点B、增强型节点B、eNodeB、或者eNB)和与无线设备(称为用户设备(UE))进行通信的无线网络控制器(RNC)的组合。下行链路(DL)传输可以是从节点(例如,eNodeB)到无线设备(例如,UE)的通信,并且上行链路(UL)传输可以是从无线设备到节点的通信。
在LTE中,数据可以通过物理下行链路共享信道(PDSCH)从eNodeB发送至UE。物理上行链路控制信道(PUCCH)能够被用来确认数据被接收。下行链路和上行链路信道或传输能够使用时分双工(TDD)或者频分双工(FDD)。时分双工(TDD)是时分复用(TDM)的应用,用以将下行链路和上行链路信号分离(或者在D2D通信中将去往UE或者来自UE的信号分离)。在TDD中,下行链路信号和上行链路信号可以在相同的载波频率(即共享的载波频率)上携带,其中下行链路信号使用不同于上行链路信号的时间间隔,所以下行链路信号和上行链路信号不产生对彼此的干扰。TDM是一种数字复用的类型,其中,两个或更多个比特流或信号(诸如下行链路或者上行链路)在一个通信信道中作为子信道在表面上看上去是同时传送的,但在物理上是在不同的资源上发送的。在频分双工(FDD)中,上行链路传输和下行链路传输(或者在D2D通信中去往/来自UE的传输)能够使用不同的频率载波(即,针对每个传输方向分离载波频率)来进行操作。在FDD中,由于下行链路信号使用不同于上行链路信号的频率载波,因此能够避免干扰。
附图说明
本公开内容的特征和优点将从下面结合附图的具体实施方式而显而易见,这些附图一起通过示例的方式示出本公开内容的特征;并且其中:
图1示出依据示例的各种分量载波(CC)带宽的框图;
图2A示出依据示例的多个连续分量载波的框图;
图2B示出依据示例的频带内非连续分量载波的框图;
图2C示出依据示例的频带间非连续分量载波的框图;
图3A示出依据示例的对称-非对称载波聚合配置的框图;
图3B示出依据示例的非对称-对称载波聚合配置的框图;
图4示出依据示例的上行链路无线帧资源(例如,资源网格)的框图;
图5(即表格4)示出依据示例的,针对辅小区(SCell)的物理下行链路共享信道(PDSCH)混合自动重传重新请求确认(HARQ-ACK)时序参考的上行链路-下行链路(UL-DL)配置数量的表格;
图6示出依据示例的,针对频带间时分双工(TDD)载波聚合(CA)(例如,不同的UL-DL配置)的、针对主小区(PCell)和辅小区(SCell)的可变混合自动重传请求确认(HARQ-ACK)绑定窗口大小;
图7示出依据示例的,在时分双工(TDD)频带间载波聚合(CA)场景中的不同的混合自动重传请求确认(HARQ-ACK)绑定窗口;
图8描绘依据示例的,用于在用户设备(UE)处在载波聚合(CA)中使用的混合自动重传请求(HARQ)绑定的方法的流程图;
图9描绘依据示例的,可操作用以动态地改变针对载波聚合(CA)的混合自动重传请求(HARQ)映射的用户设备(UE)的计算机电路的功能;
图10是示出依据示例的服务节点、协调节点和无线设备(例如,UE)的框图;
图11示出依据示例的无线设备(例如,UE)的图;
图12(即表格5)示出依据示例的,针对M=2的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-2);
图13(即表格6)示出依据示例的,针对M=3的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-3);
图14(即表格7)示出依据示例的,针对M=4的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-4);
图15(即表格8)示出依据示例的,针对M=2的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-5);
图16(即表格9)示出依据示例的,针对M=3的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-6);
图17(即表格10)示出依据示例的,针对M=4的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3-7);
图18(即表格11)示出依据示例的,针对M=3的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3.2-5);以及
图19(即表格12)示出依据示例的,针对M=3的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格10.1.3.2-6)。
图20(即表格13)示出依据示例的,针对M=4的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格;
图21(即表格14)示出依据示例的,针对M=3的绑定窗口大小的混合自动重传请求确认(HARQ-ACK)复用的传输的表格;
图22(即表格15)示出依据示例的,针对具有信道选择(CS)的物理上行链路控制信道(PUCCH)格式1b的混合自动重传请求确认(HARQ-ACK)映射表格的表格;
图23(即表格16)示出依据示例的,针对频带间时分双工(TDD)载波聚合(CA)的不同上行链路-下行链路(UL-DL)配置的混合自动重传请求确认(HARQ-ACK)查找映射表格的表格;以及
图24(即表格17)示出依据示例的,根据确认(ACK)/否定ACK(ACK/NACK)资源指示符(ARI)的物理上行链路控制信道(PUCCH)资源值的表格(即,3GPP LTE标准版本11技术规范(TS)36.213表格9.2-2)。
现在将对示出的示例性实施例进行参照,并且本文中将使用特定的语言来描述相同的实施例。然而,应理解的是,这并非旨在凭此对本发明的范围有任何限定。
具体实施方式
在公开并说明本发明之前,要理解的是本发明不限于本文公开的特定构造、处理步骤、或者材料,而是扩展至由相关领域的技术人员认识到的等同物。还应该理解的是本文采用的术语仅用于说明特定示例的目的,并且不意图是限制性的。不同附图中的相同附图标记代表相同的要素。在流程图和处理中提供的数字被提供用来明确示出步骤和操作,并且不一定指示特定顺序或者序列。
除非指出,否则本文从3GPP LTE标准引用的所有表格在版本11的3GPP LTE标准中有提供。
示例性实施例
下文提供技术实施例的初始总览,进而之后进一步具体说明具体技术实施例。该初始概要旨在协助读者更快速理解技术,但是不意图识别技术的关键特征或者基本特征,也不意图限制要求的主题的范围。
无线数据传输量的增加已在使用授权频谱来对无线设备(诸如智能电话和平板计算机设备)提供无线通信服务的无线网络中造成了拥塞。拥塞在高密度和高频使用的地点(诸如城市地区和大学)尤其明显。
一种用于向无线设备提供额外的带宽容量的技术是通过使用多个较小带宽的载波聚合来在无线设备(例如,UE)处形成虚拟宽带信道。在载波聚合(CA)中,多个分量载波(CC)能够聚合,并联合用于去往/来自单个终端的传输。载波可以是其上放置了信息的许可频域中的信号。载波上能够放置的信息的量可以由频域中聚合的载波的带宽来确定。许可的频域在带宽中经常是有限的。当大量的用户同时使用许可的频域中的带宽时,带宽限制可能变得更严重。
图1示出能够由无线设备使用的载波带宽、信号带宽、或者分量载波(CC)。例如,LTE CC带宽可以包括:1.4MHz 210,3MHz 212,5MHz 214,10MHz 216,15MHz 218和20MHz 220。1.4MHz CC能够包括包含72个子载波的6个资源块(RB)。3MHz CC可以包括包含180个子载波的15个RB。5MHz CC可以包括包含300个子载波的25个RB。10MHz CC可以包括包含600个子载波的50个RB。15MHz CC可以包括包含900个子载波的75个RB。20MHz CC可以包括包含1200个子载波的100个RB。
载波聚合(CA)能使使多个载波信号在用户的无线设备和节点之间同时地进行通信。能够使用多个不同的载波。在一些实例中,载波可以来自不同的许可频域。载波聚合对无线设备提供了更广泛的选择,使得能够获得更多的带宽。更多的带宽能够被用于通信带宽密集型操作(诸如流式视频或通信大数据文件)。
图2A示出连续载波的载波聚合的示例。在该示例中,3个载波沿着频带位置相连。每个载波可以被称作分量载波。在连续类型的系统中,分量载波位置彼此相邻,并且典型地可以位于单个频带(例如,频带A)内。频带可以是在电磁频谱中选择的频率范围。选择的频带被指定用于无线通信(诸如无线电话)。某些频带由无线服务提供商所拥有或租用。每个相邻的分量载波可以具有相同的带宽或者不同的带宽。带宽是频带的选择的部分。传统上,在单个频带内对无线电话进行管理。在连续载波聚合中,可以使用仅一个快速傅里叶变换(FFT)模块和/或一个无线电前端。连续分量载波可以具有类似的传播特性,其能够利用类似的报告和/或处理模块。
图2B-2C示出非连续分量载波的载波聚合的示例。非连续分量载波可以沿着频率范围间隔开。每个分量载波甚至可以位于不同的频带。非连续载波聚合能够提供对零散频谱的聚合。频带内(或者单个频带)非连续载波聚合在相同的频带(例如,频带A)内提供非连续载波聚合,如图2B所示。频带间(或者多频带)非连续载波聚合在不同频带(例如,频带A、B或者C)内提供非连续载波聚合,如图2C所示。使用不同频带中的分量载波的能力能够更有效地使用可用带宽,并增加聚合数据吞吐量。
网络对称(或者非对称)载波聚合可以由在扇区中的网络所提供的多个下行链路(DL)和上行链路(UL)分量载波来定义。UE对称(或非对称)载波聚合可以由配置用于UE的多个下行链路(DL)和上行链路(UL)分量载波来定义。DL CC的数量至少可以是UL CC的数量。系统信息块类型2(SIB 2)可以在DL和UL之间提供特定链接。图3A示出对称-非对称载波聚合配置的框图,其中载波聚合对于网络而言在DL和UL之间是对称的,而对于UE而言在DL和UL之间是非对称的。图3B示出非对称-对称载波聚合配置的框图,其中载波聚合对于网络而言在DL和UL之间是非对称的,而对于UE而言在DL和UL之间是对称的。
对于每个UE而言,CC可以被定义为主小区(PCell)。不同的UE可能不一定使用与其PCell相同的CC。PCell可以被视为针对UE的锚定载波,从而PCell可以被用于控制信令功能(诸如无线链接故障监测、混合自动重传请求确认(HARQ-ACK)、以及PUCCH资源分配(RA))。如果多于一个CC被配置用于UE,则额外的CC可以表示为该UE的辅小区(SCell)。
分量载波可以被用于在在节点(例如,eNodeB)和无线设备(例如,UE)之间,在使用通用长期演进(LTE)帧结构的上行链路传输中,经由在物理(PHY)层发送的无线帧结构来携带信道信息,如图4所示。虽然示出的是LTE帧结构,但还可以使用IEEE 802.16标准(WiMax)、IEEE802.11标准(WiFi)、或者使用SC-FDMA或者OFDMA的另一类型的通信标准的帧结构。
图4示出上行链路无线帧结构。类似的结构可以用于使用OFDMA的下行链路无线帧结构。在该示例中,用于发送控制信息或者数据的信号的无线帧100可以被配置为具有10毫秒(ms)的持续时间Tf。每个无线帧可以被分段或者划分为均为1ms长的10个子帧110i。每个子帧可以进一步被再分为2个时隙120a和120b,每个时隙具有0.5ms的持续时间Tslot。对于由无线设备和节点使用的分量载波(CC)的每个时隙可以基于CC频带宽度而包含多个资源块(RB)130a、130b、130i、130m和130n。每个RB(物理RB或者PRB)130i可以包含12-15kHz的子载波136(在频率轴上),并且每子载波有6或者7个SC-FDMA符号132(在时间轴上)。如果采用了短或者正常循环前缀,则RB可以使用7个SC-FDMA符号。如果使用了扩展循环前缀,则RB可以使用6个SC-FDMA符号。可以使用短或者正常循环前缀将资源块映射到84个资源元素(RE)140i,或者可以使用扩展循环前缀将资源块映射到72个RE(未示出)。RE可以是一个SC-FDMA符号142乘一个子载波(即15kHz)146的单元。在正交相移键控(QPSK)调制的情况下,每个RE能够发送2个比特150a和150b的信息。可以使用其它类型的调制,诸如使用16正交幅度调制(QAM)或者64QAM来在每个RE发送更大数量的比特,或者使用二进制相移键控(BPSK)调制来在每个RE发送更少数量的比特(单个比特)。RB可以配置用于从无线设备到节点的上行链路传输。
上行链路信号或者信道可以包括物理上行链路共享信道(PUSCH)上的数据、或者物理上行链路控制信道(PUCCH)上的控制信息。在LTE中,携带上行链路控制信息(UCI)的上行链路物理信道(PUCCH)可以包括信道状态信息(CSI)报告、混合自动重传请求(HARQ)确认/否定确认(ACK/NACK)、以及上行链路调度请求(SR)。
无线设备(例如,UE)能够使用PUCCH提供针对PDSCH的HARQ-ACK反馈。PUCCH能够支持具有各种调制和编码方案(MCS)的多种格式(即PUCCH格式),如表格1中针对LTE所示。在3GPP LTE标准版本11(例如,V11.1.0(2012-12))技术规范(TS)36.211表格5.4-1中示出了与表格1类似的信息。例如,PUCCH格式1b可以用于传送2比特HARQ-ACK,其可以用于载波聚合。
PUCCH格式 | 调制方案 | 每子帧的比特数量,Mbit |
1 | N/A | N/A |
1a | BPSK | 1 |
1b | QPSK | 2 |
2 | QPSK | 20 |
2a | QPSK+BPSK | 21 |
2b | QPSK+BPSK | 22 |
3 | QPSK | 48 |
表1
传统LTE TDD能够通过提供7种不同的半静态配置的上行链路-下行链路配置,来支持非对称UL-DL分配。表格2示出在LTE中使用的7种UL-DL配置,其中“D”代表下行链路子帧,“S”代表特殊子帧,并且“U”代表上行链路子帧。在一个示例中,特殊子帧可以作为下行链路子帧来操作或者对待。在3GPP LTE TS 36.211表格4.2-2中示出了与表格2类似的信息。
表格2
如由表格2所示,UL-DL配置0可以包括子帧2,3,4,7,8和9中的6个上行链路子帧,以及子帧0,1,5和6中的4个下行链路和特殊子帧;并且UL-DL配置5可以包括子帧2中的1个上行链路子帧,以及子帧0,1和3-9中的9个下行链路特殊子帧。每个上行链路子帧n可以基于上行链路-下行链路配置而与下行链路子帧相关联,其中,每个上行链路子帧n可以具有下行链路关联集索引K∈{k0,k1…kM-1},其中M被定义为集合K中元素的数量,如由表格3所示。在3GPP LTE TS 36.213表格10.1.3.1-1中示出了与表格3类似的信息。
表格3
表格3示出对于某些下行链路子帧处理ACK/NACK反馈的上行链路子帧中的下行链路子帧绑定(subframe bundling)的示例。例如,在上行链路-下行链路配置4中,上行链路子帧2(子帧n)对于下行链路和特殊子帧(即下行链路和特殊子帧{0,4,5,1}(或者下行链路和特殊子帧n-km))处理ACK/NACK反馈,该下行链路和特殊子帧是早于上行链路子帧2的{12,8,7,11}子帧(子帧km),并且M等于4。上行链路子帧3(子帧n)对于下行链路子帧(即,下行链路子帧{7,8,9,6}(或者下行链路子帧n-km)处理ACK/NACK反馈,该下行链路子帧是早于上行链路子帧3的{6,5,4,7}子帧(子帧km),并且M等于4。对于上行链路-下行链路配置5的上行链路子帧2而言,M等于9。对于上行链路-下行链路配置0的上行链路子帧2而言,M等于1,并且对于上行链路子帧3而言,M等于0。根据上行链路-下行链路配置,一个上行链路子帧可以负责对于一个或者多个下行链路子帧的ACK/NACK反馈。在某些情形下,甚至期望上行链路子帧责任之间的分布能够减少如下情形:一个上行链路子帧负责对于大量的下行链路和特殊子帧的ACK/NACK反馈。
作为一些示例中的基本要求,网络的小区能够同步改变UL-DL(TDD)配置以避免干扰。然而,该要求可能限制网络的不同小区中的流量管理能力。传统的LTE TDD集合的配置能够在40%和90%之间的范围提供DL子帧分配,如表格2所示。无线帧内的UL和DL子帧分配能够通过系统信息广播信令(例如,系统信息块SIB)重新配置。因此,一旦配置的UL-DL分配能够期待半静态地变化。
TDD的性质是:多个UL和DL子帧能够不同,如表格2所示,并且对于无线帧而言,DL子帧的数量经常能够多于UL子帧的数量。在使用比UL子帧更多的DL子帧的配置中,多个DL子帧能够与一个单个的UL子帧关联,用于传输对应的控制信号。能够定义配置特定的HARQ-ACK时序关系(例如,3GPP LTE标准版本11(例如,V11.1.0(2012-12))TS 36.213表格10.1.3.1-1或者表格3)。如果UE在能够与一个UL子帧关联的多个DL子帧中调度,那么UE能够传输该UL子帧中的多个ACK/NAK(ACK/NACK)位。具有对一个单个的UL子帧的HARQ-ACK反馈的多个DL子帧能够包括一个绑定窗口(bundling window)。
如图6所示,先前无线帧的子帧6,7,8和9能够根据对于上行链路子帧3对于UL-DL配置4预定义的HARQ-ACK时序关系,包括SCell上的一个绑定窗口(例如,绑定窗口1),而对应地,PCell可能不具有对于上行链路子帧3对于配置0定义的HARQ-ACK时序(例如,HARQ-ACK绑定窗口Mp=0)。在示例中,HARQ-ACK绑定窗口可能不用于具有9个DL子帧的配置5。
时分双工(TDD)系统的优点是通过不同的TDD配置的灵活的资源利用,以更好地匹配小区的上行链路和下行链路流量特性。通过配置不同的TDD配置,可用上行链路(UL)和下行链路(DL)资源之间的比率能够从3UL:2DL(6UL:4DL)增至1UL:9DL。在传统的LTE TDD(例如,LTE第10版(Rel-10)规范)中,仅可以定义并支持相同的UL-DL配置的TDD分量载波(CC)的聚合。相同的UL-DL配置能够简化CC的设计和操作,但相同的UL-DL配置还可能会带来一些限制。
在示例中,能够支持对于在不同带上具有不同上行链路-下行链路配置的TDD系统的频带间载波聚合(CA)。例如,多于一个的TDD载波能够由单个的TDD运营商部署,并且载波能够聚合在单个的基站(例如,节点)。此外,2个载波频率之间的分离能够足够大,以避免来自相同设备的UL-DL干扰。在不同带具有不同TDD配置的频带间CA的一些益处可以包括:(1)传统的系统共存;(2)异构网络(HetNet)支持;(3)依赖流量的载波的聚合;(4)灵活的配置(例如,在更低带中更多的UL子帧以更好的覆盖,以及在更高带中更多的DL子帧);以及(5)更高的峰值速率。
支持具有不同上行链路-下行链路配置的频带间TDD载波聚合(CA)能够被用于聚合具有不同DL/UL配置的分量载波(CC)。为了向全双工和半双工UE提供高峰值数据速率增强益处,对于下行链路(DL)数据的HARQ(混合自动重传请求)ACK/NACK反馈可以使用仅在主小区(PCell)传输的PUCCH,对于通过跟随PCell SIB类型1(SIB 1)UL-DL配置的PCellPDSCH使用传统的HARQ-ACK时序,并对于通过跟随特定参考UL-DL配置(例如,PCell和SCell UL-DL配置)的辅小区(SCell)的PDSCH使用HARQ-ACK时序,如图5中的表格4所示。例如,PCell上的PDSCH的HARQ-ACK时序能够跟随PCell SIB 1传统的UL/DL配置。对于在SCell上传输的PDSCH,HARQ时序能够跟随参考传统的UL/DL配置,如表格4所示。
能够支持在不同带具有不同UL-DL配置的频带间TDD CA。例如,SCellPDSCH HARQ参考时序能够从PCell UL-DL配置和SCell UL-DL配置确定,如图5中的表格4所示。表格4(即图5)示出对于Scell的PDSCH HARQ-ACK时序参考的UL-DL配置数量。PCell PDSCH的HARQ-ACK时序、PCellPUSCH的调度时序、PCell PUSCH的HARQ时序能够使用PCell SIB 1配置。UE能够配置有具有对于HARQ-ACK传输的信道选择(CS)的PUCCH格式3或者PUCCH格式1b;以及对于在不同带具有不同UL-DL配置的TDD频带间载波聚合(CA)的自载波调度。
不同数量的下行链路子帧能够绑定(bundle)在每个服务小区(例如,PCell或者SCell)的单独绑定窗口内,如图6所示。根据对于SCell PDSCH的HARQ-ACK时序表格(即表格4),HARQ-ACK绑定窗口的大小能够在PCell与SCell之间不同。图6示出PCell配置有TDD UL/DL配置0并且SCell配置有TDD UL/DL配置4的示例。由于SCell能够跟随来自PCell的不同DL HARQ时序,因此不仅SCell的绑定窗口能够不同于PCell,而且SCell绑定窗口中HARQ-ACK位的数量(对应于DL子帧的数量)能够不同于PCell绑定窗口。作为结果,传统的HARQ-ACK位映射和绑定规则可能对于具有与PCell不同的UL-DL配置的SCell UL-DL配置不再适用,或者传统的HARQ-ACK位映射和绑定规则可能不再支持具有不同于PCellUL-DL配置的SCell UL-DL配置的情况。
图6示出在频带间TDD CA情况下,PCell和SCell的变化的HARQ-ACK绑定窗口大小。不同UL-DL配置的含义可以是不同数量的下行链路子帧能够绑定在每个小区中的绑定窗口内。例如,如图6所示,PCell能够使用TDD配置0,并且SCell能够使用TDD配置4。如图所示,与UL子帧3关联的绑定窗口的大小对于2个服务小区(例如,Pcell和SCell)能够不同。例如,不同数量的下行链路子帧能够绑定在每个服务小区的单独绑定窗口内。例如,2个CC的绑定窗口的最小值能够为零。如图6的示例所示,PCell上的与上行链路子帧3关联的绑定窗口大小的值能够为零,而对应地,SCell(例如,包括子帧{6,7,8,9})上的绑定窗口大小的值能够为4,假设PCell上为配置0,并且SCell上为配置4。
UE能够配置有具有对于HARQ-ACK传输的信道选择(CS)的PUCCH格式3或者PUCCH格式1b;以及对于在不同带具有不同UL-DL配置的TDD频带间载波聚合(CA)的自载波调度。对传统的HARQ-ACK传输配置能够做出各种改变。例如,没有聚合的服务小区的PDSCH时序参考配置可以是UL-DL配置#5。在服务小区c上与UL子帧n关联的DL子帧的集合(记为Kc)可以包括DL子帧n-k,其中k∈K并且K是根据在服务小区c上的PDSCH HARQ时序跟随的TDD UL-DL配置确定的。对于PUCCH上的HARQ-ACK传输(至少对于Mp和Ms是正的情况)而言,UE能够使用具有M=max{Mp,Ms}的传统的映射表格(例如,如图12-19中的表格5-12所示),其中Mp是对于主小区集合Kc中元素的数量,并且Ms是对于辅小区集合Kc中元素的数量,或者UE能够对于具有更小Mc值的服务小区设定对于{HARQ-ACK(min{Mp,Ms},…,HARQ-ACK(M-1)}的非连续传输(DTX)。对于具有更小Mc值的服务小区设定对于{HARQ-ACK(min{Mp,Ms},…,HARQ-ACK(M-1)}的DTX在图23的表格16中示出,并在2012年5月30日提交的美国临时专利申请号61/653369;2013年3月29日提交的美国专利申请号13/853390,Hong He等人发明的题为“对于载波聚合(CA)的混合自动重传请求(HARQ)映射”,代理人案号为P49419;2012年7月2日提交的美国临时专利申请号61/667325;以及2013年3月29日提交的美国专利申请号13/853404,Hong He等人发明的题为“对于载波聚合(CA)的混合自动重传请求(HARQ)映射”,代理人案号为P49406中有说明,其整体并入本文作参考。
在另一个示例中,UE能够处理任何(Mp,Ms)是零的情况。上述的支持具有CS的PUCCH格式1b的解决方案仍然能够适用,甚至对于Min(Mp,Ms)=0的情况。然而,当空间绑定后要指示的ACK/NACK(A/N)位大于4(例如,图6所示的Ms=4)时,使用min(Mp,Ms)>0(即,Mp>0且Ms>0)情况的方法(使用表格11-12(即,图18-19)),而非min(Mp,Ms)=0情况的方法可能导致招致不需要的时域绑定。因此,技术(例如,方法、设备和计算机电路)能够用于Min(Mp,Ms)=0的情况,以相对于Min(Mp,Ms)>0的情况减小DL吞吐量性能的下降。
例如,对于包括具有信道选择和2个配置的服务小区的PUCCH格式1b的TDD HARQ-ACK复用而言,UE能够检测到PDSCH传输或者PDCCH指示在子帧n-k内的下行链路SPS释放,其中k∈K并且K是根据在跟随表格3的服务小区c上的PDSCH HARQ时序TDD UL-DL配置确定的。如之前所示,表格3示出对于TDD的下行链路关联集索引K:{k0,k1…kM-1}。
Mp能够是对于主小区集合K中元素的数量,并且Ms能够是对于辅小区集合K中元素的数量,如图7所示。图7示出对于频带间CA方案的Pcell和SCell的各种绑定窗口大小。
UE能够条件地确定HARQ-ACK位的数量、以及SCell上的PDSCH所关联的对应的PUCCH资源,如下方说明的那样。
例如,对于具有Ms=1且Mp=0的一个配置的服务小区和子帧n的TDDHARQ-ACK绑定或者TDD HARQ-ACK复用而言,UE能够对于PUCCH格式1a/1b对于映射至的天线端口p的p^使用PUCCH资源来传输子帧n中的HARQ-ACK,如果有通过检测到对应的PDCCH(例如,非SPS配置的子帧)指示的PDSCH传输、或者有指示在SCell上的子帧n-k内的下行链路SPS释放的PDCCH,其中k∈K并且K是根据其中M=Ms和UL-DL配置的子帧n的M个元素{k0,k1,…kM-1}的集合,UE能够首先从{0,1,2,3}选择c值,使得Nc≤nCCE<Nc+1,并且对于天线端口p0能够使用由表达式1代表的PUCCH资源其中由较高层(例如,RRC信令)配置,并且nCCE是用于传输子帧n-km和对应的m中对应的PDCCH的第一CCE的数量,其中n-km是集合K中的最小值使得UE检测到子帧n-km中的PDCCH。
当2个天线端口传输对于PUCCH格式1a/1b配置时,对于HARQ-ACK绑定对于天线端口p1的PUCCH资源能够由表达式2表现。
作为另一个示例,对于TDD HARQ-ACK复用并且具有Ms>1且Mp=0的子帧n而言,PUCCH资源能够记为其能够从SCell上的子帧n-ki导出,并且确认(ACK)、否定ACK(NACK)、或者非连续传输(DTX)响应(即ACK/NACK/DTX响应)能够从SCell上的子帧n-ki记为HARQ-ACK(i),其中ki∈K,并且0≤i≤Ms-1。
对于通过检测对应的PDCCH指示的PDSCH传输(例如,非SPS配置的子帧)、或者指示SCell上的子帧n-ki中的下行链路SPS释放的PDCCH而言,其中ki∈K,PUCCH资源能够由表达式3表现,其中c是从{0,1,2,3}选择的,使得Nc≤nCCE≤Nc+1,nCCE,i是用于在子帧n-ki中传输对应的PDCCH的第一CCE的数量,并且由较高层配置。
对于没有检测到SCell上的子帧n-ki(例如,SPS配置的子帧)中对应的PDCCH的PDSCH传输而言,对于PDSCH传输由ACK/否定ACK(NACK)资源指示符(ARI)指示的的值能够根据较高层配置和3GPP LTE标准版本11TS 36.213表格9.2-2(例如,图24的表格17所示)确定,其中ARI重新解释对应PDCCH的下行链路控制信息(DCI)格式中的传输功率控制(TPC)域。
基于较高层信令,具有M的UE能够根据LTE TS 36.213表格10.1.3-5(例如,表格8)、LTE TS 36.213表格10.1.3-6(例如,表格9)、以及LTETS 36.213表格10.1.3-7(例如,表格10)的集合来执行信道选择。在另一个示例中,基于较高层信令,具有M的UE能够根据LTE TS 36.213表格10.1.3-2(例如,表格5)、LTE TS 36.213表格10.1.3-3(例如,表格6)、以及LTE TS 36.213表格10.1.3-4(例如,表格7)的集合来执行信道选择。对于由较高层信令指示的选择的表格集合,UE能够根据3GPP LTE标准版本11TS 36.211的5.4.1节,使用PUCCH格式1b传输子帧n中的PUCCH资源n(1)PUCCH上的b(0),b(1)(例如,星座比特)。b(0),b(1)的值和PUCCH资源能够根据对于Ms=2,3和4选择的表格的集合(例如,表格8-10),由信道选择产生。
图20(即表格13)示出Min(Mp,Ms)>0的情况下的对于M=4传输HARQ-ACK复用。图21(即表格14)示出Min(Mp,Ms)>0的情况下的对于M=3传输HARQ-ACK复用。图22(即表格15)示出对于包含星座比特(例如,b0,b1,b2和b3)值(例如,A代表ACK,N代表NACK为,D代表非连续传输(DTX),并且D/N代表DTX/NACK)的主要分量载波(PCC)和辅助分量载波(SCC);以及具有使用代表HARQ-ACK绑定窗口的1-4位(例如,M=1,M=2,M=3,或者M=4)对于参考信号(RS)的PUCCHACK/NACK(A/N)资源(例如,h#)和数据常数(const.)的数据的,Min(Mp,Ms)>0情况下的具有信道选择(CS)的PUCCH格式1b的HARQ-ACK映射表格。
另一个示例提供了被用于在用户设备(UE)处的载波聚合(CA)的混合自动重传请求(HARQ)绑定的方法500,如图8的流程图所示。方法可以执行为对于UE的机器、计算机电路、或者处理器上的指令,其中,指令包含在至少一个计算机可读介质或者一个非临时性机器可读存储介质中。方法包含在UE处接收对于主小区(PCell)的上行链路-下行链路(UL-DL)配置、以及对于辅小区(SCell)的UL-DL配置的操作,如框510所示。接着的操作是基于SCell的UL-DL配置,确定对于子帧的辅HARQ绑定窗口大小,并且基于PCell的UL-DL配置,确定对于子帧的主HARQ绑定窗口大小,如框520所示。方法的下个操作能够确定物理上行链路控制信道(PUCCH)资源以使用辅HARQ绑定窗口大小来传输HARQ确认(ACK),如框530所示。接着的操作是对于SCell的物理下行链路共享信道(PDSCH)产生HARQ-ACK,如框540所示。该方法能够还包含传输PUCCH资源中的HARQ-ACK,如框550所示。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b的,传输对于映射至天线端口p的p^的子帧n中的HARQ-ACK的PUCCH资源能够表示为: 对于天线端口p0对于时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于传输子帧n-km中对应的物理下行链路控制信道的(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE检测到子帧n-km中的PDCCH,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是对于上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且对于每个UE由高层配置(例如,RRC信令);并且 对于天线端口p1对于时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b的,传输对于子帧n中的HARQ-ACK的PUCCH资源能够表示为: 对于时分双工(TDD),当对于由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH而言,辅HARQ绑定窗口大小Ms>1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE,i是传输在SCell上的子帧n-ki中对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是对于上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且对于每个UE由高层配置;以及其中,的值根据对于下行链路SPS对于PUCCH资源值的较高层信令和表格确定,当对于PDSCH传输辅HARQ绑定窗口大小Ms>1并且主HARQ绑定窗口大小Mp=0,且SCell上的子帧n-ki中没有对应的PDCCH时。
在另一个配置中,当辅HARQ绑定窗口大小Ms>1并主HARQ绑定窗口大小Mp=0时,方法能够还包含基于HARQ绑定窗口大小M=Ms的信道选择,其中Ms是辅HARQ绑定窗口大小,当Ms=2时,使用第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213表格10.1.3-5(例如,如图15表格8所示);当Ms=3时,使用LTE TS 36.213表格10.1.3-6(例如,如图16的表格9所示);或者当Ms=4时,使用LTETS 36.213表格10.1.3-7(例如,如图17的表格10所示)。方法能够还包含基于使用Ms等于2,3或者4的表格的HARQ-ACK,确定星座比特b(0)和b(1)和PUCCH资源的n(1)PUCCH的值。在另一个示例中,对于PCell的UL-DL配置可以包括在PCell上传输的系统信息框1(SIB 1)中,并且对于SCell的UL-DL配置可以包括在SCell上传输的SIB 1中。
另一个示例提供用户设备(UE)的处理器的计算机电路的功能600,可操作来动态改变对于载波聚合(CA)的混合自动重传请求(HARQ)映射,如图9的流程图所示。功能可以实现为方法,或者功能可以实现为机器上的指令,在该机器中,指令包含在至少一个计算机可读介质或者一个非临时性机器可读存储介质中。计算机电路能够被配置为当对于主小区(PCell)的主HARQ绑定窗口大小是零时,确定辅小区(SCell)的辅HARQ绑定窗口大小,如框610所示。计算机电路能够还被配置为确定物理上行链路控制信道(PUCCH)资源,以使用辅HARQ绑定窗口大小来传输HARQ确认(ACK)反馈,如框620所示。计算机电路还能够被配置为传输PUCCH资源中的HARQ-ACK反馈,如框630所示。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b的,传输对于映射至天线端口p的p^的子帧n中的HARQ-ACK的PUCCH资源能够表示为: 对于天线端口p0对于时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于传输子帧n-km中对应的物理下行链路控制信道的(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE检测到子帧n-km中的PDCCH,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是对于上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且对于每个UE由高层配置(例如,RRC信令);以及 对于天线端口p1对于时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,用于在子帧n中传输所述HARQ-ACK的所述PUCCH资源表示为: 对于时分双工(TDD),当对于由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH时,辅HARQ绑定窗口大小Ms>1并且主HARQ绑定窗口大小Mp=0,其中HARQ绑定窗口大小M=Ms时,nCCE,i是传输在SCell上的子帧n-ki中的对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是对于上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且对于每个UE由高层配置;以及其中,的值根据对于下行链路SPS对于PUCCH资源值的较高层信令和表格确定,当对于PDSCH传输辅HARQ绑定窗口大小Ms>1并且主HARQ绑定窗口大小Mp=0,且SCell上的子帧n-ki中没有对应的PDCCH时。
在另一个配置中,计算机电路能够还被配置为基于HARQ绑定窗口大小M=Ms来执行信道选择,其中Ms是辅HARQ绑定窗口大小,其中:当Ms=2时,计算机电路使用第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213表格10.1.3-5(例如,如图15表格8所示);当Ms=3时,计算机电路使用LTE TS 36.213表格10.1.3-6(例如,如图16的表格9所示);或者当Ms=4时,计算机电路使用LTE TS 36.213表格10.1.3-7(例如,如图17的表格10所示)。配置为传输HARQ-ACK反馈的计算机电路能够还被配置为基于使用Ms等于2,3或者4的表格的HARQ-ACK反馈,确定星座比特b(0)和b(1)和PUCCH资源的的值。
图10示出示例节点(例如,服务节点710和协作节点750)和示例无线设备720。节点可以包括节点设备712和752。节点设备或者节点可以被配置为与无线设备通信。节点设备、在节点处的设备、或者节点能够被配置为经由回程链路748(光学或者有线链路)(诸如X2应用协议(X2AP))与其它节点通信。节点设备可以包括处理器714和754、以及收发机716和756。收发机能够被配置为接收PUCCH资源中的HARQ-ACK反馈。收发机716和756能够还被配置为经由X2应用协议(X2AP)与协调节点通信。处理器能够还被配置为能够实现本文公开的PUCCH检测和PDSCH重传的相反过程。服务节点能够产生PCell和SCell这两者。节点(例如,服务节点710和协作节点750)可以包含基站(BS)、节点B(NB)、演进型节点B(eNB)、基带单元(BBU)、远程无线电头端(RRH)、远程无线电装置(RRE)、远程无线电单元(RRU)、或者中心处理模块(CPM)。
(由节点使用的)设备能够被配置为检测被用于载波聚合(CA)的混合自动重传请求(HARQ)绑定。收发机716和756能够被配置为接收在主小区(PCell)中对于辅小区(SCell)的物理下行链路共享信道(PDSCH)传输的子帧中的资源的物理上行链路控制信道(PUCCH)中的星座比特。处理器714和754能够被配置为:基于对于SCell的上行链路-下行链路(UL-DL)配置,确定对于子帧的辅HARQ绑定窗口大小;以及基于对于PCell的UL-DL配置,确定对于子帧的主HARQ绑定窗口大小;以及当主HARQ绑定窗口大小是零时,确定对于使用辅HARQ绑定窗口大小和PUCCH资源的SCell的子帧的HARQ确认(ACK)响应。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,针对映射至天线端口p的用于在子帧n中传输HARQ-ACK的所述PUCCH资源表示为: 针对天线端口p0,针对时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于在子帧n-km中传输对应的物理下行链路控制信道(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE在子帧n-km中检测到PDCCH,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置的;以及 针对天线端口p1,针对时分双工(TDD),当所述辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
在示例中,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,用于在子帧n中传输所述HARQ-ACK的所述PUCCH资源表示为: 针对时分双工(TDD),当针对由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE,i是用于在SCell上的子帧n-ki中传输对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为多个子载波,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置;以及其中的值是当针对PDSCH传输,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,根据针对下行链路SPS的PUCCH资源值的较高层信令和表格确定的,其中,在SCell上在子帧n-ki中没有对应的PDCCH。
在另一个配置中,HARQ-ACK响应能够由HARQ-ACK(i)代表,并可以包括来自SCell上的子帧n-ki的ACK、否定ACK(NACK)、或者非连续传输(DTX)响应的组合,其中ki∈K并且KM个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1。较高层信令可以包括无线资源控制(RRC)信令。
在另一个示例中,处理器能够还被配置为通过基于HARQ绑定窗口大小M=Ms将星座比特的值和PUCCH资源应用至HARQ-ACK复用查找表,对于SCell对于子帧确定HARQ-ACK响应,其中Ms是辅HARQ绑定窗口大小。HARQ-ACK复用查找表可以包括:当Ms=2时,为第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213表格10.1.3-5(例如,如图15表格8所示);当Ms=3时,为LTE TS 36.213表格10.1.3-6(例如,如图16的表格9所示);或者当Ms=4时,为LTE TS 36.213表格10.1.3-7(例如,如图17的表格10所示)。
无线设备720(例如,UE)可以包括收发机724和处理器722。无线设备(即设备)能够对于载波聚合(CA)的条件混合自动重传请求(HARQ)映射配置,如图8的500或者图9的600中说明的那样。
图11提供的示例示出无线设备,诸如用户设备(UE)、移动站(MS)、移动无线设备、移动通信设备、平板计算机、手机、或者其它类型的无线设备。无线设备可以包括配置为与节点、宏节点、低功率节点(LPN))或者传输站(诸如基站(BS)、演进型节点B(eNB)、基带单元(BBU)、远程无线电头端(RRH)、远程无线电装置(RRE)、中继站(RS)、无线电装置(RE))、或者其它类型的无线广域网(WWAN)接入点通信的一个以上的天线。无线设备可以被配置为使用至少一个无线通信标准进行通信,该无线通信标准包含3GPP LTE、WiMAX、高速分组接入(HSPA)、蓝牙和WIFI。无线设备可以对于每个无线通信标准使用分离的天线来通信,或者对于多个无线通信标准使用共享的天线来通信。无线设备可以在无线局域网(WLAN)、无线个人区域网络(WPAN)和/或WWAN中通信。
图11还提供了可以用于从无线设备音频输入和输出的麦克风和一个以上的扬声器的示出。显示屏可以是液晶显示器(LCD)屏幕或者其它类型的显示屏,诸如有机发光二极管(OLED)显示器。显示屏可以被配置为触摸屏。触摸屏可以使用电容、电阻、或者另一个类型的触摸屏技术。应用处理器和图形处理器可以耦接至内部存储器以提供处理和显示能力。非易失性存储器端口还可以被用于向用户提供数据输入/输出选项。非易失性存储器端口还可以被用于扩展无线设备的存储能力。键盘可以集成在无线设备或者无线连接至无线设备,以提供额外的用户输入。还可以使用触摸屏来提供虚拟键盘。
各种技术或者其某些方面或者部分可以采取在有形介质中实施的程序代码(即指令)的形式,有形介质诸如软盘、CDROM、硬盘驱动器、非临时性计算机可读存储介质、或者任何其它机器可读存储介质,其中,当程序代码加载到并通过诸如计算机的机器执行时,该机器成为将各种技术付诸实践的仪器。电路可以包括硬件、固件、程序代码、可执行代码、计算机指令和/或软件。非临时性计算机可读存储介质可以是不包含信号的计算机可读存储介质。在可编程计算机上执行的程序代码的情况下,计算设备可以包含处理器、可由处理器读出的存储介质(包含易失性和非易失性存储器和/或存储元件)、至少一个输入设备、以及至少一个输出设备。易失性和非易失性存储器和/或存储元件可以是RAM、EPROM、闪存驱动器、光学驱动器、磁性硬盘驱动器、固态驱动器、或者用于存储电子数据的其它介质。节点和无线设备还可以包含收发机模块、计数器模块、处理模块和/或时钟模块或者计时器模块。可以实现或利用本文说明的各种技术的一个以上的程序可以使用应用程序编程接口(API)、可重复使用控制等。该程序可以由高级过程或者面向对象编程语言实现来与计算机系统通信。然而,如果需要的话,程序可以由汇编或者机器语言实现。在任何情况下,语言可以是编译的或解释的语言,并以硬件实施方式组合。
应该理解的是在该说明书中说明的很多功能单元已被标签为模块,为了更具体强调其实施方式依赖性。例如,模块可以实现为硬件电路,包括VLSI电路或者栅极阵列、现成的半导体,诸如逻辑芯片、晶体管、或者其它离散组件。模块还可以实现在可编程硬件设备中,诸如现场可编程门阵列、可编程阵列逻辑、可编程逻辑设备等。
模块还可以实现在通过各种类型的处理器或逻辑执行的软件中。可执行代码的识别的模块例如可以包括计算机指令的一个以上的物理或者逻辑块,其例如可以组织为对象、过程、或者功能。然而,识别的模块的可执行性不需要物理位于一起,但是可以包括存储在不同位置的分散指令,当其逻辑合并在一起时,包括模块并实现对于模块的规定目的。
确实,可执行代码的模块可以是单个指令、或者很多指令,并且还可以在不同程序中并且跨若干存储器设备分布在若干不同代码片段中。类似地,本文中可操作的数据可以识别并示出在模块内,并可以在任何合适的形式中实施并且组织在任何适当类型的数据结构内。可操作的数据可以收集为单个数据集,或者可以分布在包含不同存储设备的不同位置中,并至少可以部分仅仅作为系统或者网络中的电子信号存在。模块可以是无源或者有源的,包含可操作来执行期望功能的代理。
遍及本说明书提到的示例意味着说明的特定特征、构造、或者特性与包含在本发明的至少一个实施例的示例相连。因此,遍及本说明书各处出现的词组“在示例中”不一定都是指相同的实施例。
为了方便起见,本文使用的多个项目、构成要素、组成元素和/或材料可以呈现在公共列表中。然而,这些列表应该被解释为好像列表的每个成员被单独识别为分离且唯一的成员。因此,该列表中没有单独成员应该仅基于其在公共群组中的呈现而被解释为事实上等同于相同列表中的任何其它成员,除非有相反指示。此外,本文可以提到本发明的各种实施例和示例以及其各种组件的替代。要理解的是该实施例、示例和替代的不应解释为事实上彼此等同,但是应该被视为是本发明的分离且自主的代表。
此外,在一个以上的实施例中说明的特征、构造或者特性可以以任何适当的方式组合。在下面的说明中,提供大量具体细节,诸如布局、距离、网络示例等的示例,以提供对本发明的实施例的彻底理解。然而,相关领域的技术人员会认识到,本发明可以在没有一个以上的具体细节下付诸实践,或者利用其它方法、组件、布局等。在其它实例中,周知的构造、材料、或者操作没有示出或者详细说明,以避免模糊本发明的各方面。
上述示例是本发明的原则在一个以上的特定应用中的示例,本领域普通技术人员可以知晓,可以做出实施方式的大量形式、使用和细节上的修改,而不用付出创造性劳动,并且没有脱离本发明的原则和概念。相应地,本发明没有预期被限制,除了权利要求外。
Claims (21)
1.一种可操作用于动态改变针对载波聚合(CA)的混合自动重传请求(HARQ)的用户设备(UE),所述UE具有的计算机电路,所述计算机电路配置为:
当针对主小区(PCell)的主HARQ绑定窗口大小是零时,确定针对辅小区(SCell)的辅HARQ绑定窗口大小;
确定用于使用所述辅HARQ绑定窗口大小来传输HARQ确认(ACK)反馈的物理上行链路控制信道(PUCCH)资源;以及
在所述PUCCH资源中发送HARQ-ACK反馈。
2.如权利要求1所述的计算机电路,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,针对映射至天线端口p的用于在子帧n中传输HARQ-ACK的所述PUCCH资源表示为:
针对天线端口p0,针对时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于在子帧n-km中传输对应的物理下行链路控制信道(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE在子帧n-km中检测到PDCCH,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置的;以及
针对天线端口p1,针对时分双工(TDD),当所述辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
3.如权利要求1所述的计算机电路,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,用于在子帧n中传输所述HARQ-ACK的所述PUCCH资源表示为:
针对时分双工(TDD),当针对由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE,i是用于在SCell上的子帧n-ki中传输对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为多个子载波,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置;以及
其中的值是当针对PDSCH传输,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,根据针对下行链路SPS的PUCCH资源值的较高层信令和表格确定的,其中,在SCell上在子帧n-ki中没有对应的PDCCH。
4.如权利要求3所述的计算机电路,其中,所述HARQ-ACK反馈表示为HARQ-ACK(i),并且包含来自SCell上的子帧n-ki的ACK、否定ACK(NACK)、或者非连续传输(DTX)响应的组合,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合,并且0≤i≤Ms-1。
5.如权利要求1所述的计算机电路,还配置为:
基于HARQ绑定窗口大小M=Ms来执行信道选择,其中Ms是所述辅HARQ绑定窗口大小,其中:
当Ms=2时,所述计算机电路使用第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213中的表格10.1.3-5;
当Ms=3时,所述计算机电路使用TS 36.213中的表格10.1.3-6;或者
当Ms=4时,所述计算机电路使用TS 36.213中的表格10.1.3-7。
6.如权利要求5所述的计算机电路,其中,配置为发送所述HARQ-ACK反馈的计算机电路还配置为:
使用Ms等于2,3或者4的表格,基于所述HARQ-ACK反馈,确定星座比特b(0)和b(1)和PUCCH资源的的值。
7.如权利要求1所述的计算机电路,其中,所述UE包含天线、触敏显示屏、扬声器、麦克风、图形处理器、应用处理器、内部存储器、或者非易失性存储器端口。
8.一种在用户设备(UE)处用于载波聚合(CA)的混合自动重传请求(HARQ)绑定的方法,包括:
在所述UE处接收针对主小区(PCell)的上行链路-下行链路(UL-DL)配置、以及针对辅小区(SCell)的UL-DL配置;
基于针对所述SCell的所述UL-DL配置,确定针对子帧的辅HARQ绑定窗口大小,并且基于针对所述PCell的UL-DL配置,确定针对子帧的主HARQ绑定窗口大小;
确定用于使用所述辅HARQ绑定窗口大小传输HARQ确认(ACK)的物理上行链路控制信道(PUCCH)资源
生成针对所述SCell的物理下行链路共享信道(PDSCH)的HARQ-ACK;以及
在所述PUCCH资源中发送HARQ-ACK。
9.如权利要求8所述的方法,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,针对映射至天线端口p的用于在子帧n中传输HARQ-ACK的所述PUCCH资源表示为:
针对天线端口p0,针对时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于在子帧n-km中传输对应的物理下行链路控制信道(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE在子帧n-km中检测到PDCCH,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置的;以及
针对天线端口p1,针对时分双工(TDD),当所述辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
10.如权利要求8所述的方法,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,用于在子帧n中传输所述HARQ-ACK的所述PUCCH资源表赤为:
针对时分双工(TDD),当针对由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE,i是用于在SCell上的子帧n-ki中传输对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为多个子载波,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置;以及
其中的值是当针对PDSCH传输,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,根据针对下行链路SPS的PUCCH资源值的较高层信令和表格确定的,其中,在SCell上在子帧n-ki中没有对应的PDCCH。
11.如权利要求10所述的方法,还包括:
基于HARQ绑定窗口大小M=Ms来执行信道选择,其中Ms是所述辅HARQ绑定窗口大小,其中:
当Ms=2时,使用第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213中的表格10.1.3-5;
当Ms=3时,使用TS 36.213中的表格10.1.3-6;或者
当Ms=4时,使用TS 36.213中的表格10.1.3-7。
12.如权利要求11所述的方法,还包括:
使用Ms等于2,3或者4的表格,基于所述HARQ-ACK反馈,确定星座比特b(0)和b(1)和PUCCH资源的的值。
13.如权利要求8所述的方法,其中,针对所述PCell的UL-DL配置被包含在所述PCell上发送的系统信息框1(SIB 1)中,并且针对所述SCell的UL-DL配置包含在所述SCell上发送的SIB 1中。
14.一种计算机程序,包括适于执行权利要求8的所述的方法的计算机程序代码单元。
15.一种节点处的设备,其被配置为检测在载波聚合(CA)中使用的混合自动重传请求(HARQ)绑定,所述设备包括:
收发机,其用于接收针对辅小区(SCell)的物理下行链路共享信道(PDSCH),在主小区(PCell)中发送的子帧中的物理上行链路控制信道(PUCCH)资源中的星座比特;以及
处理器,其用于:
基于针对所述SCell的上行链路-下行链路(UL-DL)配置,确定针对子帧的辅HARQ绑定窗口大小,并且基于针对所述PCell的UL-DL配置,确定针对子帧的主HARQ绑定窗口大小,以及
当所述主HARQ绑定窗口大小是零时,确定针对使用所述辅HARQ绑定窗口大小和所述PUCCH资源的所述SCell、针对所述子帧的HARQ确认(ACK)响应。
16.如权利要求15所述的设备,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,针对映射至天线端口p的用于在子帧n中传输HARQ-ACK的所述PUCCH资源表示为:
针对天线端口p0,针对时分双工(TDD),当辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE是用于在子帧n-km中传输对应的物理下行链路控制信道(PDCCH)和对应的m的第一CCE索引号,其中km是集合K中的最小值,使得UE在子帧n-km中检测到PDCCH,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为子载波的数量,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置的;以及
针对天线端口p1,针对时分双工(TDD),当所述辅HARQ绑定窗口大小Ms=1并且主HARQ绑定窗口大小Mp=0并且配置2个端口传输时。
17.如权利要求15所述的设备,其中:
针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1a或者1b,用于在子帧n中传输所述HARQ-ACK的所述PUCCH资源表示为:
针对时分双工(TDD),当针对由检测到对应的物理下行链路控制信道(PDCCH)指示的物理下行链路共享信道(PDSCH)传输、或者指示SCell上的子帧n-ki中的下行链路半持续调度(SPS)释放的PDCCH,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,其中HARQ绑定窗口大小M=Ms,nCCE,i是用于在SCell上的子帧n-ki中传输对应的物理下行链路控制信道(PDCCH)的第一CCE索引号,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合并且0≤i≤Ms-1,
其中c是取自{0,1,2,3}的值,使得Nc≤nCCE<Nc+1,是下行链路带宽配置,由的单位表达,是频域中的资源块大小,表示为多个子载波,并且是针对上行链路子帧中PUCCH区域的开始PUCCH信道索引,并且针对每个UE由高层配置;以及
其中的值是当针对PDSCH传输,所述辅HARQ绑定窗口大小Ms>1并且所述主HARQ绑定窗口大小Mp=0时,根据针对下行链路SPS的PUCCH资源值的较高层信令和表格确定的,其中,在SCell上在子帧n-ki中没有对应的PDCCH。
18.如权利要求17所述的设备,其中,所述HARQ-ACK反馈表示为HARQ-ACK(i),并且包含来自SCell上的子帧n-ki的ACK、否定ACK(NACK)、或者非连续传输(DTX)响应的组合,其中ki∈K并且K是M个元素{k0,k1,…kM-1}的集合,并且0≤i≤Ms-1。
19.如权利要求17所述的设备,其中,较高层信令包含无线资源控制(RRC)信令。
20.如权利要求15所述的设备,其中,处理器还被配置为:
通过基于HARQ绑定窗口大小M=Ms将所述星座比特的值和所述PUCCH资源应用至HARQ-ACK复用查找表,来确定针对所述SCell的所述子帧的HARQ-ACK响应,其中Ms是所述辅HARQ绑定窗口大小,其中,所述HARQ-ACK复用查找表表示为:
当Ms=2时,第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11技术规范(TS)36.213中的表格10.1.3-5;
当Ms=3时,TS 36.213中的表格10.1.3-6;或者
当Ms=4时,TS 36.213中的表格10.1.3-7。
21.如权利要求15所述的设备,其中,所述节点是从以下各项构成的组中选择的:基站(BS)、节点B(NB)、演进型节点B(eNB)、基带单元(BBU)、远程无线电头端(RRH)、远程无线电装置(RRE)、远程无线电单元(RRU)和中心处理模块(CPM)。
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