CN104604175B - 用于载波聚合ca的条件混合自动重传请求harq映射的用户设备及方法 - Google Patents
用于载波聚合ca的条件混合自动重传请求harq映射的用户设备及方法 Download PDFInfo
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- CN104604175B CN104604175B CN201380044871.7A CN201380044871A CN104604175B CN 104604175 B CN104604175 B CN 104604175B CN 201380044871 A CN201380044871 A CN 201380044871A CN 104604175 B CN104604175 B CN 104604175B
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Abstract
本发明公开了用于载波聚合(CA)的条件混合自动重传请求(HARQ)映射的技术。一种方法可以包括:用户设备(UE)确定用于物理下行链路共享信道(PDSCH)传输的子帧何时被配置用于下行链路半持久调度(SPS)。被配置用于下行链路SPS的子帧可以生成第一状况。对于用于辅小区(SCell)的辅HARQ绑定窗口大小和用于主小区(PCell)的主HARQ绑定窗口大小,UE可以利用不连续发送(DTX)填充来生成针对HARQ绑定窗口的第一状况的HARQ‑ACK状态。UE可以使用包括DTX填充例外的DTX填充,生成针对HARQ绑定窗口的第二状况的HARQ‑ACK状态。第二状况可以包括第一状况没有覆盖的状况。DTX填充例外可以生成HARQ‑ACK状态集合,以唯一地规定每个填充的HARQ‑ACK状态。
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)和无线设备(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)进行通信,在上行链路(UL)传输中使用单载波频分多址(SC-FDMA)。使用正交频分复用(OFDM)进行信号传输的标准和协议,包括: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)(工业组通常称为WiMAX(全球微波互通接入))和IEEE 802.11标准(工业组通常称为WiFi)。
在3GPP无线接入网络(RAN)LTE系统中,节点可以是与无线设备(其称为用户设备(UE))进行通信的演进型通用陆地无线接入网络(E-UTRAN)节点B(其通常还表示为演进型节点B、增强型节点B、eNodeB或eNB)和无线网络控制器(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,上行链路(UL)传输可以是从无线设备到节点的通信。
在LTE中,可以通过物理下行链路共享信道(PDSCH),从eNodeB向UE发送数据。可以使用物理上行链路控制信道(PUCCH)来确认接收到数据。下行链路和上行链路信道或传输可以使用时分双工(TDD)或频分双工(FDD)。时分双工(TDD)是使用时分复用(TDM)来区分下行链路信号和上行链路信号(或者在D2D通信中,区分去往UE的信号或来自UE的信号)的应用。在TDD中,可以在相同的载波频率(即,共享的载波频率)上携带下行链路信号和上行链路信号,其中下行链路信号与上行链路信号使用不同的时间间隔,使得下行链路信号和上行链路信号之间不会彼此产生干扰。TDM是数字复用的类型,其中在该方式中,将两个或更多比特流或信号(例如,下行链路或上行链路)明显同时地传输成一个通信信道中的子信道,但将它们在不同的资源上进行物理地发送。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,去往和来自UE的传输)可以使用不同的频率载波进行操作(即,针对每个传输方向区分载波频率)。在FDD中,由于下行链路信号与上行链路信号使用不同的频率载波,因此可以避免干扰。
附图说明
通过结合附图来考虑下面的具体实施方式,本发明的特征和优点将变得显而易见,这些附图通过示例的方式,一起示出了本发明的特征,其中:
图1根据一个示例,示出了各种分量载波(CC)带宽的框图;
图2A根据一个示例,示出了多个连续分量载波的框图;
图2B根据一个示例,示出了带内非连续分量载波的框图;
图2C根据一个示例,示出了带间非连续分量载波的框图;
图3A根据一个示例,示出了对称-非对称载波聚合配置的框图;
图3B根据一个示例,示出了非对称-对称载波聚合配置的框图;
图4根据一个示例,示出了上行链路无线帧资源(例如,资源网格)的框图;
图5(即,表4)根据一个示例,示出了用于辅小区(SCell)的物理下行链路共享信道(PDSCH)混合自动重传请求-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根据一个示例,示出了对应于带间时分双工(TDD)载波聚合(CA),用于主小区(PCell)和辅小区(SCell)的不同混合自动重传请求-确认(HARQ-ACK)绑定窗口(例如,不同的UL-DL配置);
图7根据一个示例,示出了当配置半持久调度(SPS)时,重用M=max(Mp,MS)资源分配(RA)解决方案的潜在问题;
图8(即,表5)根据一个示例,示出了在配置半持久调度(SPS)的情形下,使用M=max(Mp,MS)资源分配(RA)解决方案的影响的表格;
图9A根据一个示例,示出了对应于带间时分双工(TDD)载波聚合(CA),用于主小区(PCell)绑定窗口大小MP=2和辅小区(SCell)绑定窗口大小MS=4的混合自动重传请求-确认(HARQ-ACK)绑定窗口;
图9B根据一个示例,示出了对应于带间时分双工(TDD)载波聚合 (CA),用于主小区(PCell)绑定窗口大小MP=2和辅小区(SCell)绑定窗口大小MS=3的混合自动重传请求-确认(HARQ-ACK)绑定窗口;
图9C根据一个示例,示出了对应于带间时分双工(TDD)载波聚合(CA),用于主小区(PCell)绑定窗口大小MP=4和辅小区(SCell)绑定窗口大小MS=2的混合自动重传请求-确认(HARQ-ACK)绑定窗口;
图10(即,表6)根据一个示例,示出了根据用于下行链路半持久调度(SPS)的确认(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);
图11根据一个示例,描述了用于用户设备(UE)处的载波聚合(CA)的条件混合自动重传请求(HARQ)映射的方法的流程图;
图12根据一个示例,描述了用户设备(UE)的计算机电路的功能,其可用于为载波聚合(CA)提供条件混合自动重传请求-确认(HARQ-ACK)状态映射;
图13根据一个示例,示出了服务节点、协调节点和无线设备(例如,UE)的框图;
图14根据一个示例,示出了一种无线设备(例如,UE)的图;
图15(即,表7)根据一个示例,示出了对应于M=2的绑定窗口大小,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16(即,表8)根据一个示例,示出了对应于M=3的绑定窗口大小,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17(即,表9)根据一个示例,示出了对应于M=4的绑定窗口大小,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18(即,表10)根据一个示例,示出了对应于M=2的绑定窗口大小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格(即,3GPPLTE标准版本11技术规范(TS)36.213表格10.1.3-5);
图19(即,表11)根据一个示例,示出了对应于M=3的绑定窗口大 小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格(即,3GPPLTE标准版本11技术规范(TS)36.213表格10.1.3-6);
图20(即,表12)根据一个示例,示出了对应于M=4的绑定窗口大小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格(即,3GPPLTE标准版本11技术规范(TS)36.213表格10.1.3-7);
图21(即,表13)根据一个示例,示出了对应于M=3的绑定窗口大小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格(即,3GPPLTE标准版本11技术规范(TS)36.213表格10.1.3.2-5);
图22(即,表14)根据一个示例,示出了对应于M=3的绑定窗口大小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格(即,3GPPLTE标准版本11技术规范(TS)36.213表格10.1.3.2-6);
图23(即,表15)根据一个示例,示出了对应于M=4的绑定窗口大小,混合自动重传请求-确认(HARQ-ACK)复用的传输的表格;
图24(即,表16)根据一个示例,示出了对应于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25(即,表17)根据一个示例,示出了用于具有信道选择(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)映射表的表格;
图26(即,表18)根据一个示例,示出了对应于带间时分双工(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)查找映射表的表格;
现在将参照所示出的示例性实施例,并且本申请将使用特定的语言来描述它们。然而,应该理解,其并不旨在对本发明的保护范围进行限制。
具体实施方式
在公开和描述本发明之前,应当理解,本发明并不限于本申请所公开的特定结构、处理步骤或者材料,而是如相关领域的普通技术人员所应当认识到的,可以扩展到其等价物。此外,还应当理解的是,本文使用的术语只是用于描述具体的示例,而不是限制性的。不同附图中的相同附图标记表示相同的元素。在流程图和过程中所提供的数字,只是为了清楚地示 出步骤和操作,而并不是必须指示特定的顺序或者序列。
示例性实施例
下面提供了技术实施例的初始概述,随后进一步详细描述了特定的技术实施例。这种初始的概括旨在帮助读者更快速地理解本技术,而不是旨在标识本技术的关键特征或者本质特征,也不是旨在限制本发明的保护范围。
无线数据传输的量的增加,使得在使用许可的频谱来为无线设备(例如,智能电话和平板设备)提供无线通信服务的无线通信网络中产生拥塞。这种拥塞在诸如城市区位和大学之类的高密度和高使用区位中特别明显。
一种用于向无线设备提供另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)处形成一个虚拟宽带信道。在载波聚合(CA)中,可以对多个分量载波(CC)进行聚合,并将其联合地用于去往/来自单个终端的传输。载波可以是将信息放置在其上的所准许频域中的信号。可以根据在频域中聚合的载波的带宽,来确定能在一个载波上放置的信息的量。所准许的频域在带宽上通常是受限的。当大量用户同时地使用准许的频域中的带宽时,这种带宽限制可能变得更加严重。
图1示出了无线设备可以使用的载波带宽、信号带宽或分量载波(CC)。例如,LTECC带宽可以包括:1.4MHz 210、3MHz 212、5MHz 214、10MHz216、15MHz 218和20MHz 220。1.4MHz CC可以包括具有72个子载波的6个资源块(RB)。3MHz CC可以包括具有180个子载波的15个RB。5MHz CC可以包括具有300个子载波的25个RB。10MHz CC可以包括具有600个子载波的50个RB。15MHz CC可以包括具有900个子载波的75个RB。20MHz CC可以包括具有1200个子载波的100个RB。
载波聚合(CA)使得能够在用户的无线设备和节点之间同时地传输多个载波信号。可以使用多个不同的载波。在一些实例中,这些载波可以来自于不同的准许的频域。载波聚合为无线设备提供更广阔的选择,使得能获得更多的带宽。可以将更大的带宽用来传输带宽密集型操作(例如,流视频或者传输大型数据文件)。
图2A示出了连续载波的载波聚合的例子。在该例子中,三个载波沿着 频带连续地存在。每一个载波可以称为一个分量载波。在连续的系统类型中,这些分量载波是彼此之间相邻的,并通常位于单一频带之内(例如,带A)。频带可以是电磁频谱中的一个选定频率范围。选定的频带被指定用于诸如无线电话之类的无线通信。无线服务提供商拥有或租赁某些频带。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。带宽是该频带的选定部分。传统上,在单一频带之中进行无线电话。在连续的载波聚合中,可以使用仅仅一个快速傅里叶变换(FFT)模块和/或一个无线前端。这些连续的分量载波可以具有类似的传播特性,它们使用类似的报告和/或处理模块。
图2B-2C示出了非连续的分量载波的载波聚合的示例。非连续的分量载波是沿着频率范围相分离的。每个分量载波甚至可以位于不同的频带之中。非连续载波聚合可以提供零散的频谱的聚合。带内(或者单频带)非连续的载波聚合提供相同频带(例如,频带A)中的非连续的载波聚合,如图2B中所示。带间(或多频带)非连续的载波聚合提供不同的频带中的非连续的载波聚合(例如,频带A、B或C),如图2C中所示。使用不同的频带中的分量载波的能力,可以实现可用带宽的更高效使用并增加聚合的数据吞吐量。
可以通过在一个扇区中,网络所提供的下行链路(DL)和上行链路(UL)分量载波的数量来规定网络对称(或非对称)载波聚合。可以通过针对UE所配置的下行链路(DL)和上行链路(UL)分量载波的数量来规定UE对称(或非对称)载波聚合。DL CC的数量可以至少是ULCC的数量。系统信息块类型2(SIB2)可以提供DL和UL之间的特定链接。图3A示出了对称-非对称载波聚合配置的框图,其中载波聚合对于网络来说,是DL和UL之间对称的,而对于UE来说,是DL和UL之间非对称的。图3B示出了非对称-对称载波聚合配置的框图,其中该载波聚合对于网络来说,是DL和UL之间非对称的,对于UE来说,是DL和UL之间对称的。
对于每一个UE来说,可以将一个CC规定成主小区(PCell)。不同的UE并不需要使用同一个CC做为它们的PCell。可以将PCell认为是UE的锚定载波,因此,PCell可以用于控制信令功能,例如,无线链路失败监测、混合自动重传请求-确认(HARQ-ACK)和PUCCH资源分配(RA)。如果 针对UE配置一个以上的CC,则可以将其它的CC表示成用于UE的辅小区(SCell)。
如图4中所示,分量载波可以用于使用通用长期演进(LTE)帧结构,通过在节点(例如,eNodeB)和无线设备(例如,UE)之间的上行链路传输中的物理(PHY)层上发送的无线帧结构,来携带信道信息。虽然示出了LTE帧结构,但也可以使用用于IEEE 802.16标准(WiMAX)、IEEE 802.11标准(WiFi)、或者使用SC-FDMA或OFDMA的另一种类型的标准的帧结构。
图4示出了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)。每一个无线帧可以被分割或划分成十个子帧110i,其中每一个子帧的长度为1ms。每一个子帧可以被进一步细划分成两个时隙120a和120b,每一个时隙具有0.5ms的持续时间(Tslot)。无线设备和节点所使用的分量载波(CC)的每一个时隙,可以基于该CC频率带宽而包括多个资源块(RB)130a、130b、130i、130m和130n。每一个RB(物理RB或PRB)130i可以包括12-15kHz子载波136(在频率轴上)和每子载波6或7个SC-FDMA符号132(在时间轴上)。如果采用短的或普通循环前缀,则该RB可以使用七个SC-FDMA符号。如果使用扩展循环前缀,则RB可以使用六个SC-FDMA。可以将该资源块映射到使用短或普通循环前缀的84个资源单元(RE)140i,或者将该资源块映射到使用扩展循环前缀的72个RE(没有示出)。RE可以是一个SC-FDMA符号142乘一个子载波(即,15kHz)146的单位。在正交相移键控(QPSK)调制的情况下,每一个RE可以发送两个比特150a和150b的信息。可以使用其它类型的调制,例如,使用16正交幅度调制(QAM)或64QAM以在每一个RE中发送更大数量的比特,或者使用二进制相移键控(BPSK)调制以在每一个RE中发送更少数量的比特(单个比特)。可以将RB配置为用于从无线设备到节点的上行链路传输。
上行链路信号或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)和上行链路调度请求(SR)。
无线设备(例如,UE)可以使用PUCCH来提供针对PDSCH的HARQ-ACK反馈。PUCCH可以支持具有各种调制和编码方式(MCS)的多种格式(即,PUCCH格式),如表1中针对LTE所示的。在3GPP LTE标准版本11(例如,V11.1.0(2012-12))技术规范(TS)36.211表5.4-1中,示出了类似于表1的信息。例如,PUCCH格式1b可以用于传送两比特的HARQ-ACK,其可以用于载波聚合。
表1
传统LTE TDD可以通过提供七种不同的半静态配置的上行链路-下行链路配置,来支持非对称的UL-DL分配。表2示出了在LTE中使用的七种UL-DL配置,其中“D”表示下行链路子帧,“S”表示特殊子帧,“U”表示上行链路子帧。在示例中,特殊子帧可以操作成或者被视作为下行链路子帧。在3GPP LTE TS 36.211表4.2-2中,示出了类似于表2的信息。
表2
如表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;UL-DL配置5可以包括子帧2中的一个上行链路子帧,以及子帧0、1和3-9中的9个下行链路和特殊子帧。每一个上行链路子帧n可以基于上行链路-下行链路配置与下行链路子帧相关联,其中每一个上行链路子帧n可以具有下行链路关联集索引K∈{k0,k1,...,kM-1},其中将M规定成集合K中的元素的数量,如表3所示。在3GPP LTE TS 36.213表10.1.3.1-1中,示出了类似于表3的信息。
表3
表3示出了处理针对某些下行链路子帧的ACK/NACK反馈的上行链路子帧中的下行链路子帧绑定的示例。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)处理针对下行链路和特殊子帧的ACK/NACK反馈,其中该下行链路和特殊子帧是与上行链路子帧2相比更早的{12,8,7,11}子帧(子帧km)(即,下行链路和特殊子帧{0,4,5,1}(或下行链路和特殊子帧n-km)),M等于4。上行链路子帧3(子帧n)处理针对下行链路子帧的ACK/NACK反馈,其中上述下行链路子帧是与上行链路子帧3相比更早的{6,5,4,7}子帧(子帧km)(即,下行链路子帧{7,8,9,6}(或下行链路子帧n-km)),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。对于上行链路配置0,上行链路子帧2而言,M等于1,而对于上行链路子帧3,M等于零。根据上行链路-下行链路配置,一个上行链路子帧可以负责针对一个或多个下行链路子帧的ACK/NACK反馈。在某些情形下,可能期望上行链路子帧责任之间的均匀分布,以减少一个上行链路子帧负责针对大量的下行链路和特殊子帧的ACK/NACK反馈的情形。
作为一些示例中的基本要求,网络的小区可以同步地改变UL-DL(TDD)配置以避免干扰。然而,这种需求可能对网络中的不同小区的业务管理能力进行限制。传统的LTE TDD配置集合可以提供范围位于40%和90%之间的DL子帧分配,如表2中所示。可以通过系统信息广播信令(例如,系统信息块[SIB]),对无线帧中的UL和DL子帧分配进行重新配置。因此,可以期望一旦配置后的UL-DL分配进行半静态地变化。
TDD的属性在于UL和DL子帧的数量可以是不同的(如表2中所示),通常,对于无线帧来说,DL子帧的数量可以大于UL子帧的数量。在与UL子帧相比使用更多的DL子帧的配置中,多个DL子帧可以与一个单一UL子帧相关联,以便传输相应的控制信号。可以规定特定于配置的HARQ-ACK时序关系(例如,3GPP LTE标准版本11(例如,V11.1.0(2012-12))TS36.213表10.1.3.1-1或表3)。如果在多个DL子帧中调度UE(其中这些DL子帧与一个UL子帧相关联),则该UE可以在该UL子帧中发送多个ACK/NAK(ACK/NACK)比特。使用一个单个UL子帧上的HARQ-ACK反馈的多个DL子帧,可以包括一个绑定窗口。
如图6中所示,根据预先规定的用于UL-DL配置1的HARQ-ACK时序关系,子帧0和1可以包括PCell上的一个绑定窗口,而相应地,根据为用于上行链路子帧7的配置2所规定的HARQ-ACK时序,前一无线帧的子帧9、子帧0、1和3包括SCell上的HARQ-ACK绑定窗口。举例而言,HARQ-ACK绑定窗口可以不用于具有9个DL子帧的配置5。
时分双工(TDD)系统的一种优点,可以是通过不同的TDD配置进行灵活的资源利用,以便更佳地匹配小区的上行链路和下行链路业务特性。 通过配置不同的TDD配置,可用的上行链路(UL)和下行链路(DL)资源之间的比率,可以在3UL:2DL(6UL:4DL)到1UL:9DL之间变化。在传统LTE TDD(例如,LTE版本10(Rel-10)规范)中,仅仅规定和支持相同UL-DL配置的TDD分量载波(CC)的聚合。尽管相同的UL-DL配置可以简化CC的设计和操作,但相同的UL-DL配置也可能施加一些限制。
举例而言,可以针对在不同的频带上具有不同的上行链路-下行链路配置的TDD系统支持带间载波聚合(CA)。例如,单TDD运营商可以部署一个以上的TDD载波,可以在单一基站(例如,节点)处,对这些载波进行聚合。除此之外,两个载波频率之间的间隔可以是足够的大,以避免来自同一设备的UL-DL干扰。在不同的频带上具有不同的TDD配置的带间CA的一些益处可以包括:(1)传统系统共存;(2)异构网络(HetNet)支持;(3)依赖于业务的载波的聚合;(4)灵活配置(例如,较低频带中具有更多UL子帧以实现更佳覆盖,较高频带中具有更多DL子帧);(5)更高的峰值速率。
支持具有不同的上行链路-下行链路配置的带间TDD载波聚合(CA),可以用于对具有不同DL/UL配置的分量载波(CC)进行聚合。为了向全双工和半双工UE提供高峰值数据速率增强的益处,针对下行链路(DL)数据的HARQ(混合自动重传请求)ACK/NACK反馈可以使用仅仅在主小区(PCell)上发送的PUCCH,通过遵循PCell SIB类型1(SIB1)UL-DL配置,针对PCell PDSCH使用传统HARQ-ACK时序,遵循特定的参考UL-DL配置(例如,PCell和SCell UL-DL配置)而使用针对辅小区(SCell)的PDSCH的HARQ-ACK时序,如图5中所示出的表4所示。例如,PCell上的PDSCH的HARQ-ACK时序可以遵循PCell SIB1传统UL/DL配置。对于在SCell上发送的PDSCH而言,HARQ时序可以遵循如表4中所示的参考传统UL/DL配置。
可以支持在不同的频带中具有不同的UL-DL配置的带间TDD CA。例如,可以根据PCell UL-DL配置和SCell UL-DL配置(如图5中所示出的表4所示),来确定SCell PDSCHHARQ参考时序。表4(即,图5)示出了用于SCell的PDSCH HARQ-ACK时序参考的UL-DL配置数量。PCell PDSCH的HARQ-ACK时序、PCell PUSCH的调度时序、PCell PUSCH的HARQ时序可以使用PCell SIB1配置。针对在不同的频带上具有不同UL-DL配置的TDD带间载波聚合的HARQ-ACK传输和自我载波调度,可以使用具有信道选择(CS)的PUCCH格式3或PUCCH格式1b来配置UE。
如图6中所示,可以将不同数量的下行链路子帧捆绑在每一个服务小区(例如,PCell或SCell)的各自绑定窗口中。根据用于SCell PDSCH的HARQ-ACK时序表(即,表4),HARQ-ACK绑定窗口的大小在PCell和SCell之间可以是不同的。图6示出了例子,其中PCell被配置为TDD UL/DL配置1,SCell被配置为TDD UL/DL配置2。由于与PCell相比,SCell可以遵循不同的DL HARQ时序,因此不仅SCell的绑定窗口可以与PCell不相同,而且SCell绑定窗口中的HARQ-ACK比特的数量(其对应于DL子帧的数量)也可以与PCell绑定窗口不相同。结果,传统HARQ-ACK比特映射和绑定规则可能不再适用于与PCell相比具有不同UL-DL配置的SCell UL-DL配置,或者传统HARQ-ACK比特映射和捆绑规则可能不再支持SCell UL-DL配置与PCell UL-DL配置不相同的情形。
图6示出了在带间TDD CA的情形下,PCell和SCell的变化的HARQ-ACK绑定窗口大小。不同的UL-DL配置的含义可以是:在每个小区中的绑定窗口内可以对不同数量的下行链路子帧进行绑定。例如,如图6中所示,PCell可以使用TDD配置1,SCell可以使用TDD配置2。如上所述,对于这两个服务小区(例如,PCell和SCell)来说,与UL子帧7相关联的绑定窗口的大小可以是不同的。对于PCell而言,HARQ-ACK绑定窗口大小是包括子帧{0,1}的2个,而对于SCell而言,HARQ-ACK绑定窗口大小是包括子帧{9,0,1,3}的4个,如图6中所示。图6示出了在TDD带间CA场景中,不同的HARQ-ACK绑定窗口。
针对在不同的频带上具有不同UL-DL配置的TDD带间载波聚合(CA)的HARQ-ACK传输和自我载波调度,可以使用具有信道选择(CS)的PUCCH格式3或PUCCH格式1b来配置UE。可以对传统HARQ-ACK传输配置进行各种改变。例如,聚合的服务小区的PDSCH时序参考配置,没有一个可以是UL-DL配置#5。与UL子帧n相关联的服务小区c上的DL子帧集合(其表示为KC)可以包括DL子帧n-k,其中k∈K,并且K是根 据服务小区c上的PDSCH HARQ时序所遵循的TDD UL-DL配置来确定的。对于PUCCH上的HARQ-ACK传输(至少针对Mp和Ms是正值的情形),UE可以使用传统映射表(例如,图15-22中所示出的表7-14),M=max{Mp,Ms},其中是Mp是用于主小区的集合KC中的元素的数量,Ms是用于辅小区的集合KC中的元素的数量,或者UE可以针对具有更小的Mc值的服务小区,为{HARQ-ACK(min{Mp,Ms}、…、HARQ-ACK(M-1)}设置不连续发送(DTX)。在图26中所示出的表18里示出了,针对具有更小的Mc值的服务小区,为{HARQ-ACK(min{Mp,Ms}、…、HARQ-ACK(M-1)}设置DTX,并在下面的专利申请中进行了示出和描述:2012年5月30日提交的美国临时专利申请No.61/653,369;Hong He等人于2013年3月29日提交的、标题为“HYBRID AUTOMATIC REPEAT REQUEST(HARQ)MAPPING FOR CARRIERAGGREGATION(CA)”的美国专利申请No.13/853,390,其代理人案卷号为P49419;2012年7月2日提交的美国临时专利申请No.61/667,325;Hong He等人于2013年3月29日提交的、标题为“HYBRID AUTOMATIC REPEAT REQUEST(HARQ)MAPPING FOR CARRIER AGGREGATION(CA)”的美国专利申请No.13/853,404,其代理人案卷号为P49406,故以引用方式将这些申请中的每一份申请的全部内容并入本文。
在另一个示例中,UE可以处理重叠状态,其中重叠状态包括确认(ACK)、否定确认(NACK)、或者不连续发送(DTX)响应(即,ACK/NACK/DTX响应),其可以映射到与另一个ACK/NACK/DTX响应共享的HARQ-ACK状态。例如,ACK/NACK/DTX响应(在重叠状态中)可能不具有唯一的HARQ-ACK状态,其中节点(例如,eNB)可以将HARQ-ACK状态解码成已知的ACK/NACK/DTX响应。例如,重叠的HARQ-ACK状态可以规定多个ACK/NACK/DTX响应(例如,至少两个ACK/NACK/DTX响应)。可以对HARQ-ACK状态进行指定、规定、重映射或者生成,以避免重叠状态。
例如,在使用‘DTX’来填充另外状态之后,可以针对Mp(=2)<Ms(=4)来描述重叠的状态问题,其中Mp表示用于PCell的HARQ绑定窗口大小,Ms表示用于SCell的HARQ绑定窗口大小。在PCell的绑定窗口Mp中, 除了实际解码结果“ACK,ACK”之外,UE针对HARQ反馈生成相同的映射状态“N,N”,这是由于根据传统“M=4”映射表(例如,图17或20中所示出的表9或12),可以将HARQ-ACK状态“ACK,NACK,DTX,DTX”和“NACK,任意,DTX,DTX”二者映射到相同的状态。例如,利用‘DTX’来填充另外的HARQ-ACK状态,可能导致在eNB侧不知道该HARQ-ACK状态,并因此造成下行链路(DL)吞吐量下降。
可以使用一种用于减轻在节点处不知道HARQ-ACK状态的解决方案,以便当针对CA场景配置具有CS的PUCCH格式1b时,实现载波聚合(CA)功能。例如,UE可以根据max(Mp,Ms),确定载波聚合中的绑定窗口大小M。对于具有更小绑定窗口大小的服务小区(例如,PCell或SCell)来说,除了一些已知的状态之外,可以通过“max(Mp,Ms)-min(Mp,Ms)”来填充预定的状态(例如,DTX)。例如,在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,可以映射到传统映射表(例如,图17、20或22中所示出的表9、12或14)的“ACK,DTX,DTX,DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,可以映射到传统映射表(例如,图17、20或22中所示出的表9、12或14)的“ACK,ACK,ACK,NACK/DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=3的情况下,对应于传统映射表(例如,图16、19或21中所示出的表8、11或13),具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,可以映射到“ACK,ACK,ACK”。在min(Mp,Ms)=3并且max(Mp,Ms)=4的情况下,对应于传统映射表(例如,图17、20或22中所示出的表9、12或14),具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,可以映射到“ACK,DTX,DTX,DTX”。
所描述的解决方案可以解决HARQ-ACK重叠状态问题,但不能提供完整的解决方案,这是由于关于映射相应的PUCCH信道资源,以使用DTX填充来支持用于CA的HARQ-ACK反馈方案的其它有关问题(例如,半持久调度(SPS)),可能会造成模糊或不高效。考虑不同的PUCCH资源分配(RA)方案可以独立地应用于M=2情形(例如,基于DL子帧索引的RA)和M=3或4情形(例如,基于下行链路分配索引的(基于DAI的)RA), 可以使用一种完整的解决方案来解决SPS子帧和非SPS子帧。
针对max(Mp,Ms)情况的预先规定的RA(其是基于DAI的RA方案),可以具有用于两个CC的通用RA方案,以减少指示或实现复杂度。但是,使用半持久调度(SPS)来配置更小绑定窗口MP中的DL子帧里的场景(例如,互联网协议承载语音(VoIP)),可能不能通过所描述的解决方案来解决。可以使用针对SPS的覆盖过程来覆盖SPS。例如,在实现SPS之后,UE可以继续针对动态上行链路和下行链路调度命令来监测PDCCH(对于SPS来说,通常不发送这些命令)。
在检测到动态调度的情况下,UE可以覆盖检测到动态调度的特定子帧中的半持久调度(SPS),当SPS分配的资源偶尔增加时,这种方式是有用的(例如,用于VoIP与web浏览的并行目的)。此外,对于与具有CS的PUCCH格式1b进行复用的TDD HARQ-ACK,和两个具有M=3或4的配置的服务小区来说,当在绑定窗口中存在SPS时,传统表(例如,图15-22中所示出的表7-14)中的HARQ(0)或HARQ-ACK(0)可以表示SPS ACK/NAK,HARQ(i)或HARQ-ACK(i)可以表示针对DL准许DAI=i的PDSCH的HARQ-ACK;否则,HARQ(i)可以表示针对DL准许DAI=i+1的PDSCH的HARQ-ACK。
对于具有CS的PUCCH格式1b来说,当在UE侧发生动态下行链路控制信息(DCI)(其覆盖SPS配置)的误检测时,在UE和节点(例如,eNB)之间可能发生DL数据接收状态的不匹配。SPS覆盖的误检测可能招致不必要的重传或者分组丢失以及DL吞吐量性能下降,这在使用不同的UL-DL配置的CA情形下更加突出。图7和表5(即,图8)示出了SPS覆盖PCell上的Mp=2(例如,配置1)和SCell上的Ms=4(例如,配置2)的误检测的影响。图7示出了当进行半持久调度(SPS)时,重用M=max(Mp,Ms)资源分配(RA)解决方案的潜在问题。如图7中所示,在PCell和SCell上发送四个DL子帧。对于PCell而言,eNB可以发送动态DCI以覆盖SPS子帧中的SPS配置,这可能被UE误检测,将实际的HARQ-ACK状态假定成(NACK,ACK,DTX,DTX)。为了说明目的,在PCell上的绑定窗口中,状态‘NACK’表示针对SPS子帧的HARQ-ACK响应,‘ACK’表示针对第一DL子帧的HARQ-ACK响应。
因为UE由于误检测不知道在PCell上发送了覆盖SPS的动态DCI,因此UE可以反向馈送HARQ-ACK(其假定在绑定窗口中存在SPS子帧)。此外,对于SCell来说,可以将UE处的PDSCH接收状态假定为(DTX,NACK,DTX,DTX)。随后,UE可以根据M=max(Mp,Ms)传统映射表(例如,图22中所示出的表14),将(h1,j)用于HARQ-ACK反馈,其中h1表示PUCCH资源‘j’表示HARQ-ACK状态。在假定eNB正确地检测到相应的PUCCH信道上的HARQ-ACK状态‘j’的情况下,但是,在eNB侧,相应的PUCCH信道可能被错误地解释成‘h0’(即,PUCCH资源),而不是‘h1’(实际由UE所确定),这是由于eNB假定UE在SPS子帧上检测到动态覆盖的DCI。随后,遵循传统映射表,eNB所解释的PDSCH接收状态在PCell上可以是(NACK,ACK,DTX,DTX)和在SCell上可以是(ACK,ACK,NACK/DTX,任意),如表5(即,图8)中所概括的。如表5中所示,对于一些情形而言(例如,图7中的示例),eNB可能没有正确地解释所有DL子帧的接收状态(例如,100%),这可能由于(NACK->ACK)的解释事件,而招致显著的DL性能下降和不可接受的分组丢失率。
因此,由于显著的DL吞吐量下降和潜在的很大数量的分组丢失(当在PCell上的更小绑定窗口中配置SPS时可能发生),所以针对重叠状态解决方案,直接重用传统设计方案中用于M=max(Mp,Ms)的RA方法可能是不可行的和不可接受的。
当在PCell上发生更小的绑定窗口时,可以使用一种解决方案来解决资源分配问题(其考虑更小的绑定窗口中的DL子帧的类型)。条件HARQ-ACK状态映射和PUCCH资源分配解决方案可以提供HARQ-ACK 反馈方法,其包括HARQ-ACK状态生成和相应的与HARQ-ACK状态相关联的PUCCH资源分配,这可以支持具有信道选择方案的PUCCH格式1b。
例如,可以根据两种状况(例如,状况1(或第一状况)和状况2(或第二状况))中的一种,将不同的HARQ-ACK状态映射和PUCCH资源分配(RA)方案用于带间CA场景。
在第一状况(即,状况1)下,可以在绑定窗口(例如,半持久调度(SPS))中,检测不具有相应的PDCCH的PDSCH传输。状况1可以不包括下面的情形:PDCCH动态地覆盖SPS PDSCH(即,SPS覆盖)。图9A-C示出了第一状况的一些潜在场景。图9A-C中的示例性绑定窗口组合只是示例性的,而不是详尽的。状况1的适用范围并不限于图9A-C中的示例。图9A示出了针对带间TDD CA,PCell绑定窗口大小Mp=2并且SCell绑定窗口大小Ms=4的HARQ-ACK绑定窗口。图9B示出了PCell绑定窗口大小Mp=2并且SCell绑定窗口大小Ms=3的HARQ-ACK绑定窗口。图9C示出了PCell绑定窗口大小Mp=4和SCell绑定窗口大小Ms=2的HARQ-ACK绑定窗口。
举例而言,对应于针对PCell的HARQ-ACK状态生成(即,状况1),HARQ-ACK(0)可以是针对不具有相应PDCCH的PDSCH传输的ACK/NACK/DTX响应。对于0≤j≤M-1,其中M=max(Mp,Ms),如果接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的DAI值等于‘j’)或者接收到指示下行链路SPS释放的PDCCH(并且该PDCCH中的DAI值等于‘j’),则HARQ-ACK(j)可以是相应的ACK/NACK/DTX响应;否则,HARQ-ACK(j)可以被设置为DTX。
对于针对SCell的HARQ-ACK状态生成(即,状况1),对于0≤j≤M-1,其中M=max(Mp,Ms),如果接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的DAI值等于‘j+1’),则HARQ-ACK(j)可以是相应的ACK/NACK/DTX响应;否则,HARQ-ACK(j)可以被设置为DTX。
对于针对PCell的HARQ-ACK状态生成(即,状况1),可以根据更高层配置(例如,无线资源控制(RRC)信令)和表6(即,图10)来确定的值。对于在主小区上的PDSCH传输而言(其通过检测相应PDCCH或者在绑定窗口的一个子帧中指示下行链路SPS释放的PDCCH来指示,其中 该PDCCH中的DAI值等于‘1’),可以通过表达式1来导出PUCCH资源:
[表达式1]
其中,c是从{0,1,2,3}中选择的,使得:
其中,nCCE,m是用于在绑定窗口的子帧中传输相应的PDCCH的第一CCE的数量,通过更高层进行配置(例如,RRC信令)。
对应于针对SCell的PUCCH RA方案(即,状况1),对于在SCell上的PDSCH传输(其通过在绑定窗口中的一个子帧里检测PCell上的相应PDCCH来指示),可以根据用于SCell的具有DAI=1、2的PDCCH来导出用于SCell的2个资源,如通过式1所规定的。对于通过在SCell上的子帧中检测相应的PDCCH来指示的PDSCH传输(即,状况1),可以通过ARI来指示用于SCell的两个PUCCH资源(例如,重新解释相应的PDCCH的DCI格式中的TPC字段),如表6(即,图10)中所示。
第二状况(即,状况2)包括具有相应的PDCCH的PDSCH传输、指示下行链路SPS释放的PDCCH、或者PDCCH动态地覆盖SPS PDSCH的情形(即,SPS覆盖)。第二状况(或其它状况)可以包括第一状况没有涵盖的状况。
在第二状况(即,状况2)的示例中,对于针对PCell和SCell的HARQ-ACK状态生成,对于0≤j≤M-1,其中M=max(Mp,Ms),如果接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的DAI值等于‘j+1’)或者接收到指示下行链路SPS释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’),则HARQ-ACK(j)可以是相应的ACK/NACK/DTX响应;否则,可以将HARQ-ACK(j)设置为DTX(除了各种指定的状态之外)。例如,在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,DTX,DTX,DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,M2)=2的服务小区的“NACK,ACK”的状态,可以映射到针对{HARQ-ACK(0), HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,ACK,ACK,NACK/DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=3的情况下,具有min(Mp,M2)=2的服务小区的“NACK,ACK”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”。在min(Mp,Ms)=3并且max(Mp,Ms)=4的情况下,具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,DTX,DTX,DTX”。
在另一个第二状况(即,状况2)的示例中,对于针对PCell和SCell的HARQ-ACK状态生成,可以替代地规定各种指定的状态。例如,在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,M2)=2的服务小区的“ACK,NACK”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,ACK,ACK,NACK/DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=4的情况下,具有min(Mp,M2)=2的服务小区的“NACK,ACK”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,DTX,DTX,DTX”。在min(Mp,Ms)=2并且max(Mp,Ms)=3的情况下,具有min(Mp,M2)=2的服务小区的“NACK,ACK”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”。在min(Mp,Ms)=3并且max(Mp,Ms)=4的情况下,具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,可以映射到针对{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ(3)}的“ACK,DTX,DTX,DTX”。
对于针对PCell的PUCCH RA方案(即,状况2),对于在主小区上的PDSCH传输而言(其通过检测相应PDCCH或者在绑定窗口的一个子帧中指示下行链路SPS释放的PDCCH来指示,其中该PDCCH中的DAI值等于‘1’或‘2’),可以通过表达式2来导出PUCCH资源:
[表达式2]
其中,c是从{0,1,2,3}中选择的,使得Nc≤nCCE,m<Nc+1,
其中nCCE,m是用于在绑定窗口的子帧中传输相应的PDCCH的第一CCE的数量,通过更高层进行配置,针对DAI值等于‘1’的相应PDCCH,i=0,针对DAI值等于‘2’的相应PDCCH,i=1。
对于针对SCell的PUCCH RA方案(即,状况1),对于在SCell上的PDSCH传输(其通过在绑定窗口中的一个子帧里检测PCell上的相应PDCCH来指示),可以根据用于SCell的具有DAI=1、2的PDCCH来导出用于SCell的2个资源,如通过式1所规定的。对于通过在SCell上的子帧中检测相应的PDCCH来指示的PDSCH传输(即,状况2),可以通过ARI来指示用于SCell的两个PUCCH资源(例如,重新解释相应的PDCCH的DCI格式中的TPC字段),如表6(即,图10)中所规定的或所示的。
图23(即,表15)示出了用于M=4的HARQ-ACK复用的传输。图24(即,表16)示出了用于M=3的HARQ-ACK复用的传输。图25(即,表17)示出了具有针对主分量载波(PCC)和辅分量载波(SCC)的信道选择(CS)的PUCCH格式1b的HARQ-ACK映射表,其包括星座图点(例如,b0、b1、b2和b3)值(例如,A对应于ACK、N对应于NACK、D对应于不连续发送(DTX)、以及D/N对应于DTX/NACK)和用于参考信号(RS)的PUCCH ACK/NACK(A/N)资源(例如,h#)、以及具有使用1-4比特(例如,M=1、M=2、M=3或M=4)表示HARQ-ACK绑定窗口的数据常量(常量)的数据。
表15(即,图23)可以针对一个以上的配置的服务小区情形,概括传统HARQ-ACK映射表。如表15中所示,对于‘N,任意,任意,任意’和“A,D/N,任意,任意,但A、D、D、D除外”(表15的最后行)二者来说,可以发生重叠的状态。当一个状态表示一个以上的状态时,可以发生重叠状态。考虑表15中的重叠映射的状态,由于在上面的第一解决方案中填充的‘DTX’状态,可能发生关于更小的绑定窗口大小的服务小区特性的一些性能下降。
例如,利用‘DTX’填充另外的HARQ-ACK状态,可能导致在节点(例如,eNB)侧不知道该HARQ-ACK状态,并因此造成PCell上的PDSCH 调度被潜在地限制在eNB,导致大量的DL吞吐量损失(由于PCell可能不是实际可用的)。在另一个示例中,当“DTX”填充方法(例如,第一解决方案)用于具有信道选择的PUCCH格式1b时,可能严重地影响或者隐式地几乎禁用载波聚合功能。
当为UE配置具有信道选择的PUCCH格式1b和具有不同UL-DL配置的一个以上的CC时(其包括利用SPS和使用SPS覆盖),基于关于所描述的“DTX”填充方法的问题,可以使用所描述的一些机制和解决方案来减轻实现CA功能的问题。
另一个示例提供了用于在用户设备(UE)处针对载波聚合(CA)的条件混合自动重传请求(HARQ)映射的方法500,如图11中的流程图所示。该方法可以作为机器、计算机电路或者UE的处理器上的指令被执行,其中将这些指令包括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上。该方法包括:确定用于物理下行链路共享信道(PDSCH)传输的子帧何时被配置用于下行链路半持久调度(SPS),其中,被配置用于下行链路SPS的子帧生成第一状况,如在方框510中。接下来是如下操作:对于辅小区(SCell)的辅HARQ绑定窗口大小和主小区(PCell)的主HARQ绑定窗口大小,对于具有不连续发送(DTX)填充的HARQ绑定窗口,生成对应于第一状况的HARQ-ACK状态,如在方框520中。该方法的下一个操作可以是:使用包括DTX填充例外的DTX填充,生成对应于HARQ绑定窗口的第二状况的HARQ-ACK状态,其中,第二状况包括第一状况没有覆盖的状况,DTX填充例外可以生成HARQ-ACK状态集合,以唯一地规定每一个填充的HARQ-ACK状态,如在方框530中。
举例而言,该方法还可以包括:使用HARQ-ACK复用查找表,基于HARQ绑定窗口大小M=max(Mp,Ms)的信道选择,其中Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;在物理上行链路控制信道(PUCCH)资源中,使用星座图点b(0)和b(1)来发送HARQ-ACK状态。星座图点b(0)、b(1)和PUCCH资源可以基于HARQ-ACK复用查找表。HARQ-ACK复用查找表可以包括:当M=3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表10.1.3.2-5(例如,图21中所示出的表13),或者当M=4时,LTE TS36.213版本11表10.1.3.2-6(例如,图22中所示出的表14)。
在另一个示例中,生成针对第二状况的HARQ-ACK状态的操作,还可以包括:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路SPS释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,当辅HARQ绑定窗口大小与主HARQ绑定窗口大小不相同时,除了表示DTX填充例外的特殊情形之外,生成具有DTX值的HARQ-ACK(j)。对于该特殊情况,生成针对第二状况的HARQ-ACK状态的操作,还可以包括:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将 具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”状态,重新映射到“ACK,DTX,DTX,DTX”。
在另一种配置中,生成针对第二状况的HARQ-ACK状态的操作,还可以包括:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路SPS释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11的物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,当辅HARQ绑定窗口大小与主HARQ绑定窗口大小不相同时,除了表示DTX填充例外的特殊情形之外,生成具有DTX值的HARQ-ACK(j)。对于特殊情况,生成针对第二状况的HARQ-ACK状态的操作,还可以包括:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到 “ACK,DTX,DTX,DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
在另一个示例中,生成针对PCell的第一状况的HARQ-ACK状态的操作,还可以包括:针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11的物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(0);或者当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j’)或者接收到指示下行链路SPS释放的PDCCH(并且该PDCCH中的DAI值等于‘j’)时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,生成被设置为DTX的HARQ-ACK(j)。
在另一个示例中,生成针对SCell的第一状况的HARQ-ACK状态的操作,还可以包括:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms);否则,生成被设置为DTX的HARQ-ACK(j)。
在另一种配置中,该方法还可以包括:接收用于主小区的上行链路-下行链路(UL-DL)配置和用于辅小区(SCell)的UL-DL配置;基于用于SCell的UL-DL配置来确定辅HARQ绑定窗口大小,基于用于PCell的UL-DL配置来确定主HARQ绑定窗口大小。可以在PCell上发送的系统信息块1(SIB1)中包括用于PCell的UL-DL配置,在SCell上发送的SIB1中包括用于SCell的UL-DL配置。
另一个示例提供了用户设备(UE)上的处理器的计算机电路的功能600,该功能可操作用于为载波聚合(CA)提供条件混合自动重传请求-确认(HARQ-ACK)状态映射,如图12中的流程图所示。该功能可以实现成一种方法,或者该功能可以执行成机器上的指令,其中将这些指令包括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上。该计算机电路可以被配置为:接收子帧中的物理下行链路共享信道(PDSCH)传输,如在方框610中。此外,该计算机电路还可以被配置为:确定何时存在状况1,当在不具有用于HARQ绑定窗口的物理下行链路控制信道(PDCCH)的情况下发送该子帧时,发生状况1,如在方框620中。此外,该计算机电路还可以被配置为:当用于辅小区(SCell)的辅HARQ绑定窗口大小与用于主小区(PCell)的主HARQ绑定窗口大小不同时,使用不连续发送(DTX)填充,生成对应于HARQ绑定窗口的状况1的HARQ-ACK状态,如在方框630中。该计算机电路还可以被配置为:当辅HARQ绑定窗口大小与主HARQ绑定窗口大小不同时,使用包括DTX填充例外的DTX填充,生成对应于HARQ绑定窗口的状况2的HARQ-ACK状态,其中状况2包括状况1没有涵盖的状况,并且所述DTX填充例外生成针对每个填充的HARQ-ACK状态的唯一HARQ-ACK状态,如在方框640中。
举例而言,该计算机电路还可以被配置为:使用HARQ-ACK复用查找表,基于HARQ绑定窗口大小M=max(Mp,Ms)来执行信道选择,其中 Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;基于HARQ-ACK复用查找表,生成星座图点b(0)和b(1)以及物理上行链路控制信道(PUCCH)资源使用星座图点b(0)和b(1),在PUCCH资源中发送HARQ-ACK状态。HARQ-ACK复用查找表可以包括: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,当M=3时,其包括表10.1.3.2-5(例如,图21中所示出的表13),或者当M=4时,其包括表10.1.3.2-6(例如,图22中所示出的表14)。
在另一个示例中,被配置为生成针对状况2的HARQ-ACK状态的计算机电路,还被配置为:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,除了特殊情形之外,生成被设置为DTX值的HARQ-ACK(j)。对于该特殊情况,该计算机电路还可以被配置为:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将用于具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将 用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将用于具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
在另一种配置中,被配置为生成针对状况2的HARQ-ACK状态的计算机电路,还可以被配置为:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,除了特殊情形之外,生成被设置为DTX值的HARQ-ACK(j)。对于该特殊情况,该计算机电路还可以被配置为:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将用于具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序 系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)},将用于具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
在另一个示例中,被配置为生成针对PCell的状况1的HARQ-ACK状态的计算机电路,还可以被配置为:针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,生成与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(0);或者当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j’)时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,生成被设置为DTX的HARQ-ACK(j)。
在另一个示例中,被配置为生成针对SCell的状况1的HARQ-ACK状态的计算机电路,还可以被配置为:当接收到具有相应PDCCH的PDSCH 传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),其中0≤j≤M-1,M=max(Mp,Ms);否则,生成被设置为DTX的HARQ-ACK(j)。
在另一种配置中,该计算机电路还可以被配置为:生成针对PCell的状况1的物理上行链路控制信道(PUCCH)资源分配(RA),其中:PUCCH资源值是根据更高层配置和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9.2-2(例如,表6)来确定的;或者针对于第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1b,用于在子帧n中传输HARQ-ACK的PUCCH资源针对主小区上的PDSCH传输(其通过检测相应PDCCH或者在绑定窗口的子帧中指示下行链路半持久调度(SPS)释放的PDCCH来指示,其中该PDCCH中的下行链路分配索引(DAI)值等于‘1’),其中,针对于时分双工(TDD),PUCCH资源通过下式来表示:
其中,HARQ绑定窗口大小M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小,nCCE,m是用于在绑定窗口的子帧n-km中传输相应的PDCCH的第一CCE索引编号,其中km是集合K中的最小值,使得UE在子帧n-km中检测PDCCH,其中,c是从{0,1,2,3}中选择的值,使得Nc≤nCCE,m<Nc+1,是以为单位表示的下行链路带宽配置,是表示成子载波的数量的频域中的资源块大小,是用于上行链路子帧中的PUCCH域的起始PUCCH信道 索引,其通过各个UE的高层来配置。
在另一种配置中,该计算机电路还可以被配置为:生成针对SCell的状况1的物理上行链路控制信道(PUCCH)资源分配(RA),其中:用于在LTE PUCCH格式1b的子帧n中传输HARQ-ACK的PUCCH资源针对辅小区上的PDSCH传输(其通过在绑定窗口的一个子帧中,检测主小区上的相应PDCCH来指示,其中该PDCCH中的下行链路分配索引(DAI)值等于‘1’或‘2’),其中,针对于时分双工(TDD),PUCCH资源通过下式来表示:
其中,对于DAI值等于‘1’的相应PDCCH而言,i=2,对于DAI值等于‘2’的相应PDCCH而言,i=3;或者用于在LTE PUCCH格式1b的子帧n中传输HARQ-ACK的PUCCH资源和(其指示针对PDSCH传输的ACK/否定ACK(NACK)资源指示符(ARI),其中该PDSCH传输通过检测子帧n-k中的相应PDCCH来指示),是根据更高层配置和LTETS 36.213表9.2-2(例如,表6)来确定,其中该ARI重新解释相应的PDCCH的下行链路控制信息(DCI)格式中的发射功率控制(TPC)字段。
在另一个示例中,该计算机电路还可以被配置为:生成针对PCell的状况2的物理上行链路控制信道(PUCCH)资源分配(RA),其中:针对于第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11PUCCH格式1b,用于在子帧n中传输HARQ-ACK的PUCCH资源针对主小区上的PDSCH传输(其通过检测相应PDCCH或者在绑定窗口的一个子帧中指示下行链路半持久调度(SPS)释放的PDCCH来指示,其中该PDCCH 中的下行链路分配索引(DAI)值等于‘1’),其中,针对于时分双工(TDD),PUCCH资源通过下式来表示:
其中,HARQ绑定窗口大小M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小,nCCE,m是用于在绑定窗口的子帧n-km中传输相应的PDCCH的第一CCE索引编号,其中km是集合K中的最小值,使得UE在子帧n-km中检测PDCCH,其中,c是从{0,1,2,3}中选择的值,使得Nc≤nCCE,m<Nc+1,是以为单位表示的下行链路带宽配置,是表示成子载波的数量的频域中的资源块大小,是用于上行链路子帧中的PUCCH域的起始PUCCH信道索引,其通过针对各个UE的高层来配置。
在另一个示例中,该计算机电路还可以被配置为:生成针对SCell的状况2的物理上行链路控制信道(PUCCH)资源分配(RA),其中:用于在LTE PUCCH格式1b的子帧n中传输HARQ-ACK的PUCCH资源针对辅小区上的PDSCH传输(其通过在绑定窗口的一个子帧中,检测主小区上的相应PDCCH来指示,其中该PDCCH中的下行链路分配索引(DAI)值等于‘1’或‘2’),其中,针对于时分双工(TDD),PUCCH资源通过下式来表示:
其中,对于DAI值等于‘1’的相应PDCCH而言,i=2,对于DAI值等于‘2’的相应PDCCH而言,i=3;或者用于在LTE PUCCH格式1b的子帧n中传输HARQ-ACK的PUCCH资源和(其指示针对 PDSCH传输的ACK/否定ACK(NACK)资源指示符(ARI),其中该PDSCH传输通过检测子帧n-k中的相应PDCCH来指示),是根据更高层配置和LTETS 36.213表9.2-2(例如,表6)来确定,其中该ARI重新解释相应的PDCCH的下行链路控制信息(DCI)格式中的发射功率控制(TPC)字段。
图13示出了一种示例节点(例如,服务节点710和协作节点750)和一种示例无线设备720。该节点可以包括节点设备712和752。该节点设备或该节点可以被配置为与无线设备进行通信。该节点设备、节点处的设备或者该节点可以被配置为:通过诸如X2应用协议(X2AP)之类的回程链路748(光纤或有线链路)与其它节点进行通信。该节点设备可以包括处理器714和754,以及收发机716和756。该收发机可以被配置为接收PUCCH资源中的HARQ-ACK反馈。此外,收发机716和756还可以被配置为:通过X2应用协议(X2AP)与协作节点进行通信。该处理器还可以被配置为用于反向过程,以实现PUCCH检测和PDSCH重传,如本申请所公开的。服务节点可以生成PCell和SCell两者。节点(例如,服务节点710和协作节点750)可以包括基站(BS)、节点B(NB)、演进节点B(eNB)、基带单元(BBU)、远程无线头端(RRH)、远程无线设备(RRE)、远程无线单元(RRU)或者中央处理模块(CPM)。
设备(节点使用的)可以被配置为:检测在载波聚合(CA)中使用的混合自动重传请求(HARQ)绑定。收发机716和756可以被配置为:在主小区(PCell)中发送的子帧里的物理上行链路控制信道(PUCCH)中,接收针对PCell的物理下行链路共享信道(PDSCH)和用于辅小区(SCell)的PDSCH的星座图点。处理器714和754可以被配置为:基于用于子帧的主HARQ绑定窗口大小(其基于用于主小区(PCell)的UL-DL配置)和用于子帧的辅HARQ绑定窗口大小(其基于用于辅小区(SCell)的上行链路-下行链路(UL-DL)配置),来确定HARQ绑定窗口大小;使用该HARQ绑定窗口大小、星座图点和PUCCH资源,来确定用于该子帧的HARQ-确认(ACK)响应;确定何时存在状况1,其中,当在HARQ绑定窗口中不具有相应的物理下行链路控制信道(PDCCH)的情况下发送该子帧时,发生状况1;当用于辅小区(SCell)的辅HARQ绑定窗口大小与用于主小区 (PCell)的主HARQ绑定窗口大小不同时,对具有不连续发送(DTX)填充的HARQ绑定窗口的状况1的HARQ-ACK状态进行解码;当辅HARQ绑定窗口大小与主HARQ绑定窗口大小不同时,对具有包括DTX填充例外的DTX填充的HARQ绑定窗口的状况2的HARQ-ACK状态进行解码。状况2可以包括状况1没有覆盖的状况,所述DTX填充例外可以对每个填充的HARQ-ACK状态的唯一HARQ-ACK状态进行解码。
在另一个示例中,被配置为对HARQ-ACK状态进行解码的处理器,还可以被配置为:使用HARQ-ACK复用查找表,基于星座图点b(0)和b(1)、物理上行链路控制信道(PUCCH)资源和HARQ绑定窗口大小M=max(Mp,Ms),对信道进行解码,其中Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小。HARQ-ACK复用查找表可以包括:当M=3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表10.1.3.2-5(例如,图21中所示出的表13),或者当M=4时,其为表10.1.3.2-6(例如,图22中所示出的表14)。
在另一个配置中,被配置为对状况1的HARQ-ACK状态进行解码的处理器,还被配置为:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,对与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j)进行解码,其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,除了表示DTX填充例外的特殊情形之外,对被设置为DTX的HARQ-ACK(j)进行解码。对于该特殊情况,该处理器 还可以被配置为:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,ACK,ACK,NACK/DTX”的状态重新映射到“NACK,ACK”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”的状态重新映射到“NACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=3的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK,任意”。
在另一种配置中,被配置为对状况1的HARQ-ACK状态进行解码的处理器,还被配置为:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j+1’)时,针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,对与ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(j)进行解码,其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,除了表示DTX填充例外的特殊情形之外, 对被设置为DTX的HARQ-ACK(j)进行解码。对于该特殊情况,该处理器还可以被配置为:当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,ACK,ACK,NACK/DTX”的状态重新映射到“ACK,NACK”;当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“NACK,ACK”;当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”的状态重新映射到“NACK,ACK”;或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=3的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-HARQ(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK,任意”。
在另一个示例中,被配置为对PCell的状况2的HARQ-ACK状态进行解码的处理器,还可以被配置为:针对第三代合作伙伴计划(3GPP)长期演进(LTE)标准版本11物理上行链路控制信道(PUCCH)格式1b,对于与不具有相应的PDCCH的PDSCH传输的ACK、否定ACK(NACK)、或者不连续发送(DTX)响应相对应的HARQ-ACK(0)进行解码;或者当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j’)或者接收到指示下行链路半持久调度(SPS)释放的PDCCH(并且该PDCCH中的DAI值等于‘j’)时,对与LTE标准版本 11PUCCH格式1b的ACK、NACK、或者DTX响应相对应的HARQ-ACK(j)进行解码,其中0≤j≤M-1,M=max(Mp,Ms),Mp是主HARQ绑定窗口大小,Ms是辅HARQ绑定窗口大小;否则,对被设置为DTX的HARQ-ACK(j)进行解码。
在另一个示例中,配置为对SCell的状况2的HARQ-ACK状态进行解码的处理器,还可以被配置为:当接收到具有相应PDCCH的PDSCH传输(并且该PDCCH中的下行链路分配索引(DAI)值等于‘j+1’)时,对与LTE标准版本11PUCCH格式1b的ACK、NACK、或者DTX响应相对应的HARQ-ACK(j)进行解码,其中0≤j≤M-1,M=max(Mp,Ms);否则,对被设置为DTX的HARQ-ACK(j)进行解码。
无线设备720(例如,UE)可以包括收发机724和处理器722。该无线设备(即,设备)可以被配置为用于载波聚合(CA)的条件混合自动重传请求(HARQ)映射,如图11的500或图12的600所描述的。
图14提供了无线设备(例如,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、手持装置或其它类型的无线设备)的示例性说明。该无线设备可以包括一付或多付天线,后者被配置为与节点、宏节点、低功率节点(LPN)或者传输站(例如,基站(BS)、演进型节点B(eNB)、基带单元(BBU)、远程无线头端(RRH)、远程无线设备(RRE)、中继站(RS)、无线设备(RE)或者其它类型的无线广域网(WWAN)接入点)进行通信。该无线设备可以被配置为使用至少一种无线通信标准进行通信,其中所述至少一种无线通信标准包括3GPP LTE、WiMAX、高速分组接入(HSPA)、蓝牙和WiFi。该无线设备可以针对每一个无线通信标准,使用单独的天线进行通信,或者针对多个无线通信标准,使用共享的天线进行通信。该无线设备可以在无线局域网(WLAN)、无线个域网(WPAN)和/或WWAN中通信。
此外,图14还提供了可以用于无线设备的音频输入和输出的麦克风和 一个或多个扬声器的视图。显示屏可以是液晶显示器(LCD)屏,也可以是诸如有机发光二极管(OLED)显示器之类的其它类型的显示屏。该显示屏可以配置成触摸屏。该触摸屏可以使用电容式、电阻式或者其它类型的触摸屏技术。应用处理器和图形处理器可以耦合到内部存储器,以提供处理和显示能力。非易失性存储器端口还可以用于向用户提供数据输入/输出选项。此外,该非易失性存储器端口还可以用于扩展无线设备的存储器能力。键盘可以与无线设备集成在一起,也可以无线地连接到无线设备以提供另外的用户输入。此外,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部分,可以采用嵌入在有形介质之中的程序代码(即,指令)的形式,上述有形介质例如:软盘、CD-ROM、硬盘、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,其中当将该程序代码装载到诸如计算机之类的机器中,并由该机器进行执行时,该机器变成用于实现各种技术的装置。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括信号的计算机可读存储介质。在程序代码在可编程计算机上进行执行的情况下,计算设备可以包括处理器、处理器可读取的存储介质(其包括易失性和非易失性存储器和/或存储单元)、至少一个输入设备、以及至少一个输出设备。所述易失性和非易失性存储器和/或存储单元可以是RAM、EPROM、闪存驱动器、光盘驱动器、磁硬盘、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括收发机模块、计数器模块、处理模块和/或时钟模块或定时器模块。可以实现或者使用本申请所描述的各种技术的一个或多个程序,可以使用应用程序接口(API)、可重用控件等等。这些程序可以用高级过程语言或者面向对象编程语言来实现,以与计算机系统进行通信。然而,如果需要,也可以使用汇编语言或机器语言来实现这些程序。无论如何,该语言都可以是编译的或者解释的语言,并与硬件实现相结合。
应当理解的是,将说明书中所描述的功能单元里的多个标记成一些模块,以便更特定地强调它们的实现独立性。例如,可以将一个模块实现成包括定制VLSI电路或者门阵列的硬件电路,诸如逻辑芯片、晶体管或其它分离组件之类的现成半导体。此外,还可以在诸如现场可编程门阵列、可 编程阵列逻辑、可编程逻辑器件等等之类的可编程硬件器件中实现模块。
此外,还可以在由各种类型的处理器执行的软件中实现模块。例如,可执行代码的标识的模块可以包括一个或多个物理或逻辑计算机指令块,例如可以将其组织成对象、过程或函数。然而,标识的模块的可执行文件不需要物理地存储在一起,而是可以包括存储在不同位置的不同的指令,当将这些不同的指令逻辑地联合在一起时,可以包括上述模块并获得该模块的所述目的。
事实上,可执行代码的模块可以是单一指令,也可以是多条指令,甚至可以分布在若干不同的代码段上、分布在不同的程序之中、以及分布在一些存储器设备之中。类似地,本申请在模块之内识别和示出操作数据,并可以用任何适当的形式来体现,用任何适当类型的数据结构来组织。可以将操作数据收集成单一数据集,也可以分布在不同的位置上(其包括位于不同的存储设备上),可以至少部分地只作为系统或网络上的电子信号而存在。这些模块可以是无源的或有源的,其包括可操作以执行期望的功能的代理。
贯穿本说明书对于“一个示例”的引用,意味着结合该示例所描述的具体特征、结构或特性包括在本发明的至少一个实施例之中。因此,在遍及本说明书的各个地方出现的短语“在一个示例中”,并不必须全部指代相同的实施例。
如本文所使用的,为了方便起见,可以在公共列表中给出多个条目、结构元素、组成元素和/或材料。然而,这些列表应被解释为如同该列表中的每个成员均被单独识别为独立且唯一的成员。因此,此列表中的各个成员均不应仅仅基于它们出现在一个共同组中而没有指明对立方的情况下,而被解释为相同列表中的任何其它成员的事实上的等价物。此外,本发明的各个实施例和示例在这里可以指代其各个组件连同替代物。应当理解的是,这些实施例、示例和替代物不应被解释为彼此的事实上的等同物,而应被解释为本发明的单独的且独立的表示。
此外,在一个或多个实施例中,可以以任何适当的方式,对所描述的特征、结构或特性进行组合。在以下的描述中,为了提供本发明的实施例的一个透彻理解,提供了大量的特定细节(例如,布局的示例、距离、网 络示例等等)。但是,相关领域的普通技术人员应当认识到,可以在不使用这些特定细节中的一个或多个的基础上实现本发明,或者使用其它方法、组件、布局等等来实现本发明。在其它实例中,为了避免造成本发明的方面的不明显,没有详细地示出或描述公知的结构、材料或操作。
虽然前述的示例在一个或多个特定的应用中示出了本发明的原理,但对于本领域普通技术人员来说显而易见的是,可以在无需使用创造性劳动的基础上,并且在不脱离本发明的原理和概念的情况下,对实施方式的形式、用途和细节做出多种修改。因此,这些示例并不意味着对本发明进行限制,本发明仅受限于所附的权利要求。
Claims (23)
1.一种可操作用于为载波聚合CA提供条件混合自动重传请求-确认HARQ-ACK状态映射的用户设备UE,所述UE具有计算机电路,所述计算机电路被配置为:
接收子帧中的物理下行链路共享信道PDSCH传输;
确定何时存在状况1,其中,当在不具有针对HARQ绑定窗口的相应的物理下行链路控制信道PDCCH的情况下发送所述子帧时,发生所述状况1;
当用于辅小区SCell的辅HARQ绑定窗口大小与用于主小区PCell的主HARQ绑定窗口大小不同时,利用不连续发送DTX填充来生成针对所述HARQ绑定窗口的所述状况1的HARQ-ACK状态;以及
当所述辅HARQ绑定窗口大小与所述主HARQ绑定窗口大小不同时,利用包括DTX填充例外的DTX填充来生成针对所述HARQ绑定窗口的状况2的HARQ-ACK状态,其中,所述状况2包括所述状况1没有覆盖的状况,并且所述DTX填充例外生成针对每个填充的HARQ-ACK状态的唯一HARQ-ACK状态。
2.根据权利要求1所述的UE,其中所述计算机电路还被配置为:
使用HARQ-ACK复用查找表,基于HARQ绑定窗口大小M=max(Mp,Ms)来执行信道选择,其中Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小,其中,所述HARQ-ACK复用查找表包括:
当M=3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10.1.3.2-5,或者
当M=4时,所述TS 36.213中的表10.1.3.2-6;
基于所述HARQ-ACK复用查找表,生成星座图点b(0)和b(1)以及物理上行链路控制信道PUCCH资源以及
使用所述星座图点b(0)和b(1),在所述PUCCH资源中发送所述HARQ-ACK状态。
3.根据权利要求1所述的UE,其中,被配置为生成针对所述状况2的HARQ-ACK状态的计算机电路还被配置为:
当接收到具有相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’,或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
除了特殊情形之外,生成被设置为DTX的HARQ-ACK(j),其中,所述计算机电路还被配置为针对所述特殊情况,执行以下操作:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者
当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
4.根据权利要求1所述的UE,其中,被配置为生成针对所述状况2的HARQ-ACK状态的计算机电路还被配置为:
当接收到具有相应PDCCH的PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;
否则,除了特殊情形之外,生成被设置为DTX的HARQ-ACK(j),其中,所述计算机电路还被配置为针对所述特殊情况,执行以下操作:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;或者
当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
5.根据权利要求1所述的UE,其中,被配置为生成针对所述状况1的HARQ-ACK状态的计算机电路还被配置为:
针对所述PCell:
针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,对于不具有相应PDCCH的PDSCH传输,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(0);或者
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j’,或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j’时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
生成被设置为DTX的HARQ-ACK(j);以及
针对所述SCell:
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,M=max(Mp,Ms);否则
生成被设置为DTX的HARQ-ACK(j)。
6.根据权利要求1所述的UE,其中所述计算机电路还被配置为:
生成针对所述状况1的物理上行链路控制信道PUCCH资源分配(RA),其中:
针对所述PCell:
PUCCH资源值是根据更高层配置和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9.2-2来确定的;或者
用于在第三代合作伙伴计划(3GPP)长期演进LTE标准版本11PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源针对所述主小区上的PDSCH传输,其中所述PDSCH传输由对相应PDCCH的检测或者在绑定窗口的一个子帧中指示下行链路半持久调度SPS释放的PDCCH来指示,所述PDCCH中的下行链路分配索引DAI值等于‘1’,其中,PUCCH资源通过下式来表示:
针对于时分双工(TDD),
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其中,所述HARQ绑定窗口大小M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小,nCCE,m是用于在所述绑定窗口的子帧n-km中传输相应的PDCCH的第一CCE索引编号和相应的m,其中km是集合K中的最小值,使得UE在子帧n-km中检测PDCCH,
其中c是从{0,1,2,3}中选择的值,使得Nc≤nCCE,m<Nc+1,是以为单位表示的下行链路带宽配置,是表示成子载波的数量的频域中的资源块大小,是用于上行链路子帧中的PUCCH域的起始PUCCH信道索引,其通过各个UE的高层来配置;
针对所述SCell:
用于在所述LTE PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源针对所述辅小区上的PDSCH传输,其中所述PDSCH传输由在绑定窗口的一个子帧中,检测所述主小区上的相应PDCCH来指示,其中所述PDCCH中的下行链路分配索引DAI值等于‘1’或‘2’,其中,PUCCH资源通过下式来表示:
针对于时分双工(TDD),
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其中,对于所述DAI值等于‘1’的相应PDCCH而言,i=2,对于所述DAI值等于‘2’的相应PDCCH而言,i=3;或者
用于在所述LTE PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源和其由针对所述PDSCH传输的ACK/否定ACK NACK资源指示符ARI来指示,其中所述PDSCH传输通过检测子帧n-k中的相应PDCCH来指示,所述PUCCH资源是根据更高层配置和所述LTE TS 36.213表9.2-2来确定的,其中,所述ARI重新解释所述相应的PDCCH的下行链路控制信息(DCI)格式中的发射功率控制(TPC)字段。
7.根据权利要求1所述的UE,其中所述计算机电路还被配置为:
生成针对所述状况2的物理上行链路控制信道PUCCH资源分配(RA),其中:
针对所述PCell:
用于在针对于第三代合作伙伴计划(3GPP)长期演进LTE标准版本11PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源针对所述主小区上的PDSCH传输,其中所述PDSCH传输由对所述相应PDCCH的检测或者在绑定窗口的一个子帧中指示下行链路半持久调度SPS释放的PDCCH来指示,其中所述PDCCH中的下行链路分配索引DAI值等于‘1’,其中,PUCCH资源通过下式来表示:
针对于时分双工(TDD),
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其中,所述HARQ绑定窗口大小M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小,nCCE,m是用于在所述绑定窗口的子帧n-km中传输所述相应的PDCCH的第一CCE索引编号和相应的m,其中km是集合K中的最小值,使得UE在子帧n-km中检测PDCCH,
其中,c是从{0,1,2,3}中选择的值,使得Nc≤nCCE,m<Nc+1,是以为单位表示的下行链路带宽配置,是表示成子载波的数量的频域中的资源块大小,是用于上行链路子帧中的PUCCH域的起始PUCCH信道索引,其通过各个UE的高层来配置;
针对所述SCell:
用于在所述LTE PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源针对所述辅小区上的PDSCH传输,其中所述PDSCH传输由在绑定窗口的一个子帧中,检测所述主小区上的相应PDCCH来指示,其中所述PDCCH中的下行链路分配索引DAI值等于‘1’或‘2’,其中,PUCCH资源通过下式来表示:
针对于时分双工(TDD),
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<msub>
<mi>N</mi>
<mi>c</mi>
</msub>
<mo>+</mo>
<mi>m</mi>
<mo>&CenterDot;</mo>
<msub>
<mi>N</mi>
<mrow>
<mi>c</mi>
<mo>+</mo>
<mn>1</mn>
</mrow>
</msub>
<mo>+</mo>
<msub>
<mi>n</mi>
<mrow>
<mi>C</mi>
<mi>C</mi>
<mi>E</mi>
</mrow>
</msub>
<mo>+</mo>
<msubsup>
<mi>N</mi>
<mrow>
<mi>P</mi>
<mi>U</mi>
<mi>C</mi>
<mi>C</mi>
<mi>H</mi>
</mrow>
<mrow>
<mo>(</mo>
<mn>1</mn>
<mo>)</mo>
</mrow>
</msubsup>
</mrow>
其中,对于所述DAI值等于‘1’的相应PDCCH而言,i=2,对于所述DAI值等于‘2’的相应PDCCH而言,i=3;或者
用于在所述LTE PUCCH格式1b的子帧n中传输所述HARQ-ACK的PUCCH资源和其由针对所述PDSCH传输的ACK/否定ACK NACK资源指示符ARI来指示,其中所述PDSCH传输通过检测子帧n-k中的所述相应PDCCH来指示,所述PUCCH资源是根据更高层配置和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9.2-2来确定的,其中,所述ARI重新解释所述相应的PDCCH的下行链路控制信息(DCI)格式中的发射功率控制(TPC)字段。
8.根据权利要求1所述的UE,包括天线、触摸感应式显示屏、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。
9.一种用于在用户设备UE处的载波聚合CA的条件混合自动重传请求HARQ映射的方法,所述方法包括:
确定用于物理下行链路共享信道PDSCH传输的子帧何时被配置用于下行链路半持久调度SPS,其中,被配置用于下行链路SPS的所述子帧生成第一状况;
对于用于辅小区SCell的辅HARQ绑定窗口大小和用于主小区PCell的主HARQ绑定窗口大小,利用不连续发送DTX填充,生成针对HARQ绑定窗口的所述第一状况的HARQ-ACK状态;
利用包括DTX填充例外的DTX填充,生成针对所述HARQ绑定窗口的第二状况的HARQ-ACK状态,其中,所述第二状况包括所述第一状况没有覆盖的状况,并且所述DTX填充例外生成HARQ-ACK状态集合,以唯一地规定每个填充的HARQ-ACK状态。
10.根据权利要求9所述的方法,还包括:
使用HARQ-ACK复用查找表,基于HARQ绑定窗口大小M=max(Mp,Ms)来进行信道选择,其中Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小,其中所述HARQ-ACK复用查找表包括:
当M=3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10.1.3.2-5,或者
当M=4时,所述TS 36.213中的表10.1.3.2-6;
使用星座图点b(0)和b(1),在物理上行链路控制信道PUCCH资源中发送所述HARQ-ACK状态,其中,所述星座图点b(0)和b(1)以及所述PUCCH资源是基于所述HARQ-ACK复用查找表的。
11.根据权利要求9所述的方法,其中,生成针对所述第二状况的HARQ-ACK状态,还包括:
当接收到具有相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’或者接收到指示下行链路SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
当所述辅HARQ绑定窗口大小与所述主HARQ绑定窗口大小不相同时,除了表示所述DTX填充例外的特殊情形之外,生成具有DTX值的HARQ-ACK(j),其中所述特殊情形还包括:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,DTX,DTX,DTX”,
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”,
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”,
或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
12.根据权利要求9所述的方法,其中,生成针对所述第二状况的HARQ-ACK状态,还包括:
当接收到具有相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’或者接收到指示下行链路SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;
否则,当所述辅HARQ绑定窗口大小与所述主HARQ绑定窗口大小不相同时,除了表示所述DTX填充例外的特殊情形之外,生成具有DTX值的HARQ-ACK(j),其中所述特殊情形还包括:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=2的服务小区的“ACK,NACK”的状态,重新映射到“ACK,ACK,ACK,NACK/DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,DTX,DTX,DTX”;
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)},将用于具有min(Mp,Ms)=2的服务小区的“NACK,ACK”的状态,重新映射到“ACK,ACK,ACK”;
或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)},将用于具有min(Mp,Ms)=3的服务小区的“ACK,NACK,任意”的状态,重新映射到“ACK,DTX,DTX,DTX”。
13.根据权利要求9所述的方法,其中,生成针对所述第一状况的HARQ-ACK状态,还包括:
针对所述PCell:
针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,对于不具有相应PDCCH的PDSCH传输,生成与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(0),
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j’,或者接收到指示下行链路SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j’时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
生成被设置为DTX的HARQ-ACK(j);以及
针对所述SCell:
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’时,针对LTE标准版本11PUCCH格式1b,生成与ACK、NACK、或者DTX响应相对应的HARQ-ACK(j),对于0≤j≤M-1,其中M=max(Mp,Ms);否则
生成被设置为DTX的HARQ-ACK(j)。
14.根据权利要求9所述的方法,还包括:
接收用于所述主小区的上行链路-下行链路UL-DL配置和用于所述辅小区SCell的UL-DL配置,其中,用于所述PCell的所述UL-DL配置包含于在所述PCell上发送的系统信息块1(SIB1),用于所述SCell的所述UL-DL配置包含于在所述SCell上发送的系统信息块1(SIB1);以及
基于用于所述SCell的所述UL-DL配置来确定针对子帧的所述辅HARQ绑定窗口大小,基于用于所述PCell的所述UL-DL配置来确定针对所述子帧的所述主HARQ绑定窗口大小。
15.一种用于在用户设备UE处的载波聚合CA的条件混合自动重传请求HARQ映射的计算设备,所述计算设备包括:
用于确定用于物理下行链路共享信道PDSCH传输的子帧何时被配置用于下行链路半持久调度SPS的单元,其中,被配置用于下行链路SPS的所述子帧生成第一状况;
用于对于用于辅小区SCell的辅HARQ绑定窗口大小和用于主小区PCell的主HARQ绑定窗口大小,利用不连续发送DTX填充,生成针对HARQ绑定窗口的所述第一状况的HARQ-ACK状态的单元;
用于利用包括DTX填充例外的DTX填充,生成针对所述HARQ绑定窗口的第二状况的HARQ-ACK状态的单元,其中,所述第二状况包括所述第一状况没有覆盖的状况,并且所述DTX填充例外生成HARQ-ACK状态集合,以唯一地规定每个填充的HARQ-ACK状态。
16.一种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绑定的节点处的设备,包括:
收发机,其用于在主小区PCell中发送的子帧里的物理上行链路控制信道PUCCH资源中,接收针对所述PCell的物理下行链路共享信道PDSCH和用于辅小区SCell的PDSCH的星座图点;以及
处理器,用于:
基于用于所述子帧的主HARQ绑定窗口大小和用于子帧的辅HARQ绑定窗口大小来确定HARQ绑定窗口大小,其中所述主HARQ绑定窗口大小是基于用于主小区PCell的上行链路-下行链路UL-DL配置的,所述辅HARQ绑定窗口大小是基于用于辅小区SCell的上行链路-下行链路UL-DL配置的,
使用所述HARQ绑定窗口大小、星座图点和所述PUCCH资源,来确定用于所述子帧的HARQ-确认ACK响应,
确定何时存在状况1,其中,当在HARQ绑定窗口内不具有相应的物理下行链路控制信道PDCCH的情况下发送所述子帧时,发生所述状况1,
当用于辅小区SCell的辅HARQ绑定窗口大小与用于主小区PCell的主HARQ绑定窗口大小不同时,对具有不连续发送DTX填充的所述HARQ绑定窗口的所述状况1的HARQ-ACK状态进行解码,
当所述辅HARQ绑定窗口大小与所述主HARQ绑定窗口大小不同时,对具有包括DTX填充例外的DTX填充的所述HARQ绑定窗口的状况2的HARQ-ACK状态进行解码,其中,所述状况2包括所述状况1没有覆盖的状况,并且所述DTX填充例外对每个填充的HARQ-ACK状态的唯一HARQ-ACK状态进行解码。
17.根据权利要求16所述的设备,其中,被配置为对HARQ-ACK状态进行解码的所述处理器,还被配置为:
使用HARQ-ACK复用查找表,基于星座图点b(0)和b(1)、物理上行链路控制信道PUCCH资源和HARQ绑定窗口大小M=max(Mp,Ms),对信道进行解码,其中Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小,其中,所述HARQ-ACK复用查找表包括:
当M=3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10.1.3.2-5,或者
当M=4时,所述TS 36.213中的表10.1.3.2-6。
18.根据权利要求16所述的设备,其中,被配置为对所述状况1的HARQ-ACK状态进行解码的处理器,还被配置为:
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,对与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j)进行解码,对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
除了表示所述DTX填充例外的特殊情形之外,对被设置为DTX的HARQ-ACK(j)进行解码,其中,对于所述特殊情形,所述处理器还被配置为执行下面操作:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK”,
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,ACK,ACK,NACK/DTX”的状态重新映射到“NACK,ACK”,
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”的状态重新映射到“NACK,ACK”,
或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=3的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK,任意”。
19.根据权利要求16所述的设备,其中,被配置为对所述状况1的HARQ-ACK状态进行解码的处理器,还被配置为:
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’,或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j+1’时,针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,对与ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(j)进行解码,对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
除了表示所述DTX填充例外的特殊情形之外,对被设置为DTX的HARQ-ACK(j)进行解码,其中,对于所述特殊情形,所述处理器还被配置为:
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,ACK,ACK,NACK/DTX”的状态重新映射到“ACK,NACK”,
当min(Mp,Ms)=2并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“NACK,ACK”,
当min(Mp,Ms)=2并且max(Mp,Ms)=3时,针对具有min(Mp,Ms)=2的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2)}的“ACK,ACK,ACK”的状态重新映射到“NACK,ACK”,
或者当min(Mp,Ms)=3并且max(Mp,Ms)=4时,针对具有min(Mp,Ms)=3的服务小区,将有序系列{HARQ-ACK(0),HARQ-ACK(1),HARQ-ACK(2),HARQ-ACK(3)}的“ACK,DTX,DTX,DTX”的状态重新映射到“ACK,NACK,任意”。
20.根据权利要求16所述的设备,其中,被配置为对所述状况2的HARQ-ACK状态进行解码的处理器,还被配置为:
针对所述PCell:
针对第三代合作伙伴计划(3GPP)长期演进LTE标准版本11物理上行链路控制信道PUCCH格式1b,对与不具有所述相应的PDCCH的所述PDSCH传输的ACK、否定ACK NACK、或者不连续发送DTX响应相对应的HARQ-ACK(0)进行解码,或者
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j’,或者接收到指示下行链路半持久调度SPS释放的PDCCH,并且所述PDCCH中的DAI值等于‘j’时,对与LTE标准版本11PUCCH格式1b的ACK、NACK、或者DTX响应相对应的HARQ-ACK(j)进行解码,对于0≤j≤M-1,其中M=max(Mp,Ms),Mp是所述主HARQ绑定窗口大小,Ms是所述辅HARQ绑定窗口大小;否则
对被设置为DTX的HARQ-ACK(j)进行解码;
针对所述SCell:
当接收到具有所述相应PDCCH的所述PDSCH传输,并且所述PDCCH中的下行链路分配索引DAI值等于‘j+1’时,对与LTE标准版本11PUCCH格式1b的ACK、NACK、或者DTX响应相对应的HARQ-ACK(j)进行解码,对于0≤j≤M-1,其中M=max(Mp,Ms);否则
对被设置为DTX的HARQ-ACK(j)进行解码。
21.根据权利要求16所述的设备,其中,所述节点包括:基站(BS)、节点B(NB)、演进型节点B(eNB)、基带单元(BBU)、远程无线头端(RRH)、远程无线设备(RRE)、远程无线单元(RRU)或中央处理模块(CPM)。
22.一种计算机可读介质,其包含指令,当由处理器执行时,所述指令使得所述处理器执行如权利要求9到14中的任意一项所述的方法。
23.一种用于在用户设备UE处的载波聚合CA的条件混合自动重传请求HARQ映射的计算设备,包括:
处理器,以及
存储器,其包括指令,所述指令在由所述处理器执行时用于执行如权利要求9到14中的任意一项所述的方法。
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