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    • 2. 发明申请
    • Multi-carrier operation in data transmission systems
    • 数据传输系统中的多载波操作
    • US20060274712A1
    • 2006-12-07
    • US11398803
    • 2006-04-05
    • Durga MalladiSerge WilleneggerJuan Montojo
    • Durga MalladiSerge WilleneggerJuan Montojo
    • H04J3/00
    • H04B1/70735H04B1/7083H04L1/0026H04L1/0028H04L1/1671H04L5/0053H04L5/0064H04L5/14H04W72/0406H04W72/0413H04W72/085H04W74/0833
    • Multi-carrier point-to-multi-point CDMA system implementation reduces hardware changes in legacy single-carrier systems. The number of common downlink channels, such as timing/synchronization and paging channels, is reduced by designating an anchor carrier for transmitting these channels. Procedures for adding carriers and carrier acquisition are simplified through common carrier timing, signaling by the network to the user equipment (UE) of timing offsets and scrambling code selection, and other measures. Channel reuse is employed to minimize changes in asymmetric systems with different numbers of uplink and downlink carriers. Channel Quality Indicator (CQI) field is divided into multiple subfields to enable transmission of multiple CQIs and ACK/NACK indicators on one uplink carrier. Joint and separate scheduling schemes are shown for concurrent scheduling of a data stream transmission to a UE via multiple downlink carriers.
    • 多载波点对多点CDMA系统实现减少了传统单载波系统中的硬件变化。 通过指定用于发送这些信道的锚定载波来减少诸如定时/同步和寻呼信道的公共下行链路信道的数量。 通过公共载波定时,网络向用户设备(UE)发送定时偏移和扰码选择等措施,简化了载波和载波采集的处理步骤。 使用信道重用来最小化具有不同数量的上行链路和下行链路载波的不对称系统的变化。 信道质量指示符(CQI)字段被划分为多个子字段,以使得能够在一个上行链路载波上传输多个CQI和ACK / NACK指示符。 示出了联合和单独的调度方案,用于经由多个下行链路载波并行调度到UE的数据流传输。
    • 3. 发明申请
    • RATE MATCHING OF MESSAGES CONTAINING SYSTEM PARAMETERS
    • 包含系统参数的信息的速率匹配
    • US20090046672A1
    • 2009-02-19
    • US12191003
    • 2008-08-13
    • Durga MalladiJuan Montojo
    • Durga MalladiJuan Montojo
    • H04J3/00
    • H04W48/12H04L1/0067H04L1/0071H04L1/0072H04L5/0007
    • Systems, methodologies, and devices are described that facilitate transmitting a guard time parameter to a mobile device to facilitate rate matching data around a guard time region associated with a downlink subframe of a radio frame sequence. A base station transmits the guard time parameter via PBCH or DBCH to the mobile device. The base station rate matches data associated with PDSCH, comprising DBCH, around the guard time region, and transmits PDSCH to the mobile device. The mobile device identifies the guard time parameter and rate matches at least a portion of the information received via the PDSCH around the guard time region to facilitate enhanced reception of PDSCH. Optionally, a radio frame sequence can be structured so that a subframe immediately following a subframe containing DBCH is a downlink subframe, which can be known by the mobile device a priori or based on a downlink subframe parameter.
    • 描述了有助于向移动设备发送保护时间参数的系统,方法和设备,以促进与无线电帧序列的下行链路子帧相关联的保护时间区域周围的速率匹配数据。 基站通过PBCH或DBCH向移动设备发送保护时间参数。 基站速率在保护时间区域周围匹配与包括DBCH的PDSCH相关联的数据,并将PDSCH发送到移动设备。 移动设备识别保护时间参数和速率匹配在保护时间区域周围经由PDSCH接收的信息的至少一部分,以促进PDSCH的增强接收。 可选地,可以构造无线电帧序列,使得紧跟在包含DBCH的子帧之后的子帧是下行链路子帧,其可以由移动设备先验地或基于下行链路子帧参数而已知。
    • 5. 发明申请
    • Method and apparatus for packet communications in wireless systems
    • 无线系统中分组通信的方法和装置
    • US20070133479A1
    • 2007-06-14
    • US11499458
    • 2006-08-04
    • Juan MontojoDurga MalladiNathan TennyFrancesco GrilliAziz Gholmieh
    • Juan MontojoDurga MalladiNathan TennyFrancesco GrilliAziz Gholmieh
    • H04B7/216
    • H04W52/0216H04W72/1205Y02D70/1222Y02D70/1242Y02D70/1244Y02D70/1246Y02D70/1262Y02D70/23Y02D70/24Y02D70/25
    • Techniques for transmitting and receiving data in an efficient manner to potentially improve capacity for a wireless network and achieve power savings for a wireless device are described. The techniques utilize a Continuous Packet Connectivity (CPC) mode comprised of multiple (e.g., two) discontinuous transmission (DTX) modes and at least one (e.g., one) discontinuous reception (DRX) mode. Each DTX mode is associated with different enabled uplink subframes usable for transmission from the wireless device to the network. Each DRX mode is associated with different enabled downlink subframes usable by the network for transmission to the wireless device. The wireless device may send signaling and/or data on the enabled uplink subframes and may receive signaling and/or data on the enabled downlink subframes. The wireless device may power down during non-enabled subframes to conserve battery power. Mechanisms to quickly transition between the DTX and DRX modes are described.
    • 描述了以有效的方式发送和接收数据以潜在地提高无线网络的容量并实现无线设备的功率节省的技术。 该技术利用由多个(例如两个)不连续传输(DTX)模式和至少一个(例如一个)不连续接收(DRX)模式组成的连续分组连接(CPC)模式。 每个DTX模式与可用于从无线设备传输到网络的不同启用的上行链路子帧相关联。 每个DRX模式与由网络可用于传输到无线设备的不同启用的下行链路子帧相关联。 无线设备可以在启用的上行链路子帧上发送信令和/或数据,并且可以在启用的下行链路子帧上接收信令和/或数据。 无线设备可能在未启用的子帧中掉电以节省电池电量。 描述了在DTX和DRX模式之间快速转换的机制。
    • 6. 发明申请
    • SYNCHRONIZATION CODES FOR WIRELESS COMMUNICATION
    • 无线通信同步码
    • US20070133390A1
    • 2007-06-14
    • US11552424
    • 2006-10-24
    • Tao LuoDurga MalladiJuan Montojo
    • Tao LuoDurga MalladiJuan Montojo
    • H04J11/00H04B1/00
    • H04B1/7083H04J13/10H04L5/0016H04L5/0048H04L25/0226H04L25/0228H04L25/03866H04L27/2613H04L27/2655
    • Techniques for supporting synchronization in wireless communication are described. A Node B generates a primary synchronization code (PSC) having a length of L chips based on a first inner sequence and a first outer sequence, where L is less than 256. The Node B also generates a sequence of secondary synchronization codes (SSCs) based on a second inner sequence and a second outer sequence, with each SSC having a length of L chips. L may be equal to 64, and the PSC and SSCs may have lengths of 64 chips. The Node B sends the PSC in each slot of each frame and sends the sequence of SSCs in each frame, one SSC in each slot. A user equipment (UE) detects for the PSC and then detects for the sequence of SSCs using slot timing from the PSC detection. The UE may perform PSC detection using correlation results for the SSCs.
    • 描述了用于支持无线通信中的同步的技术。 节点B基于第一内部序列和第一外部序列生成具有长度为L个码片的主同步码(PSC),其中L小于256.节点B还生成次序同步码序列(SSCs) 基于第二内序列和第二外序列,其中每个SSC具有L个码片的长度。 L可以等于64,并且PSC和SSC可以具有64个码片的长度。 节点B在每个帧的每个时隙中发送PSC,并且在每个帧中发送SSC的序列,每个时隙中有一个SSC。 用户设备(UE)检测PSC,然后使用来自PSC检测的时隙定时检测SSC序列。 UE可以使用SSCs的相关结果来执行PSC检测。
    • 7. 发明授权
    • Partial discarding of cyclic prefix for efficient TDD or half-duplex FDD operation
    • 循环前缀的部分丢弃,用于高效的TDD或半双工FDD操作
    • US08681666B2
    • 2014-03-25
    • US12206624
    • 2008-09-08
    • Juan MontojoDurga MalladiShimman Patel
    • Juan MontojoDurga MalladiShimman Patel
    • H04L1/00H04J3/00H04L27/28
    • H04L27/2647H04L5/1484H04L27/2607
    • Techniques for performing partial cyclic prefix discarding are described. A user equipment (UE) may reduce the amount of cyclic prefix to discard for the last OFDM symbol prior to a switch from data reception to data transmission. This may allow the UE to complete data reception earlier and to switch to data transmission in a timely manner. In one design, the UE may receive a first OFDM symbol and discard a first amount of cyclic prefix for the first OFDM symbol. The UE may then receive a second OFDM symbol and discard a second amount of cyclic prefix for the second OFDM symbol. The second amount of cyclic prefix to discard may be determined based on the amount of time needed to switch from data reception to data transmission, which may be dependent on the amount of time advance between transmit timing and receive timing at the UE.
    • 描述用于执行部分循环前缀丢弃的技术。 在从数据接收切换到数据传输之前,用户设备(UE)可以减少循环前缀的数量以丢弃最后的OFDM符号。 这可以允许UE更早地完成数据接收并及时切换到数据传输。 在一种设计中,UE可以接收第一OFDM符号并且丢弃用于第一OFDM符号的第一数量的循环前缀。 然后,UE可以接收第二OFDM符号并且丢弃用于第二OFDM符号的第二数量的循环前缀。 可以基于从数据接收切换到数据传输所需的时间量来确定丢弃的第二量的循环前缀,其可以取决于在UE处的发送定时和接收定时之间的时间推进量。
    • 8. 发明申请
    • PARTIAL DISCARDING OF CYCLIC PREFIX FOR EFFICIENT TDD OR HALF-DUPLEX FDD OPERATION
    • 有效的TDD或半双工FDD操作的循环前缀的部分抛弃
    • US20090122731A1
    • 2009-05-14
    • US12206624
    • 2008-09-08
    • Juan MontojoDurga MalladiShimman Patel
    • Juan MontojoDurga MalladiShimman Patel
    • H04J11/00H04L5/14
    • H04L27/2647H04L5/1484H04L27/2607
    • Techniques for performing partial cyclic prefix discarding are described. A user equipment (UE) may reduce the amount of cyclic prefix to discard for the last OFDM symbol prior to a switch from data reception to data transmission. This may allow the UE to complete data reception earlier and to switch to data transmission in a timely manner. In one design, the UE may receive a first OFDM symbol and discard a first amount of cyclic prefix for the first OFDM symbol. The UE may then receive a second OFDM symbol and discard a second amount of cyclic prefix for the second OFDM symbol. The second amount of cyclic prefix to discard may be determined based on the amount of time needed to switch from data reception to data transmission, which may be dependent on the amount of time advance between transmit timing and receive timing at the UE.
    • 描述用于执行部分循环前缀丢弃的技术。 在从数据接收切换到数据传输之前,用户设备(UE)可以减少循环前缀的数量以丢弃最后的OFDM符号。 这可以允许UE更早地完成数据接收并及时切换到数据传输。 在一种设计中,UE可以接收第一OFDM符号并且丢弃用于第一OFDM符号的第一数量的循环前缀。 然后,UE可以接收第二OFDM符号并且丢弃用于第二OFDM符号的第二数量的循环前缀。 可以基于从数据接收切换到数据传输所需的时间量来确定丢弃的第二量的循环前缀,其可以取决于在UE处的发送定时和接收定时之间的时间推进量。
    • 10. 发明授权
    • Rate matching of messages containing system parameters
    • 对包含系统参数的消息进行速率匹配
    • US08811373B2
    • 2014-08-19
    • US12191003
    • 2008-08-13
    • Durga MalladiJuan Montojo
    • Durga MalladiJuan Montojo
    • H04J3/06
    • H04W48/12H04L1/0067H04L1/0071H04L1/0072H04L5/0007
    • Systems, methodologies, and devices are described that facilitate transmitting a guard time parameter to a mobile device to facilitate rate matching data around a guard time region associated with a downlink subframe of a radio frame sequence. A base station transmits the guard time parameter via PBCH or DBCH to the mobile device. The base station rate matches data associated with PDSCH, comprising DBCH, around the guard time region, and transmits PDSCH to the mobile device. The mobile device identifies the guard time parameter and rate matches at least a portion of the information received via the PDSCH around the guard time region to facilitate enhanced reception of PDSCH. Optionally, a radio frame sequence can be structured so that a subframe immediately following a subframe containing DBCH is a downlink subframe, which can be known by the mobile device a priori or based on a downlink subframe parameter.
    • 描述了有助于向移动设备发送保护时间参数的系统,方法和设备,以促进与无线电帧序列的下行链路子帧相关联的保护时间区域周围的速率匹配数据。 基站通过PBCH或DBCH向移动设备发送保护时间参数。 基站速率在保护时间区域周围匹配与包括DBCH的PDSCH相关联的数据,并将PDSCH发送到移动设备。 移动设备识别保护时间参数和速率匹配在保护时间区域周围经由PDSCH接收的信息的至少一部分,以促进PDSCH的增强接收。 可选地,可以构造无线电帧序列,使得紧跟在包含DBCH的子帧之后的子帧是下行链路子帧,其可以由移动设备先验地或基于下行链路子帧参数而已知。