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    • 61. 发明申请
    • Frequency Hopping In An SC-FDMA Environment
    • SC-FDMA环境中的跳频
    • US20080089286A1
    • 2008-04-17
    • US11775198
    • 2007-07-09
    • Durga MalladiByoung-Hoon Kim
    • Durga MalladiByoung-Hoon Kim
    • H04L5/22
    • H04L27/2602H04B1/7143H04B7/2615
    • Facilitating frequency hopping for single carrier, frequency division multiple access (SC-FDMA) transmission is described herein. By way of example, user data transmitted within a transmission allocation unit can be frequency shifted with respect to time based slots of the allocation unit. As a result, frequency hopping can be accomplished while preserving single carrier constraints and a low peak to average power ratio (PAPR). Furthermore, various frequency shifted mechanisms are disclosed to accomplish preservation of single carrier restraints. For example, a scheduler can select between cyclic frequency shifting, transposed frequency shifting, and multiplexing of frequency selective scheduled and frequency hopped data based on an audit of scheduled data for the transmission allocation unit. As a result, the reduction in interference achieved through frequency hopping can be combined with the low PAPR for various data allocation configurations.
    • 本文描述了单载波,频分多址(SC-FDMA)传输的便利跳频。 作为示例,在发送分配单元内发送的用户数据可以相对于分配单元的基于时间的时隙进行频移。 因此,可以在保持单载波约束和低峰均功率比(PAPR)的同时实现跳频。 此外,公开了各种频移机构来实现单载波约束的保存。 例如,调度器可以基于用于传输分配单元的调度数据的审计,在循环频移,转置频移和频率选择性调度和跳频数据的多路复用之间进行选择。 结果,通过跳频实现的干扰的减少可以与用于各种数据分配配置的低PAPR组合。
    • 62. 发明申请
    • Feedback of channel state information for MIMO and subband scheduling in a wireless communication system
    • 在无线通信系统中用于MIMO和子带调度的信道状态信息的反馈
    • US20070242770A1
    • 2007-10-18
    • US11686952
    • 2007-03-15
    • Byoung-Hoon KimDurga MalladiJelena Damnjanovic
    • Byoung-Hoon KimDurga MalladiJelena Damnjanovic
    • H04L1/02
    • H04L1/0026H04B7/0632H04B7/0641H04B7/066H04L1/0029H04L1/06H04L27/2608
    • Techniques for efficiently sending channel state information using differential encoding are described. Differential encoding may be performed across space, across frequency; across space and frequency, across space, frequency and time, or across some other combination of dimensions. In one design, spatial state information may be determined for multiple spatial channels on multiple subbands. The spatial channels may correspond to different antennas, different precoding vectors, etc. Channel quality indicator (CQI) values may be obtained for the multiple spatial channels on the multiple subbands. The CQI values may be differentially encoded across the multiple spatial channels and the multiple subbands to obtain differential CQI information. In another design, CQI values may be obtained for multiple spatial channels on the multiple subbands in multiple time intervals and may be differentially encoded across space, frequency and time. The differential CQI information and the spatial state information may be sent as feedback.
    • 描述使用差分编码有效地发送信道状态信息的技术。 差分编码可以跨越空间跨越频率执行; 跨越空间和频率,跨越空间,频率和时间,或跨越其他尺寸的组合。 在一种设计中,可以为多个子带上的多个空间信道确定空间状态信息。 空间信道可以对应于不同的天线,不同的预编码向量等。可以为多个子带上的多个空间信道获得信道质量指示符(CQI)值。 CQI值可以在多个空间信道和多个子带之间进行差分编码,以获得差分CQI信息。 在另一种设计中,可以在多个时间间隔中对多个子带上的多个空间信道获得CQI值,并且可以在空间,频率和时间之间进行差分编码。 差分CQI信息和空间状态信息可以作为反馈发送。
    • 65. 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。
    • 67. 发明申请
    • METHOD AND APPARATUS FOR SENDING DATA AND CONTROL INFORMATION IN A WIRELESS COMMUNICATION SYSTEM
    • 用于在无线通信系统中发送数据和控制信息的方法和装置
    • US20080090528A1
    • 2008-04-17
    • US11773943
    • 2007-07-05
    • Durga Malladi
    • Durga Malladi
    • H04B1/00H04B7/00
    • H04W72/042H04L1/0004H04L1/001H04L1/0026H04L1/0057H04L1/0073H04L1/1671H04L1/1887H04L5/0007H04L5/0053H04L27/0008H04L27/2613
    • Techniques for sending control information in a communication system are described. In an aspect, control information may be sent in a first frequency location (e.g., a first set of subcarriers) if data is not being sent and in a second frequency location (e.g., a second set of subcarriers) if data is being sent. In another aspect, control information may be processed in accordance with a first processing scheme if data is not being sent and with a second processing scheme if data is being sent. In one design of the first scheme, a CAZAC sequence may be modulated with each modulation symbol for control information to obtain a corresponding modulated CAZAC sequence, which may be sent on the first set of subcarriers. In one design of the second scheme, modulation symbols for control information may be combined with modulation symbols for data, transformed to frequency domain, and mapped to the second set of subcarriers.
    • 描述用于在通信系统中发送控制信息的技术。 在一方面,如果数据未被发送,则控制信息可以在第一频率位置(例如,第一副载波集合)中发送,并且如果正在发送数据,则在第二频率位置(例如,第二子载波集合)中发送控制信息。 在另一方面,如果数据未被发送,并且如果正在发送数据,则可以根据第一处理方案来处理控制信息。 在第一方案的一种设计中,可以用每个调制符号调制CAZAC序列用于控制信息,以获得可以在第一组子载波上发送的对应的调制CAZAC序列。 在第二方案的一种设计中,用于控制信息的调制符号可以与用于数据的调制符号组合,变换到频域,并映射到第二组副载波。
    • 69. 发明申请
    • Selection of a thresholding parameter for channel estimation
    • 选择信道估计的阈值参数
    • US20060227748A1
    • 2006-10-12
    • US11351683
    • 2006-02-10
    • Anastasios StamoulisDurga Malladi
    • Anastasios StamoulisDurga Malladi
    • H04B7/212H04Q7/00
    • H04L27/2647H04L25/0204H04L25/0212H04L25/0228H04L25/025H04L25/0256H04L25/0258H04L27/261
    • Techniques for deriving a high quality channel estimate are described. A first channel impulse response estimate (CIRE) having multiple channel taps is derived, e.g., by filtering initial CIREs obtained from a received pilot. A threshold parameter value is selected based on at least one criterion, which may relate to channel profile, operating SNR, number of channel taps, and so on. A second CIRE is derived by zeroing out selected ones of the channel taps in the first CIRE based on the threshold parameter value. The average energy of the channel taps may be determined, a threshold may be derived based on the average energy and the threshold parameter value, and channel taps with energy less than the threshold may be zeroed out. A memory may store threshold parameter values for different operating scenarios, and a stored value may be selected for use based on the current operating scenario.
    • 描述了用于导出高质量信道估计的技术。 具有多信道抽头的第一信道脉冲响应估计(CIRE)被导出,例如通过对从接收到的导频获得的初始CIRE进行滤波。 基于至少一个标准来选择阈值参数值,其可以涉及信道简档,操作SNR,信道抽头数等。 基于阈值参数值,通过对第一CIRE中的选通信道抽头进行归零而得到第二CIRE。 可以确定通道抽头的平均能量,可以基于平均能量和阈值参数值导出阈值,并且可以将能量小于阈值的通道抽头清零。 存储器可以存储不同操作场景的阈值参数值,并且可以基于当前操作场景选择使用存储的值。