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    • 1. 发明授权
    • Channel estimation for an OFDM communication system with inactive subbands
    • 具有无效子带的OFDM通信系统的信道估计
    • US08391413B2
    • 2013-03-05
    • US10741524
    • 2003-12-19
    • Ashok MantravadiAamod KhandekarEdward H. TeagueTamer Kadous
    • Ashok MantravadiAamod KhandekarEdward H. TeagueTamer Kadous
    • H03K9/00
    • H04L25/022H04L25/0218H04L25/0232
    • For channel estimation in a spectrally shaped wireless communication system, an initial frequency response estimate is obtained for a first set of P uniformly spaced subbands (1) based on pilot symbols received on a second set of subbands used for pilot transmission and (2) using extrapolation and/or interpolation, where P is a power of two. A channel impulse response estimate is obtained by performing a P-point IFFT on the initial frequency response estimate. A final frequency response estimate for N total subbands is derived by (1) setting low quality taps for the channel impulse response estimate to zero, (2) zero-padding the channel impulse response estimate to length N, and (3) performing an N-point FFT on the zero-padded channel impulse response estimate. The channel frequency/impulse response estimate may be filtered to obtain a higher quality channel estimate.
    • 对于频谱形状的无线通信系统中的信道估计,基于在用于导频传输的第二组子带上接收的导频符号,获得对于第一组P均匀间隔子带(1)的初始频率响应估计,以及(2)使用 外插和/或插值,其中P是2的幂。 通过对初始频率响应估计执行P点IFFT来获得信道脉冲响应估计。 通过(1)将信道脉冲响应估计的低质量抽头设置为零,(2)将信道脉冲响应估计零填充到长度N,得到N个总子带的最终频率响应估计,以及(3)执行N 点零点填充信道脉冲响应估计。 可以对信道频率/脉冲响应估计进行滤波以获得更高质量的信道估计。
    • 2. 发明授权
    • Varied transmission time intervals for wireless communication system
    • 无线通信系统的传输时间间隔
    • US08644292B2
    • 2014-02-04
    • US11260932
    • 2005-10-27
    • Alexei GorokhovEdward H. TeagueAamod Khandekar
    • Alexei GorokhovEdward H. TeagueAamod Khandekar
    • H04J3/24
    • H04W72/1231
    • Embodiments describe a varied transmission time interval in wireless communication system. According to some embodiments is a method for assigning a transmission time interval. The method can include measuring a channel condition and/or a data rate of packet communicated by at least one wireless device. Based in part on the data rate and/or channel condition information, a determination can be made whether to schedule a long transmission time interval or a short transmission time interval to the packet. A long transmission time interval can be scheduled if the channel condition is poor and/or there is a low data rate. A short transmission time interval can be scheduled if the channel condition is good and/or the data rate is high or fast. The method can be repeated for multiple wireless devices. Also included is an alternative interlacing structure that supports both long transmission time intervals and short transmission time intervals.
    • 实施例描述了无线通信系统中的变化的传输时间间隔。 根据一些实施例是用于分配传输时间间隔的方法。 该方法可以包括测量由至少一个无线设备传送的分组的信道条件和/或数据速率。 部分地基于数据速率和/或信道条件信息,可以确定是否为分组规划长的传输时间间隔或短的传输时间间隔。 如果信道条件差和/或数据速率低,则可以调度长传输时间间隔。 如果信道条件良好和/或数据速率高或快,则可以调度短传输时间间隔。 可以为多个无线设备重复该方法。 还包括支持长传输时间间隔和短传输时间间隔的替代交错结构。
    • 3. 发明申请
    • VARIED TRANSMISSION TIME INTERVALS FOR WIRELESS COMMUNICATION SYSTEM
    • 用于无线通信系统的变化传输时间间隔
    • US20090213750A1
    • 2009-08-27
    • US12389089
    • 2009-02-19
    • Alexei GorokhovEdward H. TeagueAamod Khandekar
    • Alexei GorokhovEdward H. TeagueAamod Khandekar
    • H04L12/26H04J3/00
    • H04W72/1231
    • Embodiments describe a varied transmission time interval in wireless communication system. According to some embodiments is a method for assigning a transmission time interval. The method can include measuring a channel condition and/or a data rate of packet communicated by at least one wireless device. Based in part on the data rate and/or channel condition information, a determination can be made whether to schedule a long transmission time interval or a short transmission time interval to the packet. A long transmission time interval can be scheduled if the channel condition is poor and/or there is a low data rate. A short transmission time interval can be scheduled if the channel condition is good and/or the data rate is high or fast. The method can be repeated for multiple wireless devices. Also included is an alternative interlacing structure that supports both long transmission time intervals and short transmission time intervals.
    • 实施例描述了无线通信系统中的变化的传输时间间隔。 根据一些实施例是用于分配传输时间间隔的方法。 该方法可以包括测量由至少一个无线设备传送的分组的信道条件和/或数据速率。 部分地基于数据速率和/或信道条件信息,可以确定是否为分组规划长的传输时间间隔或短的传输时间间隔。 如果信道条件差和/或数据速率低,则可以调度长传输时间间隔。 如果信道条件良好和/或数据速率高或快,则可以调度短传输时间间隔。 可以为多个无线设备重复该方法。 还包括支持长传输时间间隔和短传输时间间隔的替代交错结构。
    • 8. 发明申请
    • RESTRICTIVE REUSE FOR A WIRELESS COMMUNICATION SYSTEM
    • 无线通信系统的限制性重用
    • US20080253319A1
    • 2008-10-16
    • US12141557
    • 2008-06-18
    • Tingfang JiAvneesh AgrawalEdward H. Teague
    • Tingfang JiAvneesh AgrawalEdward H. Teague
    • H04Q7/00
    • H04W16/12H04W16/02H04W72/0453H04W72/082
    • For restrictive reuse, each cell (or each sector) is assigned (1) a set of usable subbands that may be allocated to users in the cell and (2) a set of forbidden subbands that is not used. The usable and forbidden sets for each cell are orthogonal to one other. The usable set for each cell also overlaps the forbidden set for each neighboring cell. A user u in a cell x may be allocated subbands in the usable set for that cell. If user u observes/causes high level of interference from/to a neighboring cell y, then user u may be allocated subbands from a “restricted” set containing subbands included in both the usable set for cell x and the forbidden set for cell y. User u would then observe/cause no interference from/to cell y. The subband restriction may be extended to avoid interference from multiple neighboring cells.
    • 对于限制性重用,分配每个小区(或每个扇区)(1)可以分配给小区中的用户的一组可用子带,以及(2)未使用的一组禁止子带。 每个单元的可用和禁止的集合彼此正交。 每个单元的可用集合也与每个相邻单元的禁止集重叠。 小区x中的用户u可以被分配给该小区的可用集合中的子带。 如果用户u观察到/来自相邻小区y的高水平的干扰,则可以从包含小区x的可用集合和小区y的禁止集合的包含子带的“限制”集合中分配用户u的子带。 用户u然后将观察/不造成来自/到小区y的干扰。 可以扩展子带限制以避免来自多个相邻小区的干扰。