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    • 1. 发明申请
    • Differential feedback within single user, multiple user, multiple access, and/or MIMO wireless communications
    • 单用户,多用户,多路访问和/或MIMO无线通信中的差分反馈
    • US20120087304A1
    • 2012-04-12
    • US13239582
    • 2011-09-22
    • Ron PoratMatthew James FischerEric J. Ojard
    • Ron PoratMatthew James FischerEric J. Ojard
    • H04W4/00
    • H04B7/0417H04B7/043H04B7/0456H04B7/0641H04B7/065H04B7/0658H04W88/02H04W88/08
    • Differential feedback within multiple user, multiple access, and/or MIMO wireless communications. After full feedback signal(s) have been received by a communication device (e.g., one that is to be performing beamforming for use in subsequent signal transmission), differential feedback signal(s) are received. Those differential feedback signal(s) are employed to update the full feedback signal(s) thereby generating updated/modified full feedback signals. Over time, such updated/modified full feedback signals may subsequently be further updated based upon later received inferential feedback signal(s). Such differential feedback signaling takes advantage of time and/or frequency correlation in a communication channel to provide for reduced feedback overhead by feeding back a difference or delta (Δ) relative to a previous value. For example, instead of providing full feedback signals in each respective/successive communication, feedback overhead is reduced by providing a difference or delta (Δ).
    • 多用户,多路访问和/或MIMO无线通信中的差分反馈。 在由通信设备(例如,正在执行波束成形以在随后的信号传输中使用)的全反馈信号之后,接收差分反馈信号。 这些差分反馈信号用于更新全反馈信号,从而产生更新/修改的全反馈信号。 随着时间的推移,随后可以基于稍后接收到的推理反馈信号来更新/修改的全反馈信号。 这种差分反馈信令利用通信信道中的时间和/或频率相关性来通过相对于先前值反馈差异或增量(&Dgr)来提供减少的反馈开销。 例如,代替在每个相应/连续的通信中提供全反馈信号,通过提供差值或增量(&Dgr)来减少反馈开销。
    • 2. 发明申请
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance
    • 同步UWB微微网用于SOP(同时操作微微网)性能
    • US20100290451A1
    • 2010-11-18
    • US12830436
    • 2010-07-05
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • H04B7/212H04J3/06H04B1/707
    • H04W56/0015H04B1/7163H04B1/7183H04J3/0652H04L7/0008H04W16/14H04W84/18H04W92/02H04W92/045
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance. A common backbone (either wired or wireless) is employed that provides a common CLK (clock signal) to all of the various PNCs (piconet coordinators) of various piconets that may operate within a sufficiently close region such that interference could undesirably occur. By providing a very reliable CLK signal from a common backbone to all of the PNCs of the various piconets operating within a substantially close proximity to one another, very precise synchronization may be ensured for all of the communications performed therein. The various piconets may then even operate using TDMA (Time Division Multiple Access)—whose performance would be substantially compromised without effective synchronization. In addition, combined TFC (time frequency code) and TDMA may also be employed to support the communications therein thereby providing even another degree of orthogonality that provided by TDMA alone.
    • 同步UWB微微网用于SOP(同时操作微微网)性能。 使用公共主干(有线或无线),其向可在足够接近的区域内操作的各种微微网的所有各种PNC(微微网协调器)提供公共的CLK(时钟信号),使得干扰可能不期望地发生。 通过向基本上彼此靠近地操作的各种微微网的所有PNC提供从公共主干提供非常可靠的CLK信号,可以确保其中执行的所有通信的非常精确的同步。 然后,各种微微网甚至可以使用TDMA(时分多址)进行操作 - 在没有有效同步的情况下,这些性能将被大大损害。 此外,也可以采用组合TFC(时间频码)和TDMA来支持其中的通信,从而提供由TDMA单独提供的甚至另一程度的正交性。
    • 3. 发明授权
    • Synchronized UWB piconets for simultaneously operating piconet performance
    • 同步UWB微微网同步运行微微网性能
    • US07751373B2
    • 2010-07-06
    • US12236200
    • 2008-09-23
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • H04J4/00
    • H04W56/0015H04B1/7163H04B1/7183H04J3/0652H04L7/0008H04W16/14H04W84/18H04W92/02H04W92/045
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance. A common backbone (either wired or wireless) is employed that provides a common CLK (clock signal) to all of the various PNCs (piconet coordinators) of various piconets that may operate within a sufficiently close region such that interference could undesirably occur. By providing a very reliable CLK signal from a common backbone to all of the PNCs of the various piconets operating within a substantially close proximity to one another, very precise synchronization may be ensured for all of the communications performed therein. The various piconets may then even operate using TDMA (Time Division Multiple Access)—whose performance would be substantially compromised without effective synchronization. In addition, combined TFC (time frequency code) and TDMA may also be employed to support the communications therein thereby providing even another degree of orthogonality that provided by TDMA alone.
    • 同步UWB微微网用于SOP(同时操作微微网)性能。 使用公共主干(有线或无线),其向可在足够接近的区域内操作的各种微微网的所有各种PNC(微微网协调器)提供公共的CLK(时钟信号),使得干扰可能不期望地发生。 通过向基本上彼此靠近地操作的各种微微网的所有PNC提供从公共主干提供非常可靠的CLK信号,可以确保其中执行的所有通信的非常精确的同步。 然后,各种微微网甚至可以使用TDMA(时分多址)进行操作 - 在没有有效同步的情况下,这些性能将被大大损害。 此外,也可以采用组合TFC(时间频码)和TDMA来支持其中的通信,从而提供由TDMA单独提供的甚至另一程度的正交性。
    • 4. 发明申请
    • MULTI-BAND SINGLE-CARRIER MODULATION
    • 多带单载波​​调制
    • US20090010367A1
    • 2009-01-08
    • US12039765
    • 2008-02-29
    • Eric J. Ojard
    • Eric J. Ojard
    • H04L1/00H04B1/10
    • H04B1/719H04B1/71637H04L27/2601
    • Multi-band single-carrier modulation. A novel approach is presented by which interference compensation may be performed for signals received by a piconet operable device. The piconet operable device may be implemented within a region that includes two or more SOPs (Simultaneously Operating Piconets). Estimation of the level and location of interference is performed and the input to a decoder (within the piconet operable device) is selectively weighted to ensure that the effect of any existent interference within the signal received by the piconet operable device is minimized. Different interference levels are dealt with differently. For one example, portions of the received signal having undergone a large amount of interference may be simply treated as erasures with respect to the input the decoder. For another example, portions of the received signal having undergone some smaller degree of interference, but some interference nonetheless, may be de-weighted before being provided to the decoder.
    • 多波段单载波调制。 提出了一种新颖的方法,通过该方法可以对由微微网可操作装置接收的信号执行干扰补偿。 微微网可操作设备可以在包括两个或更多个SOP(同时操作微微网)的区域内实现。 执行干扰的级别和位置的估计,并且选择性地加权到解码器(在微微网可操作装置内)的输入,以确保由微微网可操作装置接收的信号内的任何存在的干扰的影响被最小化。 不同的干扰水平被不同地处理。 对于一个示例,已经经历大量干扰的接收信号的部分可以被简单地视为相对于输入解码器的擦除。 对于另一示例,接收信号的部分已经经历了一些较小程度的干扰,但是一些干扰在被提供给解码器之前可以被去加权。
    • 6. 发明授权
    • Differential feedback within single user, multiple user, multiple access, and/or MIMO wireless communications
    • 单用户,多用户,多路访问和/或MIMO无线通信中的差分反馈
    • US09118364B2
    • 2015-08-25
    • US13239582
    • 2011-09-22
    • Ron PoratMatthew James FischerEric J. Ojard
    • Ron PoratMatthew James FischerEric J. Ojard
    • H04W4/00H04B7/04H04B7/06
    • H04B7/0417H04B7/043H04B7/0456H04B7/0641H04B7/065H04B7/0658H04W88/02H04W88/08
    • Differential feedback within multiple user, multiple access, and/or MIMO wireless communications. After full feedback signal(s) have been received by a communication device (e.g., one that is to be performing beamforming for use in subsequent signal transmission), differential feedback signal(s) are received. Those differential feedback signal(s) are employed to update the full feedback signal(s) thereby generating updated/modified full feedback signals. Over time, such updated/modified full feedback signals may subsequently be further updated based upon later received inferential feedback signal(s). Such differential feedback signaling takes advantage of time and/or frequency correlation in a communication channel to provide for reduced feedback overhead by feeding back a difference or delta (Δ) relative to a previous value. For example, instead of providing full feedback signals in each respective/successive communication, feedback overhead is reduced by providing a difference or delta (Δ).
    • 多用户,多路访问和/或MIMO无线通信中的差分反馈。 在由通信设备(例如,正在执行波束成形以在随后的信号传输中使用)的全反馈信号之后,接收差分反馈信号。 这些差分反馈信号用于更新全反馈信号,从而产生更新/修改的全反馈信号。 随着时间的推移,随后可以基于稍后接收到的推理反馈信号来更新/修改的全反馈信号。 这种差分反馈信令利用通信信道中的时间和/或频率相关性来通过相对于先前值反馈差异或增量(&Dgr)来提供减少的反馈开销。 例如,代替在每个相应/连续的通信中提供全反馈信号,通过提供差值或增量(&Dgr)来减少反馈开销。
    • 7. 发明授权
    • System and method for canceling interference in a communication system
    • 消除通信系统干扰的系统和方法
    • US08279987B2
    • 2012-10-02
    • US13026608
    • 2011-02-14
    • Thomas J. KolzeBruce J. CurrivanJonathan S. MinEric J. OjardJames Chi ThiDaniel H. Howard
    • Thomas J. KolzeBruce J. CurrivanJonathan S. MinEric J. OjardJames Chi ThiDaniel H. Howard
    • H04B1/10
    • H04B1/1036H04B1/1027H04B1/123H04L1/0001H04L25/03006
    • A filter settings generation operation includes sampling a communication channel to produce a sampled signal. The sampled signal is spectrally characterized across a frequency band of interest to produce a spectral characterization of the sampled signal. This spectral characterization may not include a signal of interest. The spectral characterization is then modified to produce a modified spectral characterization. Filter settings are then generated based upon the modified spectral characterization. Finally, the communication channel is filtered using the filter settings when the signal of interest is present on the communication channel. In modifying the spectral characterization, pluralities of spectral characteristics of the spectral characterization are independently modified to produce the modified spectral characterization. Modifications to the spectral characterization may be performed in the frequency domain and/or the time domain. One particular spectral modification that is performed is raising of the noise floor of the spectral characterization to meet a budgeted signal-to-noise ratio. Other spectral modifications include modifying spectral components corresponding to an expected interfering signal. In modifying these spectral characterizations, spectral components corresponding to a plurality of expected interfering signals may be modified.
    • 滤波器设置生成操作包括对通信信道进行采样以产生采样信号。 采样信号在感兴趣的频带上进行频谱表征,以产生采样信号的频谱表征。 该光谱特性可能不包括感兴趣的信号。 然后修改光谱表征以产生修改的光谱表征。 然后基于修改的光谱表征生成滤波器设置。 最后,当感兴趣的信号存在于通信信道上时,使用滤波器设置对通信信道进行滤波。 在修改光谱表征时,光谱特性的多个光谱特征被独立地修改以产生修改的光谱表征。 频谱表征的修改可以在频域和/或时域中执行。 执行的一个特定频谱修改是提高频谱表征的本底噪声以满足预算的信噪比。 其他频谱修改包括修改对应于预期干扰信号的频谱分量。 在修改这些频谱表征时,可以修改对应于多个预期干扰信号的频谱分量。
    • 8. 发明申请
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance
    • 同步UWB微微网用于SOP(同时操作微微网)性能
    • US20120218980A1
    • 2012-08-30
    • US13456678
    • 2012-04-26
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • H04W56/00H04W84/12H04J3/06
    • H04W56/0015H04B1/7163H04B1/7183H04J3/0652H04L7/0008H04W16/14H04W84/18H04W92/02H04W92/045
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance. A common backbone (either wired or wireless) is employed that provides a common CLK (clock signal) to all of the various PNCs (piconet coordinators) of various piconets that may operate within a sufficiently close region such that interference could undesirably occur. By providing a very reliable CLK signal from a common backbone to all of the PNCs of the various piconets operating within a substantially close proximity to one another, very precise synchronization may be ensured for all of the communications performed therein. The various piconets may then even operate using TDMA (Time Division Multiple Access)—whose performance would be substantially compromised without effective synchronization. In addition, combined TFC (time frequency code) and TDMA may also be employed to support the communications therein thereby providing even another degree of orthogonality that provided by TDMA alone.
    • 同步UWB微微网用于SOP(同时操作微微网)性能。 使用公共主干(有线或无线),其向可在足够接近的区域内操作的各种微微网的所有各种PNC(微微网协调器)提供公共的CLK(时钟信号),使得干扰可能不期望地发生。 通过向基本上彼此靠近地操作的各种微微网的所有PNC提供从公共主干提供非常可靠的CLK信号,可以确保其中执行的所有通信的非常精确的同步。 然后,各种微微网甚至可以使用TDMA(时分多址)进行操作 - 在没有有效同步的情况下,这些性能将被大大损害。 此外,也可以采用组合TFC(时间频码)和TDMA来支持其中的通信,从而提供由TDMA单独提供的甚至另一程度的正交性。
    • 9. 发明授权
    • Synchronized UWB piconets for SOP (simultaneously operating piconet) performance
    • 同步UWB微微网用于SOP(同时操作微微网)性能
    • US08170484B2
    • 2012-05-01
    • US12830436
    • 2010-07-05
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • Jeyhan KaraoguzEric J. OjardEdward H. Frank
    • H04J4/00
    • H04W56/0015H04B1/7163H04B1/7183H04J3/0652H04L7/0008H04W16/14H04W84/18H04W92/02H04W92/045
    • Synchronized UWB piconets for SOP (Simultaneously Operating Piconet) performance. A common backbone (either wired or wireless) is employed that provides a common CLK (clock signal) to all of the various PNCs (piconet coordinators) of various piconets that may operate within a sufficiently close region such that interference could undesirably occur. By providing a very reliable CLK signal from a common backbone to all of the PNCs of the various piconets operating within a substantially close proximity to one another, very precise synchronization may be ensured for all of the communications performed therein. The various piconets may then even operate using TDMA (Time Division Multiple Access)—whose performance would be substantially compromised without effective synchronization. In addition, combined TFC (time frequency code) and TDMA may also be employed to support the communications therein thereby providing even another degree of orthogonality that provided by TDMA alone.
    • 同步UWB微微网用于SOP(同时操作微微网)性能。 使用公共主干(有线或无线),其向可在足够接近的区域内操作的各种微微网的所有各种PNC(微微网协调器)提供公共的CLK(时钟信号),使得干扰可能不期望地发生。 通过向基本上彼此靠近地操作的各种微微网的所有PNC提供从公共主干提供非常可靠的CLK信号,可以确保其中执行的所有通信的非常精确的同步。 然后,各种微微网甚至可以使用TDMA(时分多址)进行操作 - 在没有有效同步的情况下,这些性能将被大大损害。 此外,也可以采用组合TFC(时间频码)和TDMA来支持其中的通信,从而提供由TDMA单独提供的甚至另一程度的正交性。