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    • 23. 发明授权
    • Power-aware link adaptation with variable bandwidth allocation
    • 具有可变带宽分配的功率感知链路自适应
    • US08103302B2
    • 2012-01-24
    • US11853068
    • 2007-09-11
    • Jacobus Cornelis HaartsenBengt LindoffAnders Wallén
    • Jacobus Cornelis HaartsenBengt LindoffAnders Wallén
    • H04B7/00
    • H04W72/085H04W52/0232H04W52/0245H04W72/0406H04W72/087Y02D70/1262Y02D70/22
    • Methods and apparatus are disclosed for reducing mobile terminal energy consumption during data transmissions by allocating resources and adapting link parameters in an energy-aware manner, based on throughput requirements and prevailing signal propagation conditions. A combination of transmit parameters designed to minimize the total energy consumed during data transmission is selected based on a throughput requirement and a path loss associated with a data transmission by a mobile terminal. The combination of transmit parameters includes a bandwidth allocation and may also include a modulation format, coding scheme, and transmit power setting, as well as parameters relating to multiple-antenna transmit schemes. The bandwidth allocation may correspond to a number of sub-carriers of an OFDM signal, or may correspond to a number of resource blocks in an SC-FDMA signal.
    • 公开了用于通过基于吞吐量要求和主要信号传播条件以能量感知方式分配资源和调整链路参数来减少数据传输期间的移动终端能量消耗的方法和装置。 基于吞吐量要求和与移动终端的数据传输相关联的路径损耗来选择被设计为最小化在数据传输期间消耗的总能量的发射参数的组合。 发射参数的组合包括带宽分配,并且还可以包括调制格式,编码方案和发射功率设置,以及与多天线发射方案有关的参数。 带宽分配可以对应于OFDM信号的子载波的数量,或者可以对应于SC-FDMA信号中的资源块的数量。
    • 24. 发明授权
    • Methods of calibrating a clock using multiple clock periods with a single counter and related devices and methods
    • 使用单个计数器和相关设备和方法使用多个时钟周期校准时钟的方法
    • US07881895B2
    • 2011-02-01
    • US12127336
    • 2008-05-27
    • Jacobus Cornelis HaartsenAalbert Stek
    • Jacobus Cornelis HaartsenAalbert Stek
    • G01D18/00
    • H03L7/00H03L1/00H04W52/029Y02D70/1222Y02D70/1242Y02D70/1244Y02D70/1262Y02D70/142Y02D70/144
    • A method of calibrating a first clock signal using a second clock signal and a plurality of calibration periods may include generating incremented counter values at a counter responsive to edges of the second clock signal. For at least two of the plurality of calibration periods, an initial incremented counter value from the counter may be stored in memory at an initial edge of the first clock signal for the respective calibration period, a final incremented counter value may be stored in memory at a final edge of the clock signal for the respective calibration period, and the at least two of the plurality of calibration periods may be overlapping with different initial and final edges of the first clock signal. For each of the plurality of calibration periods, a number of edges of the second clock signal occurring during the respective calibration period may be determined using the initial and final incremented counter values stored in memory. A relationship between the first and second clock signals may be determined using a sum of a number of edges of the second clock signal occurring during each of the plurality of calibration periods and using a sum of a number of first clock signal cycles occurring during each of the plurality of calibration periods.
    • 使用第二时钟信号和多个校准周期来校准第一时钟信号的方法可以包括响应于第二时钟信号的边缘在计数器处产生递增的计数器值。 对于多个校准周期中的至少两个,来自计数器的初始递增的计数器值可以在相应的校准周期的第一时钟信号的初始边缘存储在存储器中,最后增加的计数器值可以存储在存储器中 用于相应校准周期的时钟信号的最后边缘,并且多个校准周期中的至少两个可以与第一时钟信号的不同初始和最后边缘重叠。 对于多个校准周期中的每一个,可以使用存储在存储器中的初始和最后递增的计数器值来确定在各个校准周期期间发生的第二时钟信号的边缘数量。 第一和第二时钟信号之间的关系可以使用在多个校准周期中的每一个期间发生的第二时钟信号的边缘数之和并且使用在每个校准周期期间发生的多个第一时钟信号周期的和 多个校准周期。
    • 26. 发明申请
    • APPARATUS AND METHOD FOR INTERFERENCE MITIGATION
    • 干扰减缓的装置和方法
    • US20100158174A1
    • 2010-06-24
    • US12694764
    • 2010-01-27
    • Jacobus Cornelis Haartsen
    • Jacobus Cornelis Haartsen
    • H04B1/10
    • H04B1/719H04B1/1036H04B1/525H04B1/7101H04B1/71635H04B1/71637H04B2201/709709
    • An apparatus in a wideband radio transceiver for mitigating interference between a wideband radio operating in a wide frequency band and a narrowband radio operating in a narrow frequency band within the wide frequency band. The effects of transmissions by the wideband radio on the narrowband radio are reduced by creating by the wideband radio, a transmitter notch of decreased transmit power centered at a frequency in the wide frequency band that is fixed in relation to the wideband carrier frequency. The wideband carrier frequency is then adjusted so that the transmitter notch is aligned with the second radio's narrow frequency band. The effects of transmissions by the narrowband radio on the wideband radio are reduced by creating by the wideband radio, a fixed receiver notch of decreased receiver gain in the wideband receiver, and aligning the narrowband signal with the fixed receiver notch.
    • 一种宽带无线电收发机中的装置,用于减轻在宽频带内工作的宽带无线电和在宽频带内在窄频带内工作的窄带无线电之间的干扰。 宽带无线电对窄带无线电的传输的影响通过由宽带无线电产生以相对于宽带载波频率固定的宽频带中的频率为中心的发射功率减小的发射机陷波来减少。 然后调整宽带载波频率,使得发射机陷波与第二无线电的窄频带对准。 窄带无线电对宽带无线电传输的影响通过宽带无线电产生,宽带接收机中接收机增益降低的固定接收机陷波,以及窄带信号与固定接收机陷波器的对准来减少。
    • 27. 发明申请
    • CONTROLLING ATTENUATION OF AN ANTENNA SIGNAL IN A COMMUNICATION TERMINAL TO REESTABLISH A LOST COMMUNICATION LINK
    • 控制通信终端中天线信号的衰减,以消除丢失的通信链路
    • US20100069014A1
    • 2010-03-18
    • US12261588
    • 2008-10-30
    • Jacobus Cornelis HaartsenFranciscus Nicolaas Martinus Hooijschuur
    • Jacobus Cornelis HaartsenFranciscus Nicolaas Martinus Hooijschuur
    • H04B10/08
    • H04W52/44H04B1/109H04W52/48
    • Some embodiments of the present invention are directed to methods of operating communication terminals. A wireless communication link is established between first and second communication terminals and communication signals are exchanged therebetween. The first communication terminal is controlled to continue over time to increase a power level at which it transmits communication signals to the second communication terminal in response to detecting loss of the wireless communication link and while continuing attempts to reestablish the communication link with the second communication terminal. The first communication terminal is further controlled, in response to detecting loss of the communication link, to increase a level of attenuation that it applies to communication signals from the second communication terminal, and to then more gradually decrease the level of attenuation over time in response to continuing attempts to reestablish the communication link with the second communication terminal.
    • 本发明的一些实施例涉及操作通信终端的方法。 在第一和第二通信终端之间建立无线通信链路,并且在它们之间交换通信信号。 控制第一通信终端以随着时间的推移继续,以响应于检测到无线通信链路的丢失而增加向第二通信终端发送通信信号的功率电平,并且在继续尝试重新建立与第二通信终端的通信链路时 。 响应于检测到通信链路的丢失而进一步控制第一通信终端,以增加其应用于来自第二通信终端的通信信号的衰减水平,然后随着时间的推移逐渐降低响应中的衰减水平 继续尝试重新建立与第二通信终端的通信链路。
    • 29. 发明授权
    • Multiple access interference cancellation
    • 多路访问干扰消除
    • US07650116B2
    • 2010-01-19
    • US10595564
    • 2003-11-28
    • Jacobus Cornelis Haartsen
    • Jacobus Cornelis Haartsen
    • H04B1/00H04B15/00
    • H04B7/086H04B1/71072H04B7/0857
    • Method and device for interference cancellation. A radio access unit comprises a plurality of directionally separated antenna elements (41k, K=1, 2, . . . , L) for receiving signals transmitted by a plurality of remote units. From signals received by each of the antenna elements (41k) first weighing factors (g(1)k) are determined (49), for optimally selecting signal of a first remote unit (521). A first radio signal (s1) of the first communication unit (521) is provided by weighing (44) the received signals using the first weighing factors (g(1)k). For a further radio communication unit (52i) further weighing factors (g(i)k) are determined. A corrected further radio signal (s′i) is provided each time by subtracting (46) from the further radio signal (si), previously obtained corrected radio signal (S′i-1, S′i-1, . . . ) weighed by the further weighing factors (g(i)k), till a stop criterium has been satisfied.
    • 用于干扰消除的方法和装置 无线电接入单元包括用于接收由多个远程单元发送的信号的多个定向分离的天线元件(41k,k = 1,2,...,L)。 确定(49)由每个天线元件(41k)接收的第一称重因子(g(1)k)的信号,以便最佳地选择第一远程单元(521)的信号。 第一通信单元(521)的第一无线电信号(s1)通过使用第一称重因子(g(1)k)称重(44)接收信号来提供。 对于进一步称重因子(g(i)k)的无线电通信单元(52i)。 每次通过从另外的无线电信号(si)减去(46)先前获得的经校正的无线电信号(S'i-1,S'i-1,...)来提供校正的另外的无线电信号(s'i) 通过进一步的称重因子(g(i)k)加权,直到停止标准得到满足。