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    • 1. 发明授权
    • Method and apparatus for correcting for systematic errors in timing pattern generation
    • 用于校正定时模式生成中的系统误差的方法和装置
    • US07136243B2
    • 2006-11-14
    • US11015130
    • 2004-12-17
    • Timothy J. ChainerAnthony P. PrainoMark D. SchultzBucknell C. WebbEdward J. Yarmchuk
    • Timothy J. ChainerAnthony P. PrainoMark D. SchultzBucknell C. WebbEdward J. Yarmchuk
    • G11B5/09G11B21/02
    • G11B5/59633G11B5/5565G11B21/106
    • Improvements in placement of timing patterns in self-servowriting include correcting for systematic errors due to geometric effects. A correction is made for varying systematic errors, such as when the recording head has spatially separate read and write elements. Further, servopattern rotation due to residual or unmeasured systematic errors is reduced by using a once per revolution clock index derived from the motor drive current waveform or any other sensor. In one aspect of correcting for systematic errors in the writing of timing patterns on a storage medium of a storage device, a time interval between a trigger pattern written at a first radial position of the storage medium and a rotational index is measured. The rotational index is related to the rotational orientation of the storage medium with respect to a fixed frame of the storage device. The location of another trigger pattern to be written is shifted, using the measured time interval to determine the shift in location for the another trigger pattern.
    • 自我维护中定时模式布局的改进包括纠正由于几何效应引起的系统误差。 对变化的系统误差进行校正,例如当记录头具有空间上分离的读和写元件时。 此外,通过使用从电动机驱动电流波形或任何其他传感器导出的每转一次的时钟指数来减少由于残余或未测量的系统误差引起的伺服模式旋转。 在对存储装置的存储介质上的定时模式的写入进行校正系统错误的一个方面,测量在存储介质的第一径向位置上写入的触发模式与旋转指标之间的时间间隔。 旋转指数与存储介质相对于存储装置的固定框架的旋转取向有关。 使用测量的时间间隔来移动要写入的另一个触发模式的位置,以确定另一个触发模式的位置偏移。
    • 4. 发明授权
    • Actively controlling coolant-cooled cold plate configuration
    • 积极控制冷却液冷却冷板配置
    • US09326429B2
    • 2016-04-26
    • US13604850
    • 2012-09-06
    • Timothy J. ChainerPritish R. Parida
    • Timothy J. ChainerPritish R. Parida
    • F28F27/00H05K7/20
    • H05K7/20772H05K7/20836
    • Cooling apparatuses are provided to facilitate active control of thermal and fluid dynamic performance of a coolant-cooled cold plate. The cooling apparatus includes the cold plate and a controller. The cold plate couples to one or more electronic components to be cooled, and includes an adjustable physical configuration. The controller dynamically varies the adjustable physical configuration of the cold plate based on a monitored variable associated with the cold plate or the electronic component(s) being cooled by the cold plate. By dynamically varying the physical configuration, the thermal and fluid dynamic performance of the cold plate are adjusted to, for example, optimally cool the electronic component(s), and at the same time, reduce cooling power consumption used in cooling the electronic component(s). The physical configuration can be adjusted by providing one or more adjustable plates within the cold plate, the positioning of which may be adjusted based on the monitored variable.
    • 提供冷却装置以便于主动控制冷却剂冷却的冷板的热和流体动态性能。 冷却装置包括冷板和控制器。 冷板耦合到要冷却的一个或多个电子部件,并且包括可调节的物理结构。 控制器基于与冷板或由冷板冷却的电子部件相关联的监控变量来动态地改变冷板的可调节物理结构。 通过动态地改变物理结构,冷板的热和流体动态性能被调整为例如最佳地冷却电子部件,并且同时降低冷却电子部件所使用的冷却功率消耗( s)。 可以通过在冷板内提供一个或多个可调节板来调节物理结构,其可根据所监视的变量来调整其位置。
    • 10. 发明授权
    • Semi-independent shifting technique for signature verification
    • 半独立移位技术进行签名验证
    • US4553259A
    • 1985-11-12
    • US567202
    • 1983-12-30
    • Timothy J. ChainerSteven C. GundersenThomas K. Worthington
    • Timothy J. ChainerSteven C. GundersenThomas K. Worthington
    • G06K9/64G07C9/00G06K9/22
    • G06K9/6206G07C9/0015
    • A signature verification system includes means for obtaining acceleration data and pressure data related to a given signature and means for comparing that data with reference data previously obtained from an identified signer. The correlations between segments of a reference pressure signal and a sample pressure signal are computed. This process involves successively measuring the correlation as the two segments are shifted with respect to each other. The amount of the shifts that produce the maximum correlations between the pressure signal segments is stored in memory. The corresponding segments of acceleration data are shifted with respect to one another by an amount which is .+-.1 time units of the stored shift values during subsequent correlations of the acceleration data. The overall performance of the signature verification system is improved both in terms of processing time and in error rate as compared to the independent shifting method and in error rate with a minor increase in computation time as compared to the pressure only shifting method.
    • 签名验证系统包括用于获得与给定签名相关的加速度数据和压力数据的装置,以及用于将该数据与先前从识别的签名者获得的参考数据进行比较的装置。 计算参考压力信号的段与样本压力信号之间的相关性。 该过程涉及当两个段相对于彼此移位时连续地测量相关性。 产生压力信号段之间最大相关性的位移量存储在存储器中。 加速度数据的相应段相对于加速度数据的后续相关中的存储的移位值的+/- 1个时间单位相对于彼此移位。 与独立移动方法相比,签名验证系统的整体性能在处理时间和错误率方面都有所改善,并且与仅压力换档方法相比,在计算时间稍微增加的情况下改进了错误率。