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    • 2. 发明授权
    • Modulation method for signal crosstalk mitigation in electrostatically driven devices
    • 静电驱动装置中信号串扰减轻的调制方法
    • US06940433B2
    • 2005-09-06
    • US10714199
    • 2003-11-14
    • Daniel A. TazartesJohn G. Mark
    • Daniel A. TazartesJohn G. Mark
    • B81C99/00H03M1/20
    • G01C19/5719
    • A method of distinguishing an analog drive signal from a pickoff signal for attenuating the effect of electrical cross-coupling between the analog drive signal and the pickoff signal. The method may include receiving a periodic digital signal at a first frequency in the form of a stream of digital data values, randomly inverting at least one of the digital data values and converting the stream of digital data values to a stream of analog data values to form an analog drive signal. The method may also include driving a sensor, physically coupled to a resonant member configured to oscillate at a second frequency, using the analog drive signal and sensing changes in the movement of the resonant member detected by the sensor for producing a pickoff signal.
    • 一种区分模拟驱动信号与传感信号的方法,用于衰减模拟驱动信号和检测信号之间的电交叉耦合的影响。 该方法可以包括以数字数据值流的形式以第一频率接收周期性数字信号,随机地反转数字数据值中的至少一个,并将数字数据流流转换为模拟数据值流到 形成模拟驱动信号。 该方法还可以包括驱动传感器,物理耦合到被配置为以第二频率振荡的谐振构件,使用模拟驱动信号并且感测由传感器检测的谐振构件的运动的变化以产生拾取信号。
    • 4. 发明授权
    • Shock-tolerant multioscillator ring laser gyro
    • 耐震多腔振荡器激光陀螺仪
    • US06538745B1
    • 2003-03-25
    • US09499910
    • 2000-02-08
    • Daniel A. TazartesJohn G. MarkBrian T. LottmanShaw W. Fann
    • Daniel A. TazartesJohn G. MarkBrian T. LottmanShaw W. Fann
    • G01C1966
    • G01C19/667
    • The invention is a method and apparatus for processing signals with frequencies fL and fR from a multioscillator ring laser gyro, the method being repeated at regular time intervals. The difference f&Dgr;&thgr;, of fL and fR is a measure of the angular rotation rate of the ring laser gyro and the sum fF of fL and fR divided by 2 is the Faraday bias frequency. The first step of the method comprises determining two or more of the values MLP, MRP, MFP, and M&Dgr;&thgr;P of a set of functions ML(fL), MR(fR), MF(fF), and M&Dgr;&thgr;(f&Dgr;&thgr;). The second step comprises storing two or more processed values MLS, MRS, MFS, and M&Dgr;&thgr;S of the functions ML(fL), MR(fR), MF(fF), and M&Dgr;&thgr;(f&Dgr;&thgr;) if the corresponding values of MLP, MRP, MFP, and M&Dgr;&thgr;P are valid. A processed value is derived from the value for the present time interval and zero or more processed values for prior time intervals. The third step comprises determining f&Dgr;&thgr;P or a function thereof from zero or more valid function values obtained as a result of executing the first step during the current time interval, zero or more processed values obtained as a result of executing the second step during a prior time interval, and zero or more extrapolated values obtained by extrapolating the processed values obtained as a result of executing the second step during a prior time interval to the present time interval.
    • 本发明是用于处理来自多振荡器环形激光陀螺仪的频率为fL和fR的信号的方法和装置,该方法以规则的时间间隔重复。 fL和fR的差fDELTAtheta是环形激光陀螺仪的角度旋转速率的度量,fL和fR的和fF除以2是法拉第偏置频率。 该方法的第一步包括确定一组函数ML(fL),MR(fR),MF(fF)和MDELTAta(fDTATA))的值MLP,MRP,MFP和MDELTAthetaP中的两个或多个。 第二步包括如果MLP,MRP等的相应值存储两个或更多个功能ML(fL),MR(fR),MF(fF)和MDELTAtheta(fDELTAtheta)的处理值MLS,MRS,MFS和MDELTATATA, MFP和MDELTAthetaP均有效。 从当前时间间隔的值和先前时间间隔的零个或多个处理值导出处理值。 第三步骤包括从作为在当前时间间隔期间执行第一步骤的结果而获得的零个或多个有效函数值确定fDELTAthetaP或其函数,作为在之前时间执行第二步骤的结果而获得的零个或多个处理值 间隔,以及通过外推作为在先前时间间隔期间执行第二步骤的结果获得的处理值而获得的零个或多个外推值到当前时间间隔。
    • 5. 发明授权
    • Method and apparatus for overcoming cross-coupling in a fiber optic
gyroscope employing overmodulation
    • 在采用过调制的光纤陀螺仪中克服交叉耦合的方法和装置
    • US5682241A
    • 1997-10-28
    • US613558
    • 1996-03-11
    • John G. MarkDaniel A. TazartesAmado Cordova
    • John G. MarkDaniel A. TazartesAmado Cordova
    • G01C19/72
    • G01C19/72
    • A phase modulator applies sequences of artificial phase shifts in the region of overmodulation between light beams counterpropagating within the sensor coil of a Sagnac interferometer to obtain improved random walk performance. The sequences are composed of phase shifts of .+-.a.pi./2b and .+-.(4b-a).pi./2b where a is an odd integer and b is an integer greater than 1. The waveform for driving the phase modulator is derived from a 2.pi. radian mapping plotted so that adjacent driving signal values differ by a.pi./2b or -(4b-a).pi./2b in a first angular direction and by -a.pi./2b or by (4b-a).pi./2b in the opposite angular direction. Angular transitions about the mapping may be predetermined to generate a deterministic, random, or pseudo-random modulation sequence. In the event that a deterministic sequence is chosen, it is examined for orthogonality properties to assume zero average output bias from crosstalk.
    • 相位调制器在Sagnac干涉仪的传感器线圈内的反向传播的光束之间的过调制区域中施加人造相移序列,以获得改进的随机游走性能。 序列由+/- a pi / 2b和+/-(4b-a)pi / 2b的相移组成,其中a是奇整数,b是大于1的整数。用于驱动相位调制器的波形是 衍生自2 pi弧度映射,使得相邻的驱动信号值在第一角度方向上以pi-2b或 - (4b-a)pi / 2b和-a / 2b或由(4b-a)pi / 2b在相反的角度方向。 关于映射的角度转换可以被预先确定以产生确定性,随机或伪随机调制序列。 在选择确定性序列的情况下,检查正交性质以假定来自串扰的零平均输出偏差。
    • 7. 发明授权
    • Pseudorandom bit sequence generator
    • 伪随机位序发生器
    • US06307631B1
    • 2001-10-23
    • US09607471
    • 2000-06-30
    • Daniel A. TazartesJohn G. MarkDavid I. Tazartes
    • Daniel A. TazartesJohn G. MarkDavid I. Tazartes
    • G01C1972
    • G01C19/72
    • The invention is a method and apparatus for generating a primary pseudorandom bit sequence consisting of a plurality of contiguous P subsequences. Each P subsequence consists of a start sequence of predetermined length followed by a sequence of trailing bits. The method comprises three steps. The first step consists of deriving a feedback bit from each generating sequence in a P subsequence in accordance with a specified rule where a generating sequence is any sequence of contiguous bits in the P subsequence having the same length as the start sequence. The bit that follows a generating sequence is called the trailing bit for that generating sequence. The second step of the method consists of determining a sequence of one or more modifier bits to be used in modifying the P subsequence. The third step of the method consists of modifying the P subsequence utilizing the one or more modifier bits.
    • 本发明是一种生成由多个邻接P子序列组成的主伪随机位序列的方法和装置。 每个P子序列包括预定长度的开始序列,随后是后续位序列。 该方法包括三个步骤。 第一步包括根据指定规则从P子序列中的每个生成序列导出反馈比特,其中生成序列是具有与起始序列相同长度的P子序列中的连续比特的任何序列。 跟随生成序列的位称为该生成序列的尾随位。 该方法的第二步是确定用于修改P子序列的一个或多个修饰符比特的序列。 该方法的第三步包括利用一个或多个修饰词比特来修改P子序列。
    • 8. 发明授权
    • Compensation system
    • 补偿制度
    • US06285954B1
    • 2001-09-04
    • US09358630
    • 1999-07-21
    • John G. MarkDaniel A. Tazartes
    • John G. MarkDaniel A. Tazartes
    • G05D100
    • G05D1/0825
    • The invention is a method and apparatus for obtaining an accurate value x1c of a variable x1 based on an estimate x1e that is a function of K variables x1, x2, . . . , xk, . . . , xK. The method comprises the steps of (a) obtaining a plurality of estimates x1e, x2e, . . . , xke, . . . , xKe of the variables x1, x2, . . . , xk, . . . , xK over a method-execution time period, the values of the variables x1, x2, . . . , xk, . . . , xK changing or being changed during the method-execution time period; (b) obtaining from an external source the actual values x1a of x1 during the method-execution time period; (c) defining a compensation model &dgr;x1 that is a function of one or more of the estimates x1e, x2e, . . . , xke, . . . xKe of the variables x1, x2, . . . , xk, . . . , xK, the compensation model being further defined by I unknown constants a1, a2, . . . , ai, . . . , aI; (d) applying an operator G to the values of x1e−x1a and &dgr;x1; (e) determining the values of a1, a2, . . . , ai, . . . , aI; and (f) determining the value of x1c.
    • 本发明是一种基于作为K个变量x1,x2的函数的估计值x1e获得变量x1的精确值x1c的方法和装置。 。 。 ,xk,。 。 。 ,xK。 该方法包括以下步骤:(a)获得多个估计值x1e,x2e,...。 。 。 ,xke,。 。 。 ,xKe的变量x1,x2,...。 。 。 ,xk,。 。 。 ,xK在方法执行时间段内,变量x1,x2,...的值。 。 。 ,xk,。 。 。 ,xK在方法执行时间段内改变或改变; (b)从外部来源获得方法执行期间x1的实际值x1a; (c)定义作为估计值x1e,x2e,...中的一个或多个的函数的补偿模型deltax1。 。 。 ,xke,。 。 。 xKe的变量x1,x2,...。 。 。 ,xk,。 。 。 ,xK,补偿模型由I未知常数a1,a2,...进一步定义。 。 。 ,ai,。 。 。 ,aI; (d)将运算符G应用于x1e-x1a和deltax1的值; (e)确定a1,a2,...的值。 。 。 ,ai,。 。 。 ,aI; 和(f)确定x1c的值。
    • 10. 发明授权
    • High efficiency magnetic shield for a fiber optic gyroscope
    • 高效磁屏蔽用于光纤陀螺仪
    • US5896199A
    • 1999-04-20
    • US880129
    • 1997-06-20
    • John G. MarkDaniel A. TazartesAmado CordovaAgop H. CherbettchianEric L. Goldner
    • John G. MarkDaniel A. TazartesAmado CordovaAgop H. CherbettchianEric L. Goldner
    • G01C19/72
    • G01C19/722
    • A gyroscope assembly (10) includes a ring-shaped fiber optic coil (14) and a coil conforming enclosure (12, 16) of high magnetic permeability ferromagnetic material. The enclosure is ring-shaped to conform with the shape of the coil, and includes a portion (22) extending within the internal hole of the coil ring. Therefore, the coil is intimately and fully encased within high magnetic permeability material. In particular, the enclosure comprises a coil supporting spool (12) and a cover (16) secured to the spool. The spool includes a base (18) which is provided with a central hole (20) and a tubular wall (22) extending perpendicularly from the base. Coil (14) is bonded to base (18). Both the spool and the cover are formed of high magnetic permeability material, and the cover is placed about the fiber optic coil and attached to the spool. The coefficient of thermal expansion material used for the spool is matched to that of the coil pack to minimize stress imposed upon the fiber. An outer shield (28), roughly cylindrical in shape, may be further attached to the outside of the inner, toroidal shield, and the two shields are separated by a layer of low magnetic permeability material, such as of low magnetic permeability stainless steel or aluminum.
    • 陀螺仪组件(10)包括环形光纤线圈(14)和高磁导率铁磁材料的线圈合格外壳(12,16)。 外壳是环形的以符合线圈的形状,并且包括在线圈环的内部孔内延伸的部分(22)。 因此,线圈密封并完全封装在高磁导率材料内。 特别地,外壳包括线圈支撑线轴(12)和固定到线轴的盖(16)。 阀芯包括设置有中心孔(20)的底座(18)和从基座垂直延伸的管状壁(22)。 线圈(14)结合到基座(18)上。 卷轴和盖都由高磁导率材料形成,并且盖围绕光纤线圈放置并连接到卷轴。 用于卷轴的热膨胀材料系数与线圈组的热膨胀系数相匹配,以使施加在纤维上的应力最小化。 大致圆筒形的外屏蔽件(28)可以进一步附接到内环形屏蔽体的外部,并且两个屏蔽件被低磁导率材料层(例如低磁导率不锈钢)分开,或 铝。