会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Method and apparatus for destroying buried objects
    • 破坏埋藏物体的方法和装置
    • US5988038A
    • 1999-11-23
    • US10600
    • 1998-01-22
    • Paul L. Feintuch
    • Paul L. Feintuch
    • F41G3/00F41H11/16B64D1/04
    • F41H11/16
    • An apparatus for destroying a buried object includes a targeting system including a sensor operable to detect the presence and location of an object which is at least partially buried in the ground, a gun system including a gun operable to fire a projectile into the ground, and a control system that aims the gun responsive to the presence and location of the buried object as determined by the targeting system. The sensor also desirably detects the presence and location of the projectile fired by the gun system, and the gun pointer is responsive to the location of the projectile. The sensor thus detects the presence of the buried object, the control system aims the gun at the buried object, and the gun fires the projectile. The sensor detects the relative positions of the buried object and the projectile as it passes near the buried object, the control system corrects the aim of the gun in the event that the prior shot misses, and the gun fires another projectile with a corrected aim.
    • 一种用于摧毁被埋物体的装置包括一种靶向系统,其包括可操作以检测至少部分地埋在地面中的物体的存在和位置的传感器,包括可操作地将射弹射入地面的枪的枪系统,以及 一种控制系统,其针对由靶向系统确定的掩埋物体的存在和位置来对准枪。 传感器还期望地检测由枪系统发射的射弹的存在和位置,并且枪指针响应于射弹的位置。 因此,传感器检测到埋藏物体的存在,控制系统将枪瞄准被埋物体,枪射击射弹。 传感器探测到掩埋物体和射弹在通过掩埋物体附近时的相对位置,如果先前射击失败,则控制系统校正枪的目标,并且枪以正确的目的射出另一个射弹。
    • 3. 发明申请
    • GLOBAL POSITIONING SYSTEM USING BROADBAND NOISE REDUCTION
    • 使用宽带噪声减少的全球​​定位系统
    • US20080211715A1
    • 2008-09-04
    • US11839616
    • 2007-08-16
    • Paul L. FEINTUCHRonald A. BORRELLAnthony SAGLEMBENIJoshua G. SLATER
    • Paul L. FEINTUCHRonald A. BORRELLAnthony SAGLEMBENIJoshua G. SLATER
    • G01S1/00
    • G01S19/24G01S19/29
    • The present invention is directed to a global positioning system (GPS) having improved signal-to-noise ratio for reducing the required signal level for which GPS may be implemented in electronic devices or cell phones. The acquisition function of the GPS receiver is improved by inserting new signal processing for broadband noise reduction that allows subsequent improved estimation of critical time shift and frequency shift parameters needed for GPS acquisition at lower received signal levels. The decoding of the navigation bits from the satellite transmissions is improved to provide ephemeris data needed for computing navigation solutions at lower received signal levels, by examining the output of the same new signal processing for broadband noise reduction for spikes in the power of the output time series that correspond to navigation bit flips.
    • 本发明涉及具有改进的信噪比的全球定位系统(GPS),用于减少可在电子设备或蜂窝电话中实现GPS的所需信号电平。 通过插入用于宽带噪声降低的新信号处理来改善GPS接收机的采集功能,其允许随后在较低的接收信号电平下对GPS获取所需的临界时移和频移参数进行改进的估计。 改进来自卫星传输的导航比特的解​​码,以通过检查相同的新信号处理的输出来提供用于以较低的接收信号电平计算导航解决方案所需的星历数据,以便在输出时间的功率中对尖峰进行宽带降噪 对应于导航位翻转的系列。
    • 5. 发明授权
    • Advanced digital flux gate magnetometer
    • 先进的数字磁通门磁强计
    • US5652512A
    • 1997-07-29
    • US636420
    • 1996-04-23
    • Paul L. FeintuchEric K. SlaterKirk Kohnen
    • Paul L. FeintuchEric K. SlaterKirk Kohnen
    • G01C17/30G01R33/04G01C17/28
    • G01R33/04G01C17/30
    • Digital logic comprising a high speed analog to digital converter, a high speed analog to digital converter, a digital multiplier, and an infinite impulse response filter and decimation circuit are used to digitize a magnetic signal that is subsequently processed by magnetic data processing algorithms. The high resolution digital to analog converter is directly incorporated in a feedback loop of a magnetometer sensor, and an expensive precision analog to digital converter is replaced by a less expensive, lower power digital to analog converter. The improvement provided by the present invention includes a high speed analog to digital converter coupled between the oscillator and a first input of a multiplier, and a second analog to digital converter that is coupled between the sense coil of the sensor and a second input of the multiplier. The output of the multiplier is coupled to an infinite impulse response filter and decimation circuit that produces the digital output signal from the magnetometer. The output of the infinite impulse response filter and decimation circuit is coupled by way of a digital to analog converter to the feedback coil of the sensor. Depending on the system requirements, the two analog to digital converters, the digital multiplier, and the infinite impulse response filter and decimation circuit may be implemented in one readily available microcontroller at low cost. This serves to reduce the number of components, complexity, and expense of the magnetometer.
    • 使用包括高速模数转换器,高速模数转换器,数字乘法器和无限脉冲响应滤波器和抽取电路的数字逻辑来数字化随后由磁数据处理算法处理的磁信号。 高分辨率数模转换器直接并入到磁力计传感器的反馈回路中,昂贵的精密模数转换器由较便宜的低功耗数模转换器代替。 本发明提供的改进包括耦合在振荡器和乘法器的第一输入端之间的高速模数转换器和耦合在传感器的感测线圈和第二输入端之间的第二模数转换器 乘数。 乘法器的输出耦合到产生来自磁力计的数字输出信号的无限脉冲响应滤波器和抽取电路。 无限脉冲响应滤波器和抽取电路的输出通过数模转换器耦合到传感器的反馈线圈。 根据系统要求,可以在一个容易获得的微控制器中以低成本实现两个模数转换器,数字乘法器和无限脉冲响应滤波器和抽取电路。 这用于减少磁力计的部件数量,复杂性和费用。
    • 6. 发明授权
    • Channel adaptive active sonar
    • 通道自适应主动声纳
    • US4933914A
    • 1990-06-12
    • US3529
    • 1987-01-15
    • Paul L. FeintuchFrancis A. Reed
    • Paul L. FeintuchFrancis A. Reed
    • G01S7/52G01S7/539G01S15/10
    • G01S15/102G01S7/52004G01S7/539Y10S367/901
    • A channel adaptive active sonar is disclosed, wherein the sonar transmit waveform is adaptively selected in accordance with the measured sonar channel scattering function to reduce the response of the sonar to unwanted reverberation while preserving the response to signal returns. As a result, the sonar target detectability is improved over sonar systems which do not adapt to the variable properties of the ocean channel. The sonar is operable in two modes, the channel measurement mode and the normal active mode. In the channel measurement mode, probe signals are transmitted to test the channel response. From the sonar receive signals resulting from the transmitted probe signals, the channel scattering function is estimated. The transmit waveform for the sonar active mode is then designed to provide a waveform whose ambiguity function overlaps minimally with the estimated channel scattering function. As a result of the waveform selection, the sonar resonse to reverberation is reduced while maintaining the sonar target response.
    • 公开了一种通道自适应主动声纳,其中根据测量的声纳通道散射函数自适应地选择声纳发射波形,以将声纳的响应减小到不希望的混响,同时保持对信号返回的响应。 结果,对于不适应海洋通道的可变特性的声纳系统,声纳目标可检测性得到改善。 声纳可在两种模式下操作,即通道测量模式和正常激活模式。 在通道测量模式下,发送探头信号以测试通道响应。 从发射的探测信号产生的声纳接收信号中,估计信道散射函数。 然后,声纳活动模式的发射波形被设计成提供其模糊函数与估计的信道散射函数最小重叠的波形。 作为波形选择的结果,在保持声纳目标响应的同时降低了对混响的声纳响应。
    • 7. 发明授权
    • Active sonar for under-ice conditions
    • 主动声纳用于冰面条件下
    • US5790474A
    • 1998-08-04
    • US391835
    • 1989-08-04
    • Paul L. Feintuch
    • Paul L. Feintuch
    • G01S7/524G01S7/539G01S15/06G01S15/10G01S15/87
    • G01S7/539G01S15/107G01S15/06G01S15/87G01S7/524
    • Active sonar apparatus, especially adapted for detecting submarine targets under ice, includes means for providing first and second pulsed, underwater acoustic signals respectfully having a high frequency, f.sub.H, and a low frequency, f.sub.L. The high frequency, f.sub.H, is selected for causing the signal to be reflected at the submerged, water-ice interface and and the low frequency, f.sub.L, selected for enabling the signal to be propagated through the ice with no significant reflection at the water-ice interface while then causing the signal to be reflected at the above-water, air-ice interface. Included are means for separately receiving and processing the reflected signals from the first and second acoustic signals and for detecting possible target reflections (which may include ice reflections) as a function of range and angle cells. Further included are signal comparing means for comparing range and angle cells of the two reflected signals, a probable target detection being established when possible target detections for both reflected signals are indicated in corresponding cells. The high and low frequency signals may be separately generated or may be provided as interference signals by a parametric transponder.
    • 主动声纳装置,特别适用于检测冰下的潜艇目标,包括用于提供具有高频率fH和低频率fL的第一和第二脉冲水下声信号的装置。 选择高频fH,以使信号在浸没的水冰界面处被反射,并且选择低频fL以使信号能够在水面上没有显着的反射传播通过冰, 冰界面,然后使信号在上述水,空气 - 冰界面处反射。 包括用于分别接收和处理来自第一和第二声信号的反射信号并且用于检测作为范围和角度单元的函数的可能的目标反射(其可以包括冰反射)的装置。 还包括用于比较两个反射信号的范围和角度单元的信号比较装置,当在相应的单元中指示两个反射信号的可能的目标检测时,建立可能的目标检测。 高频和低频信号可以单独产生,或者可以由参数转发器作为干扰信号提供。
    • 9. 发明授权
    • Normalized frequency domain LMS adaptive filter
    • 归一化频域LMS自适应滤波器
    • US4939685A
    • 1990-07-03
    • US455893
    • 1989-12-27
    • Paul L. Feintuch
    • Paul L. Feintuch
    • H03H21/00
    • H03H21/0027
    • A normalized frequency domain Least Means Square filter. The feedback coefficient for each frequency bin is adjusted separately in the filter by use of an input power estimate. The power estimate is incorporated directly into the filter algorithm as a data-dependent, time-varying stochastic feedback coefficient. The filter is particularly useful in applications in which the input signal has large spectral variations, which could lead to filter instabilities in some frequency bins if a single feedback coefficient were employed in all frequency bins.
    • 归一化频域最小均方滤波器。 通过使用输入功率估计,在滤波器中分别调整每个频率仓的反馈系数。 功率估计被直接并入到滤波器算法中作为数据相关的时变随机反馈系数。 该滤波器在输入信号具有大的频谱变化的应用中特别有用,如果在所有频率仓中采用单个反馈系数,则可能导致某些频率仓中的滤波器不稳定性。