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    • 3. 发明授权
    • Methods of generating directional low frequency acoustic signals and reflected signal detection enhancements for seismic while drilling applications
    • 在钻井应用中产生定向低频声信号和反射信号检测增强的方法
    • US07301852B2
    • 2007-11-27
    • US10640240
    • 2003-08-13
    • James V. Leggett, IIIVladimir Dubinsky
    • James V. Leggett, IIIVladimir Dubinsky
    • G01V1/40
    • G01V1/44
    • The present invention provides a method and apparatus for using an acoustic logging tool conveyed in a borehole in an earth formation for determining a characteristic of the formation. The method comprises using a first acoustic source for generating an acoustic signal in the earth formation at a first frequency. A second acoustic source spaced apart from the first source is used for generating an acoustic signal in the earth formation at a second frequency different from the first frequency. An acoustic receiver is used for receiving a third acoustic signal indicative of said characteristic. The third acoustic signal has a frequency substantially equal to a difference between the first frequency and the second frequency. The third acoustic signal is produced by a nonlinear interaction between the first signal and the second signal in a portion of said earth formation.
    • 本发明提供了一种用于使用在地层中的钻孔中输送的声学测井工具来确定地层特征的方法和装置。 该方法包括使用第一声源以在第一频率处产生地层中的声信号。 与第一源间隔开的第二声源用于以不同于第一频率的第二频率在地层中产生声信号。 声接收机用于接收指示所述特性的第三声信号。 第三声信号的频率基本上等于第一频率和第二频率之间的差。 第三声信号是在所述地层的一部分中由第一信号和第二信号之间的非线性相互作用产生的。
    • 6. 发明授权
    • Semblance processing for an acoustic measurement-while-drilling system for imaging of formation boundaries
    • 用于成像边界成像的声学测量同时钻孔系统的外观加工
    • US06427124B1
    • 2002-07-30
    • US09347754
    • 1999-07-06
    • Vladimir DubinskyJames V. Leggett, IIIAlexi Bolshakov
    • Vladimir DubinskyJames V. Leggett, IIIAlexi Bolshakov
    • G01V140
    • E21B43/08E21B43/12E21B43/14G01V1/48
    • The present invention provides a system for drilling boreholes having a downhole subassembly which contains an acoustic measurement-while-drilling system. It uses the acoustic velocity through the formations surrounding the borehole and an acoustic transmitter and a set of receivers for determining the bed boundaries surrounding the borehole formation. An acoustic isolator on the tool may be used to attenuate body waves traveling between the transmitter and the receivers. Additional attenuation of the body waves is provided by a threshold filter based upon the absolute maximum of the received signals. Semblance of the data is determined in a slowness/intercept-time domain. Coherence and semblance filtering methods are used to differentiate between reflection signals and noise. The position and orientation of the bed boundary relative to the tool are determined. A further processing step uses the relative position and orientation determined for a number of tool positions to further discriminate against noise and obtain an absolute position and depth of the bed boundaries.
    • 本发明提供了一种用于钻孔的系统,其具有包含声学测量同时钻孔系统的井下子组件。 它使用通过围绕钻孔的地层的声速和用于确定围绕钻孔地层的床边界的声发射器和一组接收器。 工具上的声学隔离器可用于衰减在发射器和接收器之间传播的身体波。 通过基于接收信号的绝对最大值的阈值滤波器来提供身体波的附加衰减。 数据的相似性在慢/截取时域中确定。 相干和相似滤波方法用于区分反射信号和噪声。 确定床边界相对于工具的位置和方向。 进一步的处理步骤使用为多个工具位置确定的相对位置和取向进一步区分噪声并获得床边界的绝对位置和深度。
    • 7. 发明授权
    • Closed loop drilling system
    • 闭环钻孔系统
    • US5842149A
    • 1998-11-24
    • US734935
    • 1996-10-22
    • John W. HarrellVladimir DubinskyJames V. Leggett, III
    • John W. HarrellVladimir DubinskyJames V. Leggett, III
    • E21B44/00E21B47/00G06F19/00
    • E21B47/00E21B44/00E21B44/005
    • The present invention provides a closed-loop drilling system for drilling oilfield boreholes. The system includes a drilling assembly with a drill bit, a plurality of sensors for providing signals relating to parameters relating to the drilling assembly, borehole, and formations around the drilling assembly. Processors in the drilling system process sensors signal and compute drilling parameters based on models and programmed instructions provided to the drilling system that will yield further drilling at enhanced drilling rates and with extended drilling assembly life. The drilling system then automatically adjusts the drilling parameters for continued drilling. The system continually or periodically repeats this process during the drilling operations. The drilling system also provides severity of certain dysfunctions to the operator and a means for simulating the drilling assembly behavior prior to effecting changes in the drilling parameters.
    • 本发明提供一种用于钻井油井钻孔的闭环钻井系统。 该系统包括具有钻头的钻孔组件,用于提供与钻孔组件相关的参数,钻孔和钻孔组件周围的结构的多个传感器。 钻井系统过程传感器中的处理器根据提供给钻井系统的模型和程序指令对钻孔参数进行信号和计算,以提高钻井速率和延长钻井装配寿命。 然后钻孔系统自动调整钻孔参数,以继续钻孔。 该系统在钻井作业期间持续或周期地重复该过程。 钻井系统还提供了对操作者的某些功能障碍的严重性,以及在执行钻井参数的变化之前模拟钻井组件行为的手段。
    • 8. 发明授权
    • Method of generating directional low frequency acoustic signals and reflected signal detection enhancements for seismic while drilling applications
    • 在钻井应用中产生定向低频声信号和反射信号检测增强的方法
    • US07463551B2
    • 2008-12-09
    • US11865590
    • 2007-10-01
    • James V. Leggett, IIIVladimir Dubinsky
    • James V. Leggett, IIIVladimir Dubinsky
    • G01V1/40G01V1/46
    • G01V1/44
    • The present invention provides a method and apparatus for using an acoustic logging tool conveyed in a borehole in an earth formation for determining a characteristic of the formation. The method comprises using a first acoustic source for generating an acoustic signal in the earth formation at a first frequency. A second acoustic source spaced apart from the first source is used for generating an acoustic signal in the earth formation at a second frequency different from the first frequency. An acoustic receiver is used for receiving a third acoustic signal indicative of said characteristic. The third acoustic signal has a frequency substantially equal to a difference between the first frequency and the second frequency. The third acoustic signal is produced by a nonlinear interaction between the first signal and the second signal in a portion of said earth formation.
    • 本发明提供了一种用于使用在地层中的钻孔中输送的声学测井工具来确定地层特征的方法和装置。 该方法包括使用第一声源以在第一频率处产生地层中的声信号。 与第一源间隔开的第二声源用于以不同于第一频率的第二频率在地层中产生声信号。 声接收机用于接收指示所述特性的第三声信号。 第三声信号的频率基本上等于第一频率和第二频率之间的差。 第三声信号是在所述地层的一部分中由第一信号和第二信号之间的非线性相互作用产生的。