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    • 2. 发明申请
    • FULL WAVEFIELD INVERSION USING TIME VARYING FILTERS
    • 使用时间变化过滤器的全波形反转
    • WO2011123197A1
    • 2011-10-06
    • PCT/US2011/025616
    • 2011-02-21
    • EXXONMOBIL UPSTREAM RESEARCH COMPANYKREBS, Jerome, R.ANDERSON, John, E.
    • KREBS, Jerome, R.ANDERSON, John, E.
    • G06F17/10
    • G01V1/282
    • An improved method for reducing the accuracy requirements on the starting model when performing multi-scale inversion of seismic data (65) by local objective function optimization (64). The different scales of inversion are brought about by incorporating a low-pass filter into the objective function (61), and then decreasing the amount of high- frequency data that is filtered out from one scale to the next. Moreover, the filter is designed to be time varying, wherein the filter's low-pass cutoff frequency decreases with increasing traveltime of the seismic data being filtered (62). The filter may be designed using Pratt' s criterion for eliminating local minima, and performing averages (or other statistical measure) of the period and the traveltime error only with respect to source and receiver location but not traveltime (63).
    • (65)通过局部目标函数优化(64)对地震数据进行多尺度反演(65)时,降低起始模型精度要求的改进方法。 通过将低通滤波器合并到目标函数(61)中,然后将从一个尺度滤出的高频数据的量减少到下一个尺度来产生不同的反演尺度。 此外,滤波器被设计为时变的,其中滤波器的低通截止频率随着被过滤的地震数据的行进时间的增加而减小(62)。 可以使用Pratt的标准来设计滤波器,以消除局部最小值,并且只针对源和接收器位置而不是行进时间执行周期的平均值(或其他统计测量)和行进时间误差(63)。
    • 7. 发明申请
    • METHOD FOR GENERATING MULTIPLE FREE SEISMIC IMAGES
    • 用于生成多个免费地震图像的方法
    • WO2016195774A1
    • 2016-12-08
    • PCT/US2016/022551
    • 2016-03-16
    • EXXONMOBIL UPSTREAM RESEARCH COMPANYAKCELIK, VolkanKREBS, Jerome, R.
    • AKCELIK, VolkanKREBS, Jerome, R.
    • G01V1/28G01V1/30G01V1/38
    • G01V1/282G01V1/28G01V1/301G01V1/306G01V1/38G01V2210/32G01V2210/56G01V2210/614
    • A method, including: storing, in a computer storage device, geophysical seismic data that has been separated into a multiple-free component and a multiple contaminated component; performing, with a processor, a first full wavefield inversion process on the multiple-free component of the seismic data, wherein a first subsurface physical property model is generated; determining, with a processor, an extended target reflectivity, wherein the extended target reflectivity includes a reflectivity for each of a plurality of shots; separately performing, with a processor, a second full wavefield inversion process with the multiple contaminated component of the seismic data for each of the plurality of shots using the reflectivity corresponding to each of the plurality of shots, wherein a second subsurface physical property model is generated; and generating, with a processor, multiple-free final subsurface physical property model by combining the first subsurface physical property model and the second subsurface physical property model.
    • 一种方法,包括:在计算机存储装置中存储已经分离成多自由分量和多重污染分量的地球物理地震数据; 利用处理器对所述地震数据的多自由分量进行第一全波场反演处理,其中产生第一次地下物理属性模型; 使用处理器确定扩展的目标反射率,其中所述扩展的目标反射率包括多个镜头中的每一个的反射率; 使用与多个拍摄中的每一个相对应的反射率,使用处理器分别执行与多个拍摄中的每一个相同的地震数据的多重污染分量的第二全波场反演处理,其中产生第二次下表面物理属性模型 ; 并通过组合第一次地下物理属性模型和第二次地下物理属性模型,通过处理器生成多个无限次的最终地下物理属性模型。
    • 10. 发明申请
    • AN EFFICIENT METHOD FOR INVERSION OF GEOPHYSICAL DATA
    • 一种用于反演地球数据的有效方法
    • WO2009117174A1
    • 2009-09-24
    • PCT/US2009/032010
    • 2009-01-26
    • EXXONMOBIL UPSTREAM RESEARCH COMPANYKREBS, Jerome, R.HINKLEY, David, L.
    • KREBS, Jerome, R.HINKLEY, David, L.
    • G01V3/18
    • G01V1/301G01V1/282G01V2210/50
    • A method for efficient inversion of measured geophysical data from a subsurface region to prospect for hydrocarbons. Gathers of measured data (40) are encoded (60) using a set of non-equivalent encoding functions (30). Then all data records in each encoded gather that correspond to a single receiver are summed (60), repeating for each receiver to generate a simultaneous encoded gather (80). The method employs iterative, local optimization of a cost function to invert the encoded gathers of simultaneous source data. An adjoint method is used to calculate the gradients of the cost function needed for the local optimization process (100). The inverted data yields a physical properties model (110) of the subsurface region that, after iterative updating, can indicate presence of accumulations of hydrocarbons.
    • 测量地球物理数据从地下区域到碳氢化合物前景的有效反演的方法。 使用一组非等效编码函数(30)对测量数据(40)的收集进行编码(60)。 然后对应于单个接收机的每个编码采集中的所有数据记录相加(60),为每个接收机重复生成同时编码的聚集(80)。 该方法使用成本函数的迭代局部优化来反转同时源数据的编码集合。 使用伴随方法来计算局部优化过程所需的成本函数的梯度(100)。 倒置数据产生地下区域的物理性质模型(110),其在迭代更新之后可以指示存在碳氢化合物的存在。