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    • 62. 发明申请
    • SIMULTANEOUS MULTI-VINTAGE TIME-LAPSE FULL WAVEFORM INVERSION
    • 同时多年复古时间完全波形反转
    • WO2016046633A1
    • 2016-03-31
    • PCT/IB2015/001969
    • 2015-09-22
    • CGG SERVICES SA
    • SEHER, TimHOEBER, HenningRATCLIFFE, Andrew
    • G01V1/30
    • G01V1/282G01V1/303G01V1/306G01V1/308G01V2210/612G01V2210/614G01V2210/622
    • Simultaneous inversion of multi-vintage seismic data(200) obtains seismic data for vintages(202) and generates an initial earth model for each vintage(204). A cost function includes a data norm term having for at least one pair of vintages of seismic data a difference norm between a difference in obtained seismic data for the at least one pair of vintages and a difference in modeled seismic data for the at least one pair of vintages(206). The cost function also includes a model norm term for each pair of vintages selected from at least three vintages of seismic data(306). Each model norm term includes a difference norm between earth models for a given pair of vintages. A closure relationship is imposed on all earth models. The earth models are adjusted for the vintages to drive the cost function to a minimum (208) and to produce updated earth models(212).
    • 同时反演多年历地震数据(200)获得年份地震数据(202),并为每个年份(204)生成初始地球模型。 成本函数包括数据标准项,其具有至少一对地震数据的年份,所述至少一对年份的所获得的地震数据的差异与所述至少一对的建模的地震数据的差异之间的差异范数 的年份(206)。 成本函数还包括从地震数据的至少三个年份(306)中选择的每对年份的模型标准项。 每个模型范数项包括给定的一对年份的地球模型之间的差异范数。 对所有地球模型施加关闭关系。 对年份的地球模型进行调整,以将成本函数降至最低(208),并生成更新的地球模型(212)。
    • 67. 发明申请
    • SYSTEMS AND METHODS FOR GEOLOGIC SURFACE RECONSTRUCTION USING IMPLICIT FUNCTIONS
    • 使用隐含函数进行地质表面重建的系统和方法
    • WO2016001697A1
    • 2016-01-07
    • PCT/IB2014/001401
    • 2014-07-03
    • CGG SERVICES SA
    • BEKIN, Alexey
    • G01V1/30
    • G01V1/301G01V2210/642
    • The present disclosure includes systems and methods for reconstructing a geologic surface from geologic data. The systems and methods may include receiving geologic data from a data source. The geologic data may represent a region of earth. The systems and methods may include generating a grid to represent the region of earth. The grid may include a plurality of nodes that define a plurality of cells. The systems and methods may include determining a value of an implicit function at each node of the plurality of nodes using a minimum function energy constraint and the geologic data received from the data source. The systems and methods may include generating a graphical representation of a geologic surface in the region based on the value of the implicit function at each node of the plurality of nodes.
    • 本公开包括用于从地质数据重建地质表面的系统和方法。 系统和方法可以包括从数据源接收地质数据。 地质数据可能代表地球的一个地区。 系统和方法可以包括生成用于表示地球区域的网格。 网格可以包括限定多个单元的多个节点。 系统和方法可以包括使用最小函数能量约束和从数据源接收的地质数据来确定多个节点中的每个节点处的隐含函数的值。 系统和方法可以包括基于多个节点中的每个节点处的隐含函数的值来生成区域中地质表面的图形表示。
    • 68. 发明申请
    • METHODS AND SYSTEMS FOR A SEA-FLOOR SEISMIC SOURCE
    • 海底地震源的方法和系统
    • WO2015177631A2
    • 2015-11-26
    • PCT/IB2015/000849
    • 2015-05-19
    • CGG SERVICES SA
    • GRESILLON, François-XavierFORGUES, Eric
    • G01V1/155
    • G01V1/155G01V1/159G01V1/38
    • Systems and methods for a sea-floor seismic source are provided. The seismic source system includes a housing having an internal cavity. The housing is configured to be coupled to a surface by gravity. The system further includes a coupling plate fixed to a base of the internal cavity. The coupling plate is configured to transmit energy through the base of the internal cavity and into the surface. The system also includes an excitation source located in the internal cavity. The excitation source is configured to receive an input signal from a computing system communicatively coupled to the excitation source, and transmit energy to a reactive mass located in the internal cavity and transmit energy to the coupling plate.
    • 提供了海底地震震源的系统和方法。 地震源系统包括具有内腔的壳体。 壳体构造成通过重力与表面相连。 该系统还包括固定到内腔的底座上的联接板。 联接板被配置为将能量传递通过内腔的基座并进入表面。 该系统还包括位于内腔中的激发源。 激励源被配置为从通信地耦合到激励源的计算系统接收输入信号,并且将能量传输到位于内部空腔中的无功质量并将能量传递到耦合板。