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    • 3. 发明公开
    • Method and device for marine seismic acquisition
    • 海洋地震采集的方法和装置
    • EP2613179A3
    • 2017-12-13
    • EP13150131.4
    • 2013-01-03
    • CGG Services SA
    • Mandroux, FabriceLenart, Alexandre
    • G01V1/38
    • G01V1/3808
    • Methods and systems for improving azimuth distribution in a seismic acquisition system are described. A survey acquisition system includes a plurality of streamers towed by a plurality of streamer vessels, including a first streamer vessel (202) and a second streamer vessel (204) and a plurality of sources towed by a plurality of source vessels (206, 208, 210). The plurality of streamer vessels and plurality of source vessels are configured relative to one another such that the plurality of source vessels (206, 208, 210) are positioned at one or more predetermined inline distances behind a portion of the first streamer vessel and are also positioned at one or more predetermined inline distances in front of a portion of the second streamer vessel. The plurality of streamer vessels and plurality of source vessels are also spaced apart from one another in a cross-line direction.
    • 描述了用于改善地震采集系统中的方位分布的方法和系统。 测量采集系统包括由多个拖缆船拖曳的多个拖缆,所述拖缆船包括第一拖缆船(202)和第二拖缆船(204)以及由多个源船(206,208,205)拖曳的多个源, 210)。 所述多个拖缆船和多个源船被相对于彼此配置,使得所述多个源船(206,208,210)被定位在所述第一拖缆船的一部分后面的一个或多个预定线上距离处,并且也是 定位在第二拖缆船的一部分前方的一个或多个预定的行内距离处。 多个拖缆船舶和多个源船舶也在交叉线方向上彼此间隔开。
    • 4. 发明公开
    • Method and device for determining frequency sweep for seismic source
    • 确定地震源频率扫描的方法和装置
    • EP2743733A3
    • 2017-11-22
    • EP13197018.8
    • 2013-12-12
    • CGG Services SA
    • Sallas, John JamesWinter, Olivier
    • G01V1/00
    • G01V1/005
    • Controller and method for generating a frequency sweep for a seismic survey that uses a seismic source. The method includes receiving (1000) specification data about the seismic source (1110); receiving (1002) environmental data (300) about an infrastructure affected by the seismic survey; receiving (1004) guideline data about the infrastructure; setting (1006) a target energy spectrum density to be emitted by the seismic source (1110) during the seismic survey; and calculating (1008), in a processor (1202), the frequency sweep based on the specification data, environmental data, guideline data and the target energy spectrum density.
    • 用于为使用地震源的地震勘测产生频率扫描的控制器和方法。 该方法包括接收(1000)关于地震源(1110)的规范数据; 接收(1002)关于受所述地震勘测影响的基础设施的环境数据(300); 接收(1004)关于所述基础设施的指南数据; 设置(1006)在地震勘测期间由地震源(1110)发射的目标能量谱密度; 以及在处理器(1202)中基于规格数据,环境数据,指南数据和目标能谱密度来计算(1008)频率扫描。
    • 7. 发明公开
    • Volumetric Piezoelectric Seismic Wave Source and Related Methods
    • 体积压电地震波源及相关方法
    • EP2713183A3
    • 2017-08-30
    • EP13186112.2
    • 2013-09-26
    • CGG Services SA
    • Grésillon, Francois Xavier
    • G01V1/02
    • G01V1/159G01V1/40
    • Seismic wave sources and related methods are provided. A seismic wave source includes a housing (110), plural pillars and an excitation system. The housing is split in two halves (112,114) along a plane including a longitudinal axis of the housing. The plural pillars are made of piezoelectric elements and are positioned inside the housing to have one end in contact with a semi-cylindrical middle portion of one half of the housing and another end in contact with a semi-cylindrical middle portion of the other half of the housing. The excitation system connected by wires to the plural pillars and is configured to provide electrical signals to the piezoelectric elements. Upon receiving the electrical signals from the excitation system, the pillars generate forces on the housing thereby generating seismic waves.
    • 提供地震波源和相关方法。 地震波源包括壳体(110),多个支柱和激励系统。 壳体沿着包括壳体的纵向轴线的平面分成两半(112,114)。 多个柱由压电元件制成,并且定位在壳体内部,以使其一端与壳体一半的半圆柱形中间部分接触,另一端与另一半壳体的半圆柱形中间部分接触 住房。 激励系统通过导线连接到多个支柱并且被配置为向压电元件提供电信号。 在接收到来自激励系统的电信号后,支柱在壳体上产生力,从而产生地震波。
    • 8. 发明公开
    • Multi-vessel seismic acquisition with undulating navigation lines
    • 具有波浪形导航线的多船地震采集
    • EP2620789A3
    • 2017-08-09
    • EP13152547.9
    • 2013-01-24
    • CGG Services SA
    • Siliqi, RistoMensch, ThomasGrenie, Damien
    • G01V1/38
    • G01V1/3808
    • Method for determining a seismic survey configuration of a multi-vessel acquisition system. The method includes a step of receiving (800) a number that corresponds to vessels to be used in the multi-vessel acquisition system (300); a step of receiving (802) a cross-line distance (350) between first and last straight line paths (322, 324) corresponding to first and last vessels (302, 304), respectively, of the multi-vessel acquisition system (300); a step of receiving (804) an inline distance (345) between the first and last vessels (302, 304); a step of selecting (806) shapes of undulating paths for the vessels of the multi-vessel acquisition system (300); a step of receiving (808) a desired azimuth and/or offset distribution of receivers towed by one or more streamer vessels of the multi-vessel acquisition system (300) relative to source vessels of the multi-vessel acquisition system (300); and a step of calculating (810) amplitudes (A i ), periods (T i ) and phases of the undulating paths.
    • 用于确定多船采集系统的地震勘测配置的方法。 该方法包括接收(800)与在多船采集系统(300)中使用的船只相对应的号码的步骤; 接收(802)分别对应于多船采集系统(300)的第一船和最后船(302,304)的第一和最后直线路径(322,324)之间的交叉线距离(350) ); 接收(804)第一和最后一个容器(302,304)之间的内联距离(345)的步骤; 选择(806)多容器采集系统(300)的容器的起伏路径的形状的步骤; 接收(808)由所述多船采集系统(300)的一个或多个拖缆船相对于所述多船采集系统(300)的源船拖曳的接收器的期望的方位和/或偏移分布的步骤; 以及计算(810)波动路径的幅度(Ai),周期(Ti)和相位的步骤。