公开(公告)号：US09989555B2

公开(公告)日：2018-06-05

申请号：US14925081

申请日：2015-10-28

申请人： Ultra Electronics Maritime Systems Inc.

发明人： Andrew Keast ,  Olivier Beslin ,  Gerard Matthew Mallay

IPC分类号： G01P15/18 ,  G01V1/18

CPC分类号： G01P15/18 ,  G01P15/09 ,  G01V1/18 ,  G01V1/189

摘要： A vector sensor for use in acoustic instruments is described. The vector sensor includes: a cylindrical bulkhead partition defining a plurality of channels extending longitudinally on a circumferential wall of the bulkhead partition between a first surface and a second surface of the bulkhead partition; first and second cylindrical piezoelectric transducing pieces affixed to the bulkhead partition and extending outwardly as cantilever beams and contained within respective pressure housing capsules. The sensor may include cylindrical foam end pieces fitted over the capsules and having corresponding channels in their outer surfaces that correspond to channels in the bulkhead partition, so as to allow wiring and strength members to pass through. The cylindrical piezoelectric transducing pieces may be formed from a piezoelectric cylindrical tube with a first electrode covering its inner surface and a second electrode on its outer surface. The second electrode may be formed from a plurality of electrically disconnected electrodes spaced around the tube and located towards a fixed end of the tube, leaving a portion of the outer surface near the free end of the tube uncovered.

公开(公告)号：US20170315246A1

公开(公告)日：2017-11-02

申请号：US15645167

申请日：2017-07-10

申请人： SERCEL, INC.

发明人： Mike MAPLES ,  John S. HEPP

IPC分类号： G01V1/18 ,  G01V1/38

CPC分类号： G01V1/184 ,  G01V1/186 ,  G01V1/189 ,  G01V1/38

摘要： A section of a streamer for acoustic marine data collection, the section comprising a carrier for accommodating seismic sensors, wherein the carrier includes, a single body, a first particle motion sensor located on the single body, and a second particle motion sensor being located on the single body, with a 90° angular offset, about a longitudinal axis of the carrier, relative to the first particle motion sensor; and a tilt sensor coupled to the carrier and having a known direction relative to the first and second particle motion sensors so that the tilt sensor determines an angle of tilt of the carrier about a vertical, wherein the first and second particle motion sensors measure a motion related parameter and not a pressure.

公开(公告)号：US09784860B2

公开(公告)日：2017-10-10

申请号：US14275497

申请日：2014-05-12

申请人： ION Geophysical Corporation

发明人： Dale J. Lambert ,  Andre′ W. Olivier ,  Robert E. Rouquette

IPC分类号： G01V1/18 ,  G01V1/36 ,  G01V1/38

CPC分类号： G01V1/18 ,  G01V1/189 ,  G01V1/36 ,  G01V1/38 ,  G01V2210/56

摘要： An underwater seismic system for reducing noise due to ghost reflections or motion through the water from seismic signals. The system includes two motion sensors. One sensor has a first response and is sensitive to platform-motion-induced noise as well as to acoustic waves. The other sensor has a different construction that isolates it from the acoustic waves so that its response is mainly to motion noise. The outputs of the two sensor responses are combined to remove the effects of motion noise. When further combined with a hydrophone signal, noise due to ghost reflections is reduced.

公开(公告)号：US20160291186A1

公开(公告)日：2016-10-06

申请号：US14896998

申请日：2014-06-10

申请人： READ AS

发明人： Tore KJOS

IPC分类号： G01V1/40 ,  G01V1/22 ,  G01V1/18

CPC分类号： G01V1/40 ,  G01V1/189 ,  G01V1/226

摘要： A seismic sensor cable 10 for lowering into a subterranean well 15 for acquiring information about seismic, microseismic and mechanical vibration incidents in the subterranean well 15, where the device comprises a first portion 20 that is elongate and has a first length with a proximal end and a distal end that are to be lowered down into a lower part of the subterranean well 15, the first portion 20 having a plurality of electric or electromechanical multicomponent seismic sensors 25 that are connected and distributed over large parts of its first length, and wherein the seismic profiling device 10 further comprises a second portion 30 that is elongate and has a second length with a proximal end that is to be held above the subterranean well 15 and a distal end that is to be lowered down into the upper part of the subterranean well 15, said second portion 30 comprising an optical fibre 35 that runs along large parts of said second portion 30, and an electric cable 40 for conducting electric power from the proximal end to said seismic sensors in the first portion 20, and a connector 45 for connecting the proximal end of the first portion 20 to the distal end of the second portion 30. The invention also comprises a system and a method for acquiring information about seismic, microseismic and mechanical vibration incidents in the subterranean well 15.

摘要翻译： 地下传感器电缆10，用于下降到地下井15中，用于获取关于地下井15中的地震，微震和机械振动事件的信息，其中该装置包括第一部分20，该第一部分20是细长的并具有第一长度和近端， 要向下降到地下井15的下部的远端，第一部分20具有多个电气或机电多组分地震传感器25，其连接并分布在其第一长度的大部分上，并且其中 地震剖面装置10还包括第二部分30，该第二部分30是细长的并且具有第二长度，其中近端将被保持在地下井15的上方，并且远端将被下降到地下井的上部 如图15所示，所述第二部分30包括沿所述第二部分30的大部分延伸的光纤35和用于导电的电缆40 第一部分20中的从近端到所述地震传感器的电力功率，以及用于将第一部分20的近端连接到第二部分30的远端的连接器45.本发明还包括一种系统和方法， 获取关于地下井15的地震，微震和机械振动事件的信息。

公开(公告)号：US20150316667A1

公开(公告)日：2015-11-05

申请号：US14104806

申请日：2013-12-12

申请人： WESTERNGECO L.L.C.

发明人： MAXIME PROJETTI ,  OLIVIER VANCAUWENBERGHE ,  NICOLAS GOUJON ,  HANS PAULSON

IPC分类号： G01V1/16 ,  G01V1/00 ,  G01V1/38 ,  G01P15/125

CPC分类号： G01V1/164 ,  G01C19/5712 ,  G01P15/125 ,  G01V1/003 ,  G01V1/18 ,  G01V1/189 ,  G01V1/38 ,  G01V1/3808

摘要： The present disclosure is directed to a MEMS-based rotation sensor for use in seismic data acquisition and sensor units having same. The MEMS-based rotation sensor includes a substrate, an anchor disposed on the substrate and a proof mass coupled to the anchor via a plurality of flexural springs. The proof mass has a first electrode coupled to and extending therefrom. A second electrode is fixed to the substrate, and one of the first and second electrodes is configured to receive an actuation signal, and another of the first and second electrodes is configured to generate an electrical signal having an amplitude corresponding with a degree of angular movement of the first electrode relative to the second electrode. The MEMS-based rotation sensor further includes closed loop circuitry configured to receive the electrical signal and provide the actuation signal. Related methods for using the MEMS-based rotation sensor in seismic data acquisition are also described.

摘要翻译： 本公开涉及用于地震数据采集的基于MEMS的旋转传感器和具有其的传感器单元。 基于MEMS的旋转传感器包括衬底，设置在衬底上的锚和通过多个弯曲弹簧联接到锚固件的校验物质。 证明物质具有连接到其上并从其延伸的第一电极。 第二电极被固定到基板，并且第一和第二电极中的一个被配置为接收致动信号，并且第一和第二电极中的另一个被配置为产生具有对应于角度运动程度的幅度的电信号 的第一电极相对于第二电极。 基于MEMS的旋转传感器还包括闭环电路，其被配置为接收电信号并提供致动信号。 还描述了在地震数据采集中使用基于MEMS的旋转传感器的相关方法。

公开(公告)号：US08730766B2

公开(公告)日：2014-05-20

申请号：US13011358

申请日：2011-01-21

申请人： Dale J. Lambert ,  André W. Olivier ,  Robert E. Rouquette

发明人： Dale J. Lambert ,  André W. Olivier ,  Robert E. Rouquette

IPC分类号： G01V1/18 ,  G01V1/20

CPC分类号： G01V1/18 ,  G01V1/189 ,  G01V1/36 ,  G01V1/38 ,  G01V2210/56

摘要： An underwater seismic system for reducing noise due to ghost reflections or motion through the water from seismic signals. The system includes two motion sensors. One sensor has a first response and is sensitive to platform-motion-induced noise as well as to acoustic waves. The other sensor has a different construction that isolates it from the acoustic waves so that its response is mainly to motion noise. The outputs of the two sensor responses are combined to remove the effects of motion noise. When further combined with a hydrophone signal, noise due to ghost reflections is reduced.

摘要翻译： 一种水下地震系统，用于减少由地震信号引起的幽灵反射或水中运动的噪音。 该系统包括两个运动传感器。 一个传感器具有第一响应并对平台运动引起的噪声以及声波敏感。 另一种传感器具有不同的结构，将其与声波隔离，使得其响应主要是运动噪声。 组合两个传感器响应的输出以消除运动噪声的影响。 当与水听器信号进一步组合时，由于重影反射而引起的噪音降低。

公开(公告)号：US20060215490A1

公开(公告)日：2006-09-28

申请号：US11198477

申请日：2005-08-05

申请人： Stig Tenghamn ,  Audun Sodal ,  Andre Stenzel

发明人： Stig Tenghamn ,  Audun Sodal ,  Andre Stenzel

IPC分类号： G01V1/38

CPC分类号： G01V1/181 ,  G01V1/185 ,  G01V1/189 ,  G01V1/3808 ,  G01V2210/56

摘要： In one embodiment the invention comprises a particle velocity sensor that includes a housing with a geophone mounted in the housing. A fluid that substantially surrounds the geophone is included within the housing. The particle velocity sensor has an acoustic impedance within the range of about 750,000 Newton seconds per cubic meter (Ns/m3) to about 3,000,000 Newton seconds per cubic meter (Ns/m3). In another embodiment the invention comprises method of geophysical exploration in which a seismic signal is generated in a body of water and detected with a plurality of co-located particle velocity sensors and pressure gradient sensors positioned within a seismic cable. The output signal of either or both of the particle velocity sensors or the pressure gradient sensors is modified to substantially equalize the output signals from the particle velocity sensors and the pressure gradient sensors. The output signals from particle velocity sensors and pressure gradient sensors are then combined.

摘要翻译： 在一个实施例中，本发明包括粒子速度传感器，其包括具有安装在壳体中的地震检波器的壳体。 基本上围绕地震检波器的流体包括在壳体内。 粒子速度传感器的声阻抗在每立方米约750,000牛顿秒（Ns / m 3）至约3,000,000牛顿秒/立方米（Ns / m 3 / SUP>）。 在另一个实施例中，本发明包括地球物理勘探方法，其中在水体中产生地震信号并且利用位于地震缆索内的多个共同定位的粒子速度传感器和压力梯度传感器进行检测。 粒子速度传感器或压力梯度传感器中的任一个或两者的输出信号被修改为基本上均衡来自粒子速度传感器和压力梯度传感器的输出信号。 然后组合来自粒子速度传感器和压力梯度传感器的输出信号。

公开(公告)号：US20040035634A1

公开(公告)日：2004-02-26

申请号：US10228375

申请日：2002-08-26

发明人： Horst Rueter

IPC分类号： G01V001/16

CPC分类号： G01V1/189 ,  G01V1/184

摘要： A wellbore seismic receiver system is disclosed which includes a system housing adapted to traverse a wellbore and a sensor housing adapted to be placed in contact with a wall of the wellbore. The sensor housing has at least one seismic sensor disposed therein. A compliant chamber couples the sensor housing to the system housing, and a controllable source of pressurized gas is coupled to an interior of the chamber. The gas source is adapted to selectively pressurize the chamber to place the sensor housing in contact with the wall of the wellbore.

摘要翻译： 公开了一种井眼地震接收系统，其包括适于横穿井筒的系统壳体和适于与井眼的壁接触放置的传感器壳体。 传感器外壳中至少设有一个地震传感器。 柔性腔室将传感器壳体耦合到系统壳体，并且可控的加压气体源耦合到腔室的内部。 气源适于选择性地加压腔室以使传感器壳体与井眼的壁接触。

公开(公告)号：US20180275295A1

公开(公告)日：2018-09-27

申请号：US15466677

申请日：2017-03-22

申请人： STELLAR SOLUTIONS, INC.

发明人： Thomas BLEIER ,  Karl KAPPLER ,  John DOERING ,  Laura MACLEAN ,  Dan SCHNEIDER ,  James LEMON ,  Dan COUGHLIN

IPC分类号： G01V1/00 ,  H04L29/08 ,  G01V1/18 ,  G01V1/24 ,  G01V1/30 ,  G06K9/00 ,  G06K9/40 ,  G06K9/62

CPC分类号： G01V1/008 ,  G01V1/189 ,  G01V1/24 ,  G01V1/30 ,  G06K9/0051 ,  G06K9/0055 ,  G06K9/40 ,  G06K9/6247 ,  H04L67/12 ,  Y04S40/18

摘要： A system for predicting occurrence of earthquakes greater than magnitude 4.5 within 24-48 hours includes a plurality of sensor stations in communication with a data center. The sensor stations collect data from three induction magnetometers, two ion detectors (positive and negative), a geophone, and temperature and humidity sensors. Infrared data for the area around the station is also collected and evaluated at the data center. Other sensors may be deployed to detect, identify, and eliminate signals that are attributed to noise. Noise sources may include solar storms, lightning, vehicles, electric trains, and other local machinery or man-made sources. Using the captured data, the data center applies signal-processing algorithms to identify patterns in the collected data that match known data patterns which have immediately preceded earthquakes.

公开(公告)号：US09910063B2

公开(公告)日：2018-03-06

申请号：US15019831

申请日：2016-02-09

申请人： PGS Geophysical AS

发明人： Gustav Göran Mattias Südow ,  Stian Hegna

IPC分类号： G01C21/16 ,  G01P21/00 ,  G01V1/20 ,  G01V1/38 ,  G01C9/02 ,  G01P15/02 ,  G01V11/00 ,  B63B21/66 ,  G01V1/18 ,  G01V3/18

CPC分类号： G01P21/00 ,  B63B21/66 ,  G01C9/02 ,  G01C21/16 ,  G01C21/165 ,  G01P15/02 ,  G01V1/184 ,  G01V1/189 ,  G01V1/201 ,  G01V1/3808 ,  G01V3/18 ,  G01V11/00

摘要： Included are methods and systems for marine geophysical surveying. A system includes a streamer; a sensor package coupled to the streamer, wherein the sensor package comprises a primary orientation sensor and a complimentary orientation sensor, wherein the complimentary orientation sensor comprises a magnetometer, wherein the primary orientation sensor and the complimentary orientation sensor are capable of collecting data indicative of the orientation of the streamer; and geophysical sensors distributed on the streamer.