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21. 发明授权

US08644111B2 Method and system for transmission of seismic data 有权
公开(公告)号：US08644111B2
公开(公告)日：2014-02-04
申请号：US13569990
申请日：2012-08-08
申请人： Clifford H. Ray , Glenn D. Fisseler
发明人： Clifford H. Ray , Glenn D. Fisseler
IPC分类号： G01V1/00
CPC分类号： G01V1/22 , G01V1/00 , G01V1/003 , G01V1/223 , G01V1/226
摘要： The transmission method utilizes multiple seismic acquisition units within an array as intermediate short range radio receivers/transmitters to pass collected seismic data in relay fashion back to a control station. Any one seismic unit in the array is capable of transmitting radio signals to several other seismic units positioned within radio range of the transmitting unit, thus allowing the system to select an optimal transmission path. Utilizing an array of seismic units permits transmission routes back to a control station to be varied as needed. In transmissions from the most remote seismic unit to the control station, each unit within a string receives seismic data from other units and transmits the received seismic data along with the receiving unit's locally stored seismic data. Preferably, as a transmission is passed along a chain, it is bounced between seismic units so as to be relayed by each unit in the array.

22. 发明授权

US08605547B2 Method for transmission of seismic data 有权
标题翻译：地震数据传输方法
公开(公告)号：US08605547B2
公开(公告)日：2013-12-10
申请号：US13296329
申请日：2011-11-15
申请人： Clifford H. Ray , Glenn D. Fisseler
发明人： Clifford H. Ray , Glenn D. Fisseler
IPC分类号： G01V1/22
CPC分类号： G01V1/223 , G01V1/22 , G01V1/3808 , G01V1/3852 , H04Q9/00 , H04Q2209/43
摘要： The transmission system combines a self-contained, wireless seismic acquisition unit and a wireless, line-of-site, communications unit to form a plurality of individual short-range transmission networks and also a mid-range line-of-site transmission network. Each seismic unit has a power source, a short-range transceiver and a geophone disposed within a casing. Each wireless communications unit is formed of an elongated support structure on which is mounted an independent power source, mid-range radio transceiver and a short-range transceiver configured to wirelessly communicate with the short-range transceiver of the acquisition unit. Preferably, the acquisition unit is buried under the ground surface, while the wireless communications unit is positioned adjacent in the near vicinity of the buried unit and vertically protrudes above the ground. The acquisition unit and the wireless communications unit communicate by short-range transmissions, while the wireless communications unit communicates with other seismic acquisition systems using mid-range radio transmission.
摘要翻译：传输系统结合了独立的无线地震采集单元和无线的现场线路通信单元，以形成多个单独的短距离传输网络，以及中端现场传输网络。每个地震单元具有设置在壳体内的电源，短距离收发器和地震检波器。每个无线通信单元由细长的支撑结构形成，其上安装有独立的电源，中档无线电收发器和配置成与采集单元的短距离收发器无线通信的短距离收发器。优选地，采集单元被埋在地表面下方，而无线通信单元位于邻近的掩埋单元附近并垂直地突出在地面上方。采集单元和无线通信单元通过短距离传输进行通信，而无线通信单元与使用中档无线电传输的其它地震采集系统进行通信。

23. 发明授权

US08534959B2 Method and apparatus for deployment of ocean bottom seismometers 有权
标题翻译：用于部署海底地震仪的方法和装置
公开(公告)号：US08534959B2
公开(公告)日：2013-09-17
申请号：US11037031
申请日：2005-01-17
申请人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe , Stephen W. Mitchell , William E. Boone
发明人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe , Stephen W. Mitchell , William E. Boone
IPC分类号： G01V1/16 , G01V1/38 , B63C11/52
CPC分类号： G01V1/3852 , B63B22/00 , B63B22/18 , B63B2211/02 , B63C11/00 , B63G8/00 , B63G8/001 , B63G2008/004 , B63G2008/007
摘要： A deployment and retrieval apparatus for ocean bottom seismic receivers, the apparatus being a remotely operated vehicle (ROV) having a carrier attached thereto and carrying a plurality of receivers. The carrier comprises a frame in which is mounted a structure for seating and releasing said receivers. The structure may comprise a movable carousel or a movable conveyor or fixed parallel rails or a barrel. The structure includes a discharge port on said frame and a discharge mechanism for removing and retrieving said receivers. A method for deployment and retrieval of ocean bottom seismic receivers comprises the steps of loading a carrier with a plurality of receivers, attaching said carrier to an ROV, utilizing said ROV to transport the carrier from a surface vessel to a position adjacent the seabed and thereafter utilizing said ROV to remove receivers from said carrier and place the receivers on the seabed.
摘要翻译：一种用于海底地震接收器的部署和检索装置，该装置是具有附接到其上并承载多个接收器的载体的遥控车辆（ROV）。载体包括框架，其中安装有用于安放和释放所述接收器的结构。该结构可以包括可移动的圆盘传送带或可移动的输送机或固定的平行导轨或筒。该结构包括在所述框架上的排出口和用于移除和检索所述接收器的排放机构。用于海底地震接收机的部署和检索的方法包括以下步骤：将具有多个接收器的载体加载，将所述载体连接到ROV，利用所述ROV将载体从地面船运送到邻近海底的位置利用所述ROV从所述载体移除接收器并将接收器放置在海床上。

24. 发明申请

US20120087206A1 Apparatus for Deployment of Ocean Bottom Seismometers 有权
标题翻译：用于部署海洋底部地震仪的装置
公开(公告)号：US20120087206A1
公开(公告)日：2012-04-12
申请号：US13290272
申请日：2011-11-07
申请人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
发明人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
IPC分类号： G01V1/38
CPC分类号： G01V1/3852 , B63B22/00 , B63B22/18 , B63B2211/02 , B63C11/00 , B63G8/00 , B63G8/001 , B63G2008/004 , B63G2008/007
摘要： A deployment and retrieval apparatus for ocean bottom seismic receivers, the apparatus being a remotely operated vehicle (ROV) having a carrier attached thereto and carrying a plurality of receivers. The carrier includes a frame in which is mounted a structure for seating and releasing the receivers. The structure includes one or more movable conveyors disposed to move receivers along a linear path relative to the frame in order to discharge and retrieve ocean bottom seismic receivers.
摘要翻译：一种用于海底地震接收器的部署和检索装置，该装置是具有附接到其上并承载多个接收器的载体的遥控车辆（ROV）。载体包括框架，其中安装有用于放置和释放接收器的结构。该结构包括一个或多个可移动输送机，其设置成沿着相对于框架的线性路径移动接收器以便排出和回收海底地震接收器。

25. 发明授权

US08075226B2 Method and apparatus for deployment of ocean bottom seismometers 有权
标题翻译：用于部署海底地震仪的方法和装置
公开(公告)号：US08075226B2
公开(公告)日：2011-12-13
申请号：US11711353
申请日：2007-02-27
申请人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
发明人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
IPC分类号： G01V1/09 , B63C11/52
CPC分类号： G01V1/3852 , B63B22/00 , B63B22/18 , B63B2211/02 , B63C11/00 , B63G8/00 , B63G8/001 , B63G2008/004 , B63G2008/007
摘要： A deployment and retrieval apparatus for ocean bottom seismic receivers, the apparatus being a remotely operated vehicle (ROV) having a carrier attached thereto and carrying a plurality of receivers. The carrier includes a frame in which is mounted a structure for seating and releasing the receivers. The structure may include a movable conveyor or fixed parallel rails or a barrel. The structure includes a discharge port on the frame and a discharge mechanism for removing and retrieving the receivers. A method for deployment and retrieval of ocean bottom seismic receivers includes the steps of loading a carrier with a plurality of receivers, attaching the carrier to an ROV, utilizing the ROV to transport the carrier from a surface vessel to a position adjacent the seabed and thereafter utilizing the ROV to remove receivers from the carrier and place the receivers on the seabed.
摘要翻译：一种用于海底地震接收器的部署和检索装置，该装置是具有附接到其上并承载多个接收器的载体的遥控车辆（ROV）。载体包括框架，其中安装有用于放置和释放接收器的结构。该结构可以包括可移动的输送机或固定的平行轨道或桶。该结构包括在框架上的排出口和用于移除和取回接收器的排出机构。用于海底地震接收机的部署和检索的方法包括以下步骤：将具有多个接收器的载体加载到ROV上，利用ROV将载体从地面船运送到邻近海底的位置利用ROV从承运人移除接收机并将接收机放置在海床上。

26. 发明申请

US20100293245A1 STORAGE SYSTEM AND METHOD FOR SEISMIC DATA ACQUISITION UNITS 有权
标题翻译：地震数据采集单元的存储系统和方法
公开(公告)号：US20100293245A1
公开(公告)日：2010-11-18
申请号：US12781586
申请日：2010-05-17
申请人： Clifford H. Ray , Glenn D. Fisseler , James N. Thompson , Hal B. Haygood
发明人： Clifford H. Ray , Glenn D. Fisseler , James N. Thompson , Hal B. Haygood
IPC分类号： G06F15/16
CPC分类号： G01V1/3808 , G01V1/166 , G01V1/18 , G01V1/247 , G01V1/38 , G01V1/3852 , G01V2210/1427 , Y10T24/39
摘要： A marine seismic exploration method and system comprised of continuous recording, self-contained ocean bottom pods characterized by low profile casings. An external bumper is provided to promote ocean bottom coupling and prevent fishing net entrapment. Pods are tethered together with flexible, non-rigid, non-conducting cable used to control pod deployment. Pods are deployed and retrieved from a boat deck configured to have a storage system and a handling system to attach pods to cable on-the-fly. The storage system is a juke box configuration of slots wherein individual pods are randomly stored in the slots to permit data extraction, charging, testing and synchronizing without opening the pods. A pod may include an inertial navigation system to determine ocean floor location and a rubidium clock for timing. The system includes mathematical gimballing. The cable may include shear couplings designed to automatically shear apart if a certain level of cable tension is reached.
摘要翻译：海洋地震勘探方法和系统由连续记录，独立的海底荚组成，其特征在于薄型壳体。提供一个外部保险杠，以促进海底耦合并防止捕鱼网捕获。荚被捆绑在一起，用于控制荚部署的柔性，非刚性，不导电的电缆。从配置成具有存储系统的船甲板部署和检索荚，并且将荚直接连接到缆线。存储系统是插槽的自动点播机配置，其中单独的盒被随机存储在插槽中，以允许数据提取，充电，测试和同步而不打开盒。荚可以包括用于确定海底位置的惯性导航系统和用于定时的铷钟。该系统包括数学gimballing。电缆可以包括设计成如果达到一定水平的电缆张力时自动分开的剪切耦合。

27. 发明申请

US20080181055A1 Cable clamping sleeve for ocean bottom seismic recording system 审中-公开
标题翻译：海底地震记录系统电缆夹套
公开(公告)号：US20080181055A1
公开(公告)日：2008-07-31
申请号：US12004529
申请日：2007-12-21
申请人： Clifford H. Ray , Glenn D. Fisseler , James N. Thompson , Hal B. Haygood
发明人： Clifford H. Ray , Glenn D. Fisseler , James N. Thompson , Hal B. Haygood
IPC分类号： G01V1/38 , F16G11/00
摘要： A marine seismic exploration method and system comprised of continuous recording, self-contained ocean bottom pods characterized by low profile casings. An external bumper is provided to promote ocean bottom coupling and prevent fishing net entrapment. Pods are tethered together with flexible, non-rigid, non-conducting cable used to control pod deployment. Pods are deployed and retrieved from a boat deck configured to have a storage system and a handling system to attach pods to cable on-the-fly. The storage system is a juke box configuration of slots wherein individual pods are randomly stored in the slots to permit data extraction, charging, testing and synchronizing without opening the pods. A pod may include an inertial navigation system to determine ocean floor location and a rubidium clock for timing. The system includes mathematical gimballing. The cable may include shear couplings designed to automatically shear apart if a certain level of cable tension is reached.
摘要翻译：海洋地震勘探方法和系统由连续记录，独立的海底荚组成，其特征在于薄型壳体。提供一个外部保险杠，以促进海底耦合并防止捕鱼网捕获。荚被捆绑在一起，用于控制荚部署的柔性，非刚性，不导电的电缆。从配置成具有存储系统的船甲板部署和检索荚，并且将荚直接连接到缆线。存储系统是插槽的自动点播机配置，其中单独的盒被随机存储在插槽中，以允许数据提取，充电，测试和同步而不打开盒。荚可以包括用于确定海底位置的惯性导航系统和用于定时的铷钟。该系统包括数学gimballing。电缆可以包括设计成如果达到一定水平的电缆张力时自动分开的剪切耦合。

28. 发明授权

US07254093B2 Ocean bottom seismometer package with distributed geophones 有权
标题翻译：海底地震仪包与分布式地震检波器
公开(公告)号：US07254093B2
公开(公告)日：2007-08-07
申请号：US10848293
申请日：2004-05-18
申请人： Clifford H. Ray , Glenn D. Fisseler
发明人： Clifford H. Ray , Glenn D. Fisseler
IPC分类号： G01V1/16
CPC分类号： G01V1/3808
摘要： A seismic data collection unit having multiple separate geophones/geophone packages positioned in a housing wherein the geophones are offset from a vertical axis so that summing of the geophones' respective outputs minimizes certain noise in the unit's output. Specifically, the offset geophones are physically positioned or mathematically configured so as to be symmetrical about a selected vertical axis in order to cancel out certain noise in a seismic signal. The particular placement of the geophones within the housing is preferably selected so that the vertical axis around which the geophones are positioned passes through the center of gravity of the unit.
摘要翻译：地震数据采集单元具有位于壳体中的多个独立的地震检波器/地震检波器封装，其中地震检波器偏离垂直轴线，从而使得地震检波器各自输出的相加最小化了该单元输出中的某些噪声。具体地说，偏移地震检波器被物理定位或者数学地配置成关于所选择的垂直轴对称，以抵消地震信号中的某些噪声。优选地选择地震检波器在壳体内的特殊布置，使得地震检波器所围绕的垂直轴线穿过该单元的重心。

29. 发明授权

US08705314B2 Method for deployment of ocean bottom seismometers 有权
标题翻译：海底地震仪的部署方法
公开(公告)号：US08705314B2
公开(公告)日：2014-04-22
申请号：US13290748
申请日：2011-11-07
申请人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
发明人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
IPC分类号： G01V1/38
CPC分类号： G01V1/3852 , B63B22/00 , B63B22/18 , B63B2211/02 , B63C11/00 , B63G8/00 , B63G8/001 , B63G2008/004 , B63G2008/007
摘要： A deployment and retrieval method for ocean bottom seismic receivers, the method employs a remotely operated vehicle (ROV) having a carrier attached thereto to carry a plurality of receivers. The receivers are individually placed on the ocean bottom floor by utilizing a conveyor to move the receivers along a linear path to remove the receivers from the carrier. In one embodiment, multiple linear conveyors may be operated independently to alter the relative positions of the receivers on the respective conveyors to adjust the weight distribution of the receivers within the carrier.
摘要翻译：一种用于海底地震接收机的部署和检索方法，该方法采用具有附着于其上的载体的遥控车辆（ROV）来承载多个接收机。通过利用输送机将接收器单独地放置在海洋底层上，以沿着线性路径移动接收器以从载体移除接收器。在一个实施例中，可以独立地操作多个线性输送机以改变相应输送机上的接收器的相对位置，以调整载体内的接收器的重量分布。

30. 发明申请

US20120087208A1 Method for Deployment of Ocean Bottom Seismometers 有权
标题翻译：海底测力仪的部署方法
公开(公告)号：US20120087208A1
公开(公告)日：2012-04-12
申请号：US13290748
申请日：2011-11-07
申请人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
发明人： James N. Thompson , Clifford H. Ray , Glenn D. Fisseler , Roger L. Fyffe
IPC分类号： G01V1/38
CPC分类号： G01V1/3852 , B63B22/00 , B63B22/18 , B63B2211/02 , B63C11/00 , B63G8/00 , B63G8/001 , B63G2008/004 , B63G2008/007
摘要： A deployment and retrieval method for ocean bottom seismic receivers, the method employs a remotely operated vehicle (ROV) having a carrier attached thereto to carry a plurality of receivers. The receivers are individually placed on the ocean bottom floor by utilizing a conveyor to move the receivers along a linear path to remove the receivers from the carrier. In one embodiment, multiple linear conveyors may be operated independently to alter the relative positions of the receivers on the respective conveyors to adjust the weight distribution of the receivers within the carrier.
摘要翻译：一种用于海底地震接收机的部署和检索方法，该方法采用具有附着于其上的载体的遥控车辆（ROV）来承载多个接收机。通过利用输送机将接收器单独地放置在海洋底层上，以沿着线性路径移动接收器以从载体移除接收器。在一个实施例中，可以独立地操作多个线性输送机以改变相应输送机上的接收器的相对位置，以调整载体内的接收器的重量分布。

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