Patents by Inventor Dagang Wu
Dagang Wu has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9927551Abstract: In some embodiments, an apparatus and a system, as well as a method and an article, may operate to obtain a plurality of measurements of a formation parameter, each measurement obtained in response to energy propagated into the formation at a plurality of frequencies of propagated energy; to process the measurements over each of the plurality of frequencies to obtain estimated values of the formation parameter; to select an estimated value from the obtained estimated values for each logging depth as a true measurement value for the logging depth based on one or more of the plurality of frequencies and a resistivity range; to generate a combination log that combines a plurality of the true measurement values for each logging depth; and to control a drilling operation based on the combination log. Additional apparatus, systems, and methods are disclosed.Type: GrantFiled: December 27, 2013Date of Patent: March 27, 2018Assignee: Halliburton Energy Services, Inc.Inventors: Junsheng Hou, Luis Emilio San Martin, Dagang Wu, Burkay Donderici
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Publication number: 20170254921Abstract: Fast-changing dip formation resistivity estimation methods and systems, including a formation resistivity estimation method that includes estimating an initial horizontal resistivity based upon acquired formation logging data and determining an initial value set of one or more value sets. The method further includes determining each additional value set of the one or more value sets using a 1-dimensional inversion initialized with a previously determined value set of the one or more value sets, and displaying a final value set of the one or more value sets. Each of the 1-dimensional inversions is performed using a cross-bedded formation model, and each of the one or more value sets includes one or more parameters selected from the group consisting of a horizontal resistivity, a vertical resistivity, a formation dip angle, a formation azimuth angle, a tool inclination angle, a tool azimuth angle and a depth.Type: ApplicationFiled: October 17, 2014Publication date: September 7, 2017Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Dagang WU, Luis E. SAN MARTIN, Burkay DONDERICI
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Publication number: 20170235011Abstract: An estimated value for invasion depth of an invasion zone in a subsurface measurement zone is calculated in a one-dimensional optimization procedure based on multi-array laterolog measurement data. A one-dimensional optimization problem is defined as having the invasion depth as a sole variable measurement zone parameter. The one-dimensional optimization problem is then solved by automated, iterative modification of the invasion depth value. The one-dimensional optimization problem can be a function to minimize a misfit error between (a) multi-array measurement values for resistivity of the subsurface measurement zone, and (b) predicted measurement values calculated in accordance with a simulated measurement zone model based at least in part on the invasion depth.Type: ApplicationFiled: January 31, 2017Publication date: August 17, 2017Inventor: Dagang Wu
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Publication number: 20170167241Abstract: A multi-string corrosion monitoring method includes using a first set of electromagnetic (EM) log data to calculate attributes of a first casing string while attributes of a second casing string are assigned a fixed value. The method also includes using a second set of EM log data to calculate attributes of a second casing string while attributes of the first casing string are assigned a fixed value.Type: ApplicationFiled: April 7, 2015Publication date: June 15, 2017Applicant: HALLIVURTON ENERGY SERVICES, INC.Inventors: Dagang Wu, Burkay Donderici
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Patent number: 9651705Abstract: A first broadband magnetic field is induced at a first transmitter position in a well bore drilled through a formation. A first formation magnetic field induced by the first broadband magnetic field is detected at a first receiver position. A second formation magnetic field induced by the first broadband magnetic field is detected at a second receiver position. A second broadband magnetic field is induced at a second transmitter position in the well bore. A third formation magnetic field induced by the second broadband magnetic field is detected at the first receiver position. A fourth formation magnetic field induced by the second broadband magnetic field is detected at the second receiver position. A formation property is computed using a function of the first, second, third, and fourth formation magnetic fields, wherein the function reduces the effect of a casing on the computation of the formation property.Type: GrantFiled: November 21, 2012Date of Patent: May 16, 2017Assignee: Halliburton Energy Services, Inc.Inventors: Dagang Wu, Michael S. Bittar
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Patent number: 9611731Abstract: The disclosure describes enhanced determination of dip and strike/azimuth for real-time MCI data processing in some difficult conditions such as low-dip and low-anisotropy formations using formation properties from surrounding layers. The method is effective for the enhanced determination of dip and azimuth to enhance the inversion accuracy of formation dip and azimuth if the formation anisotropic ratio is low and so reduce the uncertainty of the inverted dip and azimuth.Type: GrantFiled: October 3, 2014Date of Patent: April 4, 2017Assignee: Halliburton Energy Services, Inc.Inventors: Junsheng Hou, Dagang Wu, Burkay Donderici, Luis Emilio San Martin
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Publication number: 20170038493Abstract: A corrosion monitoring method includes obtaining electromagnetic (EM) log, data along a casing string. The method also includes processing the EM log data to estimate casing thickness of the casing string as a function of position, where the processing includes correcting, for junction effects in the casing string.Type: ApplicationFiled: April 7, 2015Publication date: February 9, 2017Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Dagang Wu, Burkay Donderici
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Publication number: 20160290124Abstract: Device, system, and method embodiments provide fluid front monitoring via permanent, casing-mounted electromagnetic (EM) transducers. One or more casing strings have one or more transmit antennas that each encircle a casing string and one or more receive antennas that similarly encircle the casing string, with at least one receive antenna oriented differently from at least one transmit antenna to provide sensitivity to at least one cross-component signal. A processor unit derives an estimated distance to a fluid front, and may further determine a direction and orientation of the fluid front for display to a user. Signals from an array of transmit and receive antennas may be combined, optionally with signals from other boreholes, to locate and track multiple points on the fluid front. In response to the determined location and progress of the front, the processor unit may further provide control settings to adjust injection and/or production rates.Type: ApplicationFiled: November 21, 2013Publication date: October 6, 2016Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Roland E. Chemali, Dagang Wu, Burkay Donderici, MIchael S. Bittar, Luis E. San Martin
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Publication number: 20160291195Abstract: In some aspects, systems and methods are provided for determining formation properties using data from both a high-frequency dielectric tool (HFDT) and an array induction tool (AIT). The system includes a controller in communication with at least one HFDT, at least one ART (which may be a multi-component AIT), and a processing unit. The acquired ART formation data can be processed and used to set constraints on the processing of the acquired HFDT formation data. In aspects, a set of processed HFDT data can be used to reinitialize the ART data processing, to allow for a repeated or iterative evaluation process. The system and method generate values used to determine one or more formation properties such as a resistivity of the formation, the presence of an invasion in the formation, mud resistivity or permittivity, anisotropy characteristics of the formation, and dipping characteristics of the formation.Type: ApplicationFiled: March 19, 2014Publication date: October 6, 2016Inventors: Dagang Wu, Junsheng Hou
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Publication number: 20160282503Abstract: In some embodiments, an apparatus and a system, as well as a method and an article, may operate to obtain a plurality of measurements of a formation parameter, each measurement obtained in response to energy propagated into the formation at a plurality of frequencies of propagated energy; to process the measurements over each of the plurality of frequencies to obtain estimated values of the formation parameter; to select an estimated value from the obtained estimated values for each logging depth as a true measurement value for the logging depth based on one or more of the plurality of frequencies and a resistivity range; to generate a combination log that combines a plurality of the true measurement values for each logging depth; and to control a drilling operation based on the combination log. Additional apparatus, systems, and methods are disclosed.Type: ApplicationFiled: December 27, 2013Publication date: September 29, 2016Applicant: Halliburton Energy Services, Inc.Inventors: Junsheng Hou, Luis Emilio San Martin, Dagang Wu, Burkay Donderici
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Publication number: 20160258273Abstract: The disclosure describes enhanced determination of dip and strike/azimuth for real-time MCI data processing in some difficult conditions such as low-dip and low-anisotropy formations using formation properties from surrounding layers. The method is effective for the enhanced determination of dip and azimuth to enhance the inversion accuracy of formation dip and azimuth if the formation anisotropic ratio is low and so reduce the uncertainty of the inverted dip and azimuth.Type: ApplicationFiled: October 3, 2014Publication date: September 8, 2016Applicant: Halliburton Energy Services, Inc.Inventors: Junsheng Hou, Dagang Wu, Burkay Donderici, Luis Emilio San Martin
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Publication number: 20160202381Abstract: According to aspects of the present disclosure an example downhole tool may include a tool body and a first conformable sensor coupled to the tool body. The first conformable sensor may include a flexible material, with a transmitter and receiver coupled to the flexible material. The downhole tool further may include an arm extendable from the tool body and a pad coupled to the arm. The first conformable sensor may be coupled to the pad.Type: ApplicationFiled: September 30, 2014Publication date: July 14, 2016Inventors: Jim Taylor Hill, Neeraj Sethi, Burkay Donderici, Dagang Wu
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Patent number: 9360584Abstract: Various embodiments include apparatus and methods to detect and locate conductive structures below the earth's surface. Tools can be configured with receiving sensors arranged to receive signals generated from a conductive structure in response to a current flowing on the conductive structure. Magnetic-related values from the signals can be processed, relative to the tool, to determine a position of a conductive structure from which the signal was generated in response to current flowing on the conductive structure. Additional apparatus, systems, and methods are disclosed.Type: GrantFiled: March 4, 2014Date of Patent: June 7, 2016Assignee: Halliburton Energy Services, Inc.Inventors: Shanjun Li, Michael S. Bittar, Dagang Wu
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Patent number: 9354349Abstract: Various embodiments include apparatus and methods to detect and locate conductive structures below the earth's surface. Tools can be configured with receiving sensors arranged to receive signals generated from a conductive structure in response to a current flowing on the conductive structure. Magnetic-related values from the signals can be processed, relative to the tool, to determine a position of a conductive structure from which the signal was generated in response to current flowing on the conductive structure. Additional apparatus, systems, and methods are disclosed.Type: GrantFiled: November 18, 2011Date of Patent: May 31, 2016Assignee: Halliburton Energy Services, Inc.Inventors: Shanjun Li, Michael S. Bittar, Dagang Wu
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Publication number: 20160131791Abstract: Formation properties may he more efficiently derived from measurements of multi-frequency, multi-component array induction tools, by emphasizing the measurements associated with shorter spacings/lower frequencies in certain regions and short-to-middle spacings/higher frequencies in other regions. In at least one embodiment, a disclosed logging system includes a logging tool that when conveyed along a borehole through a formation obtains multi-component transmit-receive antenna coupling measurements with multiple arrays having different antenna spacings; and a processing system that operates on the measurements. The processing system derives from said measurements one or more formation parameter estimates; determines measurement weight coefficients for a cost function based on said one or more formation parameter estimates; and inverts said measurements with said cost function to obtain one or more enhanced parameter estimates.Type: ApplicationFiled: June 19, 2014Publication date: May 12, 2016Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Dagang Wu, Junsheng Hou, Burkay Donderici, Luis E. San Martin
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Publication number: 20160109614Abstract: At least some disclosed resistivity logging system embodiments include a logging tool and a processing system. The logging tool provides multi-component transmitter-receiver coupling measurements to the processing system. The processing system derives from the measurements initial formation parameter estimates based on a first formation model such as a radially-symmetric formation model having anisotropic, but otherwise homogenous dipping formation. The processing system further derives in one or more selected regions a second set of formation parameter estimates based on a second formation model such as a model having a dipping borehole through a series of horizontal formation layers, each having a vertical transverse isotropy.Type: ApplicationFiled: March 11, 2014Publication date: April 21, 2016Applicant: HALLIBURTON ENERGY SERVICE, INC.Inventors: Dagang Wu, Junsheng Hou, Burkay Donderici
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Publication number: 20160084983Abstract: Various embodiments include apparatus and methods that perform a homogeneous inversion processing to data or signals acquired from a multicomponent induction tool operating in a wellbore. The homogeneous inversion processing can be used to provide a quality check of results from radial one dimensional borehole correction processing. Also, the homogeneous inversion processing may be employed as a dip indicator of conventional array induction logging processing. Additional apparatus, systems, and methods are disclosed.Type: ApplicationFiled: September 10, 2013Publication date: March 24, 2016Inventors: Dagang Wu, Luis Emilio San Martin, Burkay Donderici
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Publication number: 20160084982Abstract: An example downhole tool incorporating aspects of the present disclosure may include a tool body and a first flexible material coupled to the tool body. A transmitter may be coupled to the first flexible material. A receiver may coupled to the first flexible material, with the receiver having at least two antenna windings positioned in different orientations. A control unit may be communicably coupled to the transmitter and the receiver, the control unit having a processor and a memory device coupled to the processor, the memory device containing a set of instruction that, when executed by the processor, cause the processor to generate an electromagnetic signal in a downhole element using the transmitter, and measure a response of the downhole element to the electromagnetic signal using the at least two antenna windings of the receiver.Type: ApplicationFiled: September 30, 2014Publication date: March 24, 2016Inventors: Burkay Donderici, Luis San Martin, Dagang Wu
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Publication number: 20160070019Abstract: An estimated value for invasion depth of an invasion zone in a subsurface measurement zone is calculated in a one-dimensional optimization procedure based on multi-array laterolog measurement data. A one-dimensional optimization problem is defined as having the invasion depth as a sole variable measurement zone parameter. The one-dimensional optimization problem is then solved by automated, iterative modification of the invasion depth value. The one-dimensional optimization problem can be a function to minimize a misfit error between (a) multi-array measurement values for resistivity of the subsurface measurement zone, and (b) predicted measurement values calculated in accordance with a simulated measurement zone model based at least in part on the invasion depth.Type: ApplicationFiled: April 11, 2014Publication date: March 10, 2016Inventor: Dagang Wu
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Publication number: 20160054467Abstract: Improved algorithm for estimating anisotropic formation resistivity profile using a multi-component induction tool are disclosed. A method for estimating anisotropic formation resistivity profile of a formation comprises obtaining borehole corrected log data and determining at an azimuth angle of the formation. One or more formation bed boundaries are located and initial formation properties are calculated. One of a plurality of inversion windows is sequentially selected and a one-dimensional inversion of each of the sequentially selected one of the plurality of inversion windows is performed.Type: ApplicationFiled: July 13, 2012Publication date: February 25, 2016Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Shanjun Li, Dagang Wu, Luis E. San Martin, Yumei Tang