Patents by Inventor Sirui Tan
Sirui Tan 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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Publication number: 20220341968Abstract: A probe chip consisting of multiple probes integrated on a single substrate. The layout of the probes could be designed to match specific features on the device under test. The probes are spring-loaded to allow for reversible deformation during contacting of the device under test. The probe chip provides for detailed electrical and mechanical testing of integrated circuits (IC).Type: ApplicationFiled: June 16, 2020Publication date: October 27, 2022Applicant: Xallent LLCInventors: Kwame Amponsah, Mehmet Ozdogan, Sirui Tan
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Patent number: 11360224Abstract: A method and apparatus for identifying features of a subsurface region, including: obtaining an initial physical property model and survey data for the subsurface region; identifying a current model to be the initial physical property model; and executing one or more iterations of: generating synthetic data and forward wavefields with the current model and the survey data by forward modeling with forward wave equations representing isotropic wave-mode-independent attenuation; generating adjoint wavefields with the synthetic data and the survey data by adjoint modeling with adjoint wave equations representing isotropic wave-mode-independent attenuation; computing an objective function gradient with the forward wavefields and the adjoint wavefields by solving gradient equations with the corresponding wave equations representing isotropic wave-mode-independent attenuation; computing a search direction of the objective function; searching for a possible improved model along the search direction; and updating theType: GrantFiled: March 2, 2020Date of Patent: June 14, 2022Assignee: ExxonMobil Upstream Research CompanyInventors: Sirui Tan, John E. Anderson, Sunwoong Lee
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Patent number: 11340366Abstract: Iterative methods for inversion of seismic data to update a physical property model are disclosed. Such methods may comprise iteratively updating the model until a first predetermined resolution is achieved, using full wavefield inversion of the seismic data up to a first frequency threshold and assuming the seismic data is free of attenuation effects; extracting geobodies from the updated model; obtaining a Q model using the geobodies; and updating the physical property model using an inversion process, wherein the Q model is incorporated into the inversion process. These steps may be repeated until a second predetermined resolution of the physical property model is achieved, wherein the first frequency threshold is progressively increased in each repetition. The Q model may be updated with seismic data at all available frequencies to obtain a full-band Q model; and the physical property model may be updated using full-band migration and the full-band Q model.Type: GrantFiled: September 16, 2019Date of Patent: May 24, 2022Assignee: ExxonMobil Upstream Research CompanyInventors: Anatoly I. Baumstein, Gboyega Ayeni, Carey M. Marcinkovich, Jaewoo Park, Sirui Tan, Peter Traynin
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Patent number: 11231514Abstract: A method and apparatus for generating attenuation-compensated images of subsurface region, including: computing an image of the region utilizing elastic wave propagation, based on field data and subsurface model; generating forward-modeled data utilizing forward viscoelastic wave propagation, based on the image; computing secondary image by migration; computing NMF based on the images; and applying the NMF to the image to generate the attenuation-compensated image. A method and apparatus includes: iteratively computing attenuation-compensated gradient of the region utilizing an elastic wave propagation operator in the back-propagation and a viscoelastic wave propagation operator in the forward modelling, based on field data and subsurface model; computing search direction based on the attenuation-compensated gradient, searching for an improved model, and checking the improved model for convergence.Type: GrantFiled: December 15, 2020Date of Patent: January 25, 2022Assignee: ExxonMobil Upstream Research CompanyInventors: Sirui Tan, Junzhe Sun
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Publication number: 20210302608Abstract: A method and apparatus for generating attenuation-compensated images of subsurface region, including: computing an image of the region utilizing elastic wave propagation, based on field data and subsurface model; generating forward-modeled data utilizing forward viscoelastic wave propagation, based on the image; computing secondary image by migration; computing NMF based on the images; and applying the NMF to the image to generate the attenuation-compensated image. A method and apparatus includes: iteratively computing attenuation-compensated gradient of the region utilizing an elastic wave propagation operator in the back-propagation and a viscoelastic wave propagation operator in the forward modelling, based on field data and subsurface model; computing search direction based on the attenuation-compensated gradient, searching for an improved model, and checking the improved model for convergence.Type: ApplicationFiled: December 15, 2020Publication date: September 30, 2021Inventors: Sirui Tan, Junzhe Sun
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Publication number: 20210041589Abstract: Seismic data processing may include computing the travel time shift between two seismic signals or the depth shift between two seismic images. In Full Waveform Inversion (FWI), the travel time difference between an observed trace and a simulated trace may be computed such that the two traces match after the travel time shift is applied to the observed trace. The travel time shift may be computed based on a constrained optimization that maximizes the windowed cross-correlation between the two seismic traces by constraining the time derivative of the travel time shift to be less than a constant while maximizing the windowed cross-correlation. Further, the travel time shift may be computed during the model line search in FWI by computing a plurality of travel time shifts where a first travel time shift is dependent on the observed trace and a second travel time shift is independent of the observed trace.Type: ApplicationFiled: May 6, 2020Publication date: February 11, 2021Inventors: Hong Zhao, Valeriy Brytik, Anatoly I. Baumstein, Yaxun Tang, Sirui Tan
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Publication number: 20200348430Abstract: A method and apparatus for identifying features of a subsurface region, including: obtaining an initial physical property model and survey data for the subsurface region; identifying a current model to be the initial physical property model; and executing one or more iterations of: generating synthetic data and forward wavefields with the current model and the survey data by forward modeling with forward wave equations representing isotropic wave-mode-independent attenuation; generating adjoint wavefields with the synthetic data and the survey data by adjoint modeling with adjoint wave equations representing isotropic wave-mode-independent attenuation; computing an objective function gradient with the forward wavefields and the adjoint wavefields by solving gradient equations with the corresponding wave equations representing isotropic wave-mode-independent attenuation; computing a search direction of the objective function; searching for a possible improved model along the search direction; and updating theType: ApplicationFiled: March 2, 2020Publication date: November 5, 2020Inventors: Sirui Tan, John E. Anderson, Sunwoong Lee
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Publication number: 20200124752Abstract: Iterative methods for inversion of seismic data to update a physical property model are disclosed. Such methods may comprise iteratively updating the model until a first predetermined resolution is achieved, using full wavefield inversion of the seismic data up to a first frequency threshold and assuming the seismic data is free of attenuation effects; extracting geobodies from the updated model; obtaining a Q model using the geobodies; and updating the physical property model using an inversion process, wherein the Q model is incorporated into the inversion process. These steps may be repeated until a second predetermined resolution of the physical property model is achieved, wherein the first frequency threshold is progressively increased in each repetition. The Q model may be updated with seismic data at all available frequencies to obtain a full-band Q model; and the physical property model may be updated using full-band migration and the full-band Q model.Type: ApplicationFiled: September 16, 2019Publication date: April 23, 2020Inventors: Anatoly I. Baumstein, Gboyega Ayeni, Carey M. Marcinkovich, Jaewoo Park, Sirui Tan, Peter Traynin
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Patent number: 10459096Abstract: A method for iteratively inverting seismic data to jointly infer a model for at least P-wave velocity and attenuation parameters of the subsurface, the method including: jointly inverting the P-wave velocity and attenuation parameters with an iterative visco-acoustic full wavefield inversion process, wherein the iterative visco-acoustic full wavefield inversion process includes computing a gradient of an objective function, the objective function measuring a misfit between all or part of the seismic data and corresponding model-simulated seismic data; for each of the P-wave velocity and attenuation parameters, computing a search direction in model space from the gradient; determining line search step sizes ? and ? for the search directions for the P-wave velocity and attenuation parameters, respectively, wherein a ratio of the step sizes is a function of the P-wave velocity parameter; and using the step sizes ? and ? and the search directions for each of the P-wave velocity and attenuation parameters, computiType: GrantFiled: June 6, 2017Date of Patent: October 29, 2019Assignee: ExxonMobil Upstream Research CompanyInventors: Sirui Tan, Yaxun Tang, Anatoly I. Baumstein, Gboyega Ayeni, Tetyana Vdovina, Thomas A. Dickens
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Publication number: 20180017690Abstract: A method for iteratively inverting seismic data to jointly infer a model for at least P-wave velocity and attenuation parameters of the subsurface, the method including: jointly inverting the P-wave velocity and attenuation parameters with an iterative visco-acoustic full wavefield inversion process, wherein the iterative visco-acoustic full wavefield inversion process includes computing a gradient of an objective function, the objective function measuring a misfit between all or part of the seismic data and corresponding model-simulated seismic data; for each of the P-wave velocity and attenuation parameters, computing a search direction in model space from the gradient; determining line search step sizes ? and ? for the search directions for the P-wave velocity and attenuation parameters, respectively, wherein a ratio of the step sizes is a function of the P-wave velocity parameter; and using the step sizes ? and ? and the search directions for each of the P-wave velocity and attenuation parameters, computiType: ApplicationFiled: June 6, 2017Publication date: January 18, 2018Inventors: Sirui Tan, Yaxun Tang, Anatoly I. Baumstein, Gboyega Ayeni, Tetyana Vdovina, Thomas A. Dickens