Genbao Shi - Sugar Land TX, US Richard L. Chambers - Bixby OK, US Jeffrey M. Yarus - Houston TX, US
Assignee:
Landmark Graphics Corporation, a Halliburton Company - Houston TX
International Classification:
G06F 17/10
US Classification:
703 2
Abstract:
Systems and methods for computing a variogram model, which utilize a variogram map and a rose diagram to compute the variogram model. The variogram model may be validated in real-time to provide immediate feedback without the need to interpolate or simulate the real data.
Systems And Methods For Creating A Surface In A Faulted Space
Genbao Shi - Sugar Land TX, US Zitao Xu - Katy TX, US Jeffrey Yarus - Houston TX, US Richard L. Chambers - Bixby OK, US Randy Guetter - Detroit Lakes MN, US
Assignee:
Landmark Graphics Corporation - Houston TX
International Classification:
G06F 17/17
US Classification:
703 2
Abstract:
Systems and methods for creating a surface in a faulted space, which includes using interpolation techniques.
Systems And Methods For Computing A Default 3D Variogram Model
Jeffrey Yarus - Houston TX, US Genbao Shi - Sugar Land TX, US Richard L. Chambers - Bixby OK, US
Assignee:
Landmark Graphics Corporation - Houston TX
International Classification:
G06F 17/50
US Classification:
703 2
Abstract:
Systems and methods for computing a variogram model, which utilize a vertical experimental variogram and a horizontal experimental variogram to calculate a 3D default variogram model.
Stratigraphic Modeling Using Production Data Density Profiles
Jeffrey M. YARUS - Houston TX, US Marko MAUCEC - Englewood CO, US Gustavo CARVAJAL - Katy TX, US Genbao SHI - Sugar Land TX, US Richard L. CHAMBERS - Bixby OK, US
Assignee:
LANDMARK GRAPHICS CORPORATION - Houston TX
International Classification:
G06F 19/00
US Classification:
702 11
Abstract:
The present disclosure describes systems and methods for performing stratigraphic modeling using production data density profiles. At least some illustrative embodiments include a production logging tool data processing method that includes measuring one or more characteristics of a formation within a borehole, of fluids within the formation or of fluids within the borehole, calculating a density profile of each of the one or more characteristics, and defining a boundary between two reservoir simulation cells based at least in part upon the density profile. The method further includes performing a simulation of a production field including the borehole using said simulation cells and presenting the simulation results to a user.
- Houston TX, US Genbao Shi - Sugarland TX, US Mehran Hassanpour - Houston TX, US
Assignee:
Landmark Graphics Corporation - Houston TX
International Classification:
G06F 30/20 E21B 49/00 E21B 47/00
Abstract:
A method for processing a well data log may comprise adding one or more boundary areas to the well data log, dividing the well data log into one or more segments using the one or more boundary areas, processing each of the one or more segments on one or more information handling systems, and reforming each of the one or more segments into a final simulation. A system for processing a well data log may comprise one or more information handling systems in a cluster. The one or more information handling systems may be configured to perform the method for processing the well data log.
- Houston TX, US Rae Mohan Srivastava - Toronto, CA Yevgeniy Zagayevskiy - Houston TX, US Gaetan Bardy - Spring TX, US Maurice Gehin - Houston TX, US Genbao Shi - Sugarland TX, US
Assignee:
Landmark Graphics Corporation - Houston TX
International Classification:
G06T 17/05 G06F 16/29 G06T 19/20
Abstract:
A method for creating a seamless scalable geological model may comprise identifying one or more geological scales, establishing a geological tied system, identifying one or more graphical resolution levels for each of the one or more geological scales, constructing the seamless scalable geological model, and producing a post-process model. A system for creating a seamless scalable geological model may comprise an information handling system, which may comprise a random access memory, a graphics module, a main memory, a secondary memory, and one or more processors configured to run a seamless scalable geological model software.