Patent application number | Description | Published |
20090091573 | Systems and methods for computing a variogram model - Systems and methods for computing a variogram model, which utilize a variogram map and a rose diagram to compute the model. | 04-09-2009 |
20090303233 | Systems and Methods for Imaging a Three-Dimensional Volume of Geometrically Irregular Grid Data Representing a Grid Volume - Systems and methods for imaging a 3D volume of geometrically irregular grid data. The systems and methods utilize various types of probes and displays to render the geometrically irregular grid data, in real-time, and analyze the geometrically irregular grid data. | 12-10-2009 |
20100121622 | Systems and Methods for Computing and Validating a Variogram Model - 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. | 05-13-2010 |
20110205844 | Systems and Methods for Modeling 3D Geological Structures - Systems and methods for modeling a three-dimensional ( | 08-25-2011 |
20110316883 | Systems and Methods for Computing a Variogram Model - Systems and methods for computing a variogram model, which utilize a variogram map and a rose diagram to compute the model. | 12-29-2011 |
20130027398 | Systems and Methods for Modeling 3D Geological Structures - Systems and methods for modeling a three-dimensional (3D) geological structure to improve maximum continuity interpolation. An integration method describes local anisotropic effects and introduces interpolation techniques to perform the interpolation between two points of interest along a direction of maximum continuity and across fault surfaces. | 01-31-2013 |
20130297274 | METHODS AND SYSTEMS REGARDING MODELS OF UNDERGROUND FORMATIONS - Models of underground formations. At least some of the illustrative embodiments are methods including creating a model of an underground formation. The creating may include: calculating a set of probabilities associated with a first horizontal location, each probability indicative of a likelihood of finding abutting geological layers; estimating a plurality of successions of geological layers to create a plurality of estimated successions, and the estimating using the set of probabilities; determining, for each of the estimated succession, a value indicative of how closely each estimated succession matches a measured succession, the measured succession determined by a seismic survey; and selecting from the plurality of estimated successions based on the values, the selecting creates a selected succession of geological layers, and the plurality of modeled values associated with the first horizontal location determined based on the selected succession of geological layers. | 11-07-2013 |
20140032118 | STRATIGRAPHIC MODELING USING PRODUCTION DATA DENSITY PROFILES - 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. | 01-30-2014 |
20140078140 | Systems and Methods for Modeling 3D Geological Structures - Systems and methods for modeling a three-dimensional (3D) geological structure to improve maximum continuity interpolation. An integration method describes local anisotropic effects and introduces interpolation techniques to perform the interpolation between two points of interest along a direction of maximum continuity and across fault surfaces. | 03-20-2014 |