Entries |
Document | Title | Date |
20080212841 | METHOD FOR STRATIGRAPHIC INTERPRETATION OF SEISMIC IMAGES - The invention is a method for stratigraphic interpretation of a seismic image for determining a sedimentary history of an underground zone having application to petroleum exploration. The seismic reflectors of the image are digitized by means of an applied shape recognition technique. At least one attribute characteristic of the structure of the image in the vicinity of each reflector is calculated for a set of reflectors by means of an image analysis technique. This analysis is based on at least one analysis window whose shape is controlled by the associated reflector. Pertinent reflectors, in the sense of the stratigraphic interpretation, are selected from among this set of reflectors on the basis of this attribute. Finally, the sedimentary history of the underground zone is reconstructed from a stratigraphic interpretation of the reflectors thus selected. | 09-04-2008 |
20080273759 | Geospatial Modeling System Providing Non-Linear Inpainting for Voids in Geospatial Model Terrain Data and Related Methods - A geospatial modeling system may include a geospatial model database and a processor. The processor may cooperate with the geospatial model database for inpainting data into at least one void in geospatial model terrain data based upon propagating contour data from outside the at least one void into the at least one void. | 11-06-2008 |
20090080705 | ROCK CORE LOGGING - The invention is provides a method of logging rock core. A digital photograph of core from a borehole is taken and the image is first processed. This involves calibration and correction, or un-distortion, of the digital image. A reference frame is included in the photograph to facilitate processing. The two-dimensional image is then used as a virtual three-dimensional model of the core enabling length and angle measurements to be logged. These include linear rock interval measurements as well as angular measurements of geological structures. The method is implemented using a software program which enables suitable hardware. The software program will be provided on a suitable computer readable medium. Manually logged data of the same kind is imported for comparison to data logged using the software program. All of this data can be displayed on the image and incrementally on a Stereonet as it is logged. A permanent visual record and reliable means of rapidly assessing the accuracy and quality of the data is provided. The invention also provides for automation of a significant part of the image processing and logging. The reference frame is preferably provided by a rock core tray frame having suitable indicators with known dimensions. The frame is rectangular with orthogonal lines on an upper surface. The mid-points of these lines are marked and spaced apart brackets provide for elevated lines superimposed on the orthogonal lines. | 03-26-2009 |
20090110242 | Geostatistical analysis and classification of core data - A novel database and method of classifying and searchably retrieving measurement data derived from a plurality of rock core and plug sample images that are analyzed to define their principal geostatistical attributes and characteristics, with the resulting analytical data being retrievably stored in a database, the method including calculating spatial variability of images, such as CT scan images, porosity images and other types of available images, quantifying the main image characteristics utilizing multi-azimuth variograms and simplified pattern recognition based on the histogram and variography analysis to thereby provide a means to correlate data from various geographical regions or fields by analyzing data which has the same variographic parameters. | 04-30-2009 |
20090141943 | ANALYZING BOREHOLE BY AUTOMATICALLY EVALUATING PREDICTED BOREHOLE FAILURE IMAGE - A method, system and computer program product for analyzing a borehole drilled in a reservoir are disclosed. A method may include: providing a real borehole image; providing a predicted borehole failure image generated based on an earth formation model; edge detecting the real borehole image to generate an edge detected real borehole image; extracting sub-images from the edge detected real borehole image, each sub-image including an image feature of the edge detected real borehole image oriented in a spatial direction different than that of at least one other sub-image; matching each sub-image to the predicted borehole failure image to determine a matching sub-image; and comparing the predicted borehole failure image with the matching sub-image to determine an accuracy of the predicted borehole failure image. | 06-04-2009 |
20090238413 | METHOD FOR QUANTIFYING METAL COLLOID - A method for quantifying metal colloidal particles carrying to-be-detected analytes, includes producing an inspection sample by developing solution containing the metal colloidal particles on a substrate, generating a plurality of image data about an identical visual field by enlarging and capturing the sample, removing a signal component derived from an impurity existing on the substrate from the image data by comparing the plurality of image data, and measuring the metal colloidal particles from the image data from which the signal component derived from the impurity was removed. | 09-24-2009 |
20090245588 | Method And Apparatus For Determining Particle Parameter And Processor Performance In A Coal And Mineral Processing System | 10-01-2009 |
20090304236 | Method of deriving digital terrain models from digital surface models - A method of deriving a digital terrain model from a digital surface model of an area of interest includes: dividing the area of interest into a plurality of area portions or patches; calculating, from the digital surface model, a set of candidate surfaces adapted to represent a ground surface in each area portion; if such set includes at least two candidate surfaces, estimating a distance from the ground surface of each candidate surface by using a function of a set of geometrical features related to the considered candidate surface, such function being derived from a known relation between a digital surface model and the height of the ground surface in a reference area; selecting, as a representation of the ground surface in each area portion, the candidate surface having the smallest distance from the ground surface, so as to obtain local digital terrain models; and merging the different digital terrain models. | 12-10-2009 |
20100027848 | Structure-independent analysis of 3-D seismic random noise - A system and method identify and display random noise in three dimensional (3-D) seismic data utilizing a 3-D operator to reduce the effects of seismic structure on noise identification. The 3-D operator is derived using statements of required performance in 3-D. The 3-D operator is applied on a pixel-by-pixel basis to each of the pixels in the 3-D post-stacked data to display images in a 3-D display or to output an estimate of noise that is substantially independent of the image structure. The resulting display is generated in colors to indicate noise amplitude to facilitate location of noisy regions in the original display. | 02-04-2010 |
20100040259 | EXTRACTION OF PROCESSED BOREHOLE IMAGE ELEMENTS TO CREATE A COMBINED IMAGE - A method for imaging a subsurface material, the method including: receiving a first image of the subsurface material and a second image of the subsurface material, the first image displaying a first property of the subsurface material and the second image displaying a second property of the subsurface material wherein the first property is different from the second property; and combining the first image and the second image to create a combined image. A system and computer program product are also disclosed. | 02-18-2010 |
20100086180 | SYSTEM, METHOD AND APPARATUS FOR EXPLORATION - In accordance with one embodiment, a method of locating mineral deposits suitable for production comprises obtaining via a computer an image of an area of land, determining from the image at least one fluid-expulsion structure present on the land, designating an area proximate the fluid-expulsion structure as a mineral exploration location; while in accordance with another embodiment a method of locating a hydrocarbon reservoir suitable for production is described which comprises obtaining via a computer an image of an area of land, determining from the image at least one fluid-expulsion structure present on the land, and designating an area proximate the fluid-expulsion structure as a hydrocarbon exploration location. | 04-08-2010 |
20100119118 | GLACIAL GEOMORPHOLOGIC MAPPING - Described herein are implementations of various technologies for a method for mapping glacial geomorphology. A satellite image of an area of interest may be received. A digital elevation model of the area of interest may be received. Plains and ridges may be identified on the digital elevation model. Swamps and forest may be identified on the satellite image. A glaciological map may be generated having glacial features based on the identified plains, ridges, swamps and forest. | 05-13-2010 |
20100128932 | METHOD FOR DETERMINING ROCK PHYSICS RELATIONSHIPS USING COMPUTER TOMOGRAPIC IMAGES THEREOF - A method for estimating a relationship between physical properties of a porous material from a sample thereof includes making a three dimensional tomographic image of the sample of the material. The image is segmented into pixels each representing pore space or rock grains. The image is divided into sub-volumes. A porosity is estimated for each sub-volume. At least one petrophysical parameter is modeled from the image of each sub-volume. A relationship between the porosity and the at least one modeled petrophysical parameter is determined by, e.g., a best-fit statistical method. The relationship and the modeled petrophysical parameter for each sub-volume are stored in a computer or displayed. | 05-27-2010 |
20100128933 | METHOD FOR DETERMINING PROPERTIES OF FRACTURED ROCK FORMATIONS USING COMPUTER TOMOGRAPIC IMAGES THEREOF - A method for estimating a petrophysical parameter from a rock sample includes making a three dimensional tomographic image of the sample of the material. The image is segmented into pixels each representing pore space or rock grain. Porosity of the sample is determined from the segmented image. An image of at least one fracture is introduced into the segmented image to generate a fractured image. The porosity of the fractured image is determined. At least one petrophysical parameter related to the pore-space geometry is estimated from the fractured image. | 05-27-2010 |
20100135536 | METHOD FOR DETERMINING PERMEABILITY OF ROCK FORMATION USING COMPUTER TOMOGRAPIC IMAGES THEREOF - A method for estimating permeability properties of a porous material from a sample thereof includes making a three dimensional tomographic image of the sample of the material. The image is segmented into pixels each representing pore space or rock grains. The image is divided into sub-volumes. A porosity is estimated for each sub-volume. The components of a permeability tensor are determined by conducting simulations. Principal permeability values and directions are then calculated. The permeability properties are stored in a computer or displayed. | 06-03-2010 |
20100183198 | METHOD OF SURFACE SEISMIC IMAGING USING BOTH REFLECTED AND TRANSMITTED WAVES - Reflected-transmitted non-converted and converted seismic waves as used for seismic imaging which is not limited by the angle of inclination of the seismic interfaces. These wave signals are recorded at the surface and are later used to obtain seismic imaging of geological discontinuities and the physical properties of the medium. Known duplex waves are used with transmitted waves for obtaining seismic images from much wider angles, ranging from horizontal to vertical. Two types of migration procedures are used: the first one being based on migration of transmitted compressional and converted duplex waves, and the second one being based on the joint migration of two interrelated fields, such as interferometric principles; for example, the first field of primary waves corresponding to the one time reflected monotypic compressional (non-converted) type of waves and a second wavefield corresponding to secondary waves of more complex origin, such as reflected waves and converted waves. | 07-22-2010 |
20100220895 | DEVICE AND METHOD FOR DISPLAYING FULL AZIMUTH ANGLE DOMAIN IMAGE DATA - A device, system, and method for displaying seismic image data may include computing, from a wide-azimuth data set, a discrete data set associated with an image function at a seismic image point. The discrete data set may be mapped onto a continuous curved three-dimensional surface. The mapped data set may be projected onto a continuous planar surface. The projected data may be displayed as a planar disk. A plurality of continuous planar surfaces, each representing a single image point, may be assembled to form a three-dimensional body, representing a seismic gather of image points. The three-dimensional body may be displayed. Other embodiments are described and claimed. | 09-02-2010 |
20100232651 | Method of Processing Seismic Images of the Subsurface - The processing comprises an analysis of a seismic image to estimate seismic horizons in an area of the subsurface and the calculation of an accumulation value associated with each pixel of the seismic image by accumulation along a set of estimated seismic horizons to form a synthesized image composed of accumulation values. This synthesized image is transformed to obtain a seismic representation in which signed amplitudes are allocated to the pixels of the synthesized image. The transformation may comprise a combination with the original seismic image or else a convolution with a wavelet or another convolution kernel. | 09-16-2010 |
20100272324 | METHOD OF MODELLING AN UNDERGROUND HETEROGENEOUS MEDIUM FROM MULTIPOINT STATISTICS - A method of constructing an image representing the distribution of a categorical physical property representative of an underground zone having applications for petroleum reservoir development. A first training image representative of a geometrical structure of the categorical property is constructed. Training images representative of the distributions of several auxiliary properties are then constructed from the first training image. A probability law of the categorical property and a probability law of each auxiliary property are determined, from each training image, for a given pixel according to the values of the neighboring pixels. A probability law of the categorical property is calculated from these laws and from the images representative of the distribution of the auxiliary physical properties in the zone, and for each pixel of the image to be constructed. Finally, the value of the categorical property is determined by carrying out a random selection for the calculated probability law | 10-28-2010 |
20100284573 | Reducing noise in 3D seismic data while preserving structural details - A system and method perform structure-preserving smoothing (SPS) using a data adaptive method for smoothing 3D post-stacked seismic attributes which reduces random noise while preserving the structure without prior computation of its orientation. The data is smoothed within a neighborhood sub-window along a set of predefined orientations, and the best smoothing result is then selected for output. The orientation corresponding to the best result often approximates the true structure orientation embedded in the data, so that the embedded structure is thus preserved. The SPS method can also be combined with median, alpha-trim, symmetric near neighbor, or edge-preserving filters. The SPS method is an effective way to reduce random noise and eliminate noise footprints, and to enhance coherence and curvature attributes. | 11-11-2010 |
20100290675 | HIGH DEFINITION IMPEDANCE IMAGING - A method for producing a computationally efficient system that reduces the number of iterations required to generate a conductivity image pattern of a subsurface object, and its attendant conductivity distribution, through a solution to the system of field equations that simultaneously satisfies all of the boundary conditions and conserves internal current flux densities. | 11-18-2010 |
20110058710 | DYNAMIC SHAPE APPROXIMATION - Implementations of dynamic shape approximation are described. In one technique described herein, a feature of interest in a first coordinate reference system is accessed and at least a portion of the feature is identified and converted to a second coordinate reference system. In one implementation, the size of the portion is chosen such that the portion can be represented in the second coordinate reference system with an acceptable amount of error. | 03-10-2011 |
20110064277 | Method for interpreting dipping natural fracture and fault planes identified from borehole images - A method of interpreting specific dipping surfaces in earth formations, namely, fracture and fault planes from borehole images. The method is applicable to borehole images obtained from any borehole imaging tool, regardless of tool physics or acquisition type. The interpretation method provides for detailed description of feature s in order to provide a robust framework for subsequent interpretation work. | 03-17-2011 |
20110091078 | IDENTIFYING GEOLOGICAL FEATURES IN AN IMAGE OF AN UNDERGROUND FORMATION SURROUNDING A BOREHOLE - A method for identifying geological features in an image of an underground formation surrounding a borehole. The method comprising: analysing the image properties to identify image regions and defining segments based on the identified image regions. Then identifying segments corresponding to a group relating to a geological feature and analysing the segments of the group to classify the feature as one of a pre-determined type. | 04-21-2011 |
20110305371 | BOREHOLE IMAGE RECONSTRUCTION USING INVERSION AND TOOL SPATIAL SENSITIVITY FUNCTIONS - A method for reconstructing a borehole image includes determining a spatial sensitivity function for a borehole imaging tool and using the imaging tool to obtain a borehole image of a subterranean formation. A reconstructed image is then computed from the borehole image and the spatial sensitivity function. | 12-15-2011 |
20120076364 | IMAGING METHODS AND SYSTEMS FOR DOWNHOLE FLUID ANALYSIS - An example system described herein to perform downhole fluid analysis includes an imaging processor to be positioned downhole in a geological formation, the imaging processor including a plurality of photo detectors to sense light that has contacted a formation fluid in the geological formation, each photo detector to determine respective image data for a respective portion of an image region supported by the imaging processor, and a plurality of processing elements, each processing element being associated with a respective photo detector and to process first image data obtained from the respective photo detector and second image data obtained from at least one neighbor photo detector, and a controller to report measurement data via a telemetry communication link to a receiver to be located outside the geological formation, the measurement data being based on processed data obtained from the plurality of processing elements. | 03-29-2012 |
20120177255 | Secure portable token and systems and methods for identification and authentication of the same - A portable token and systems and methods for identification and authentication of the same are disclosed. The portable token may be utilized for a variety of purposes and uses a thin section of rock as a unique identifying element, which is extremely resistant to forgery or duplication. Identification and authorization of tokens is achieved by a system that uses optical examination of the microstructure and the refractive properties of crystalline minerals within the identifying element, by transmitted polarized light techniques. Comparison between stored reference data and acquired examination data is the basis for verifying authenticity. The naturally-occurring three-dimensional orientations of the optical axes of mineral crystals contribute to the identification information by their effects. | 07-12-2012 |
20120257796 | 3D OBJECT DELINEATION - A method of 3D object delineation from 3D seismic data comprising the steps of, providing 3D seismic data; processing the data based on at least one characteristic whereby said characteristic is extracted from the data and compared with at least one reference characteristic and delineated based on the comparison, and defining a geological element based on the delineation. The characteristics may be adjusted. Data can be processed based on one characteristic then processed based on a second characteristic or data is processed based on two characteristics substantially simultaneously. Data may be processed n times producing n delineations from which the geological element is defined. An algorithm is provided for processing the data which may shift an evolving shape description of an object between explicit and implicit representations, where each shift applies a transformation to the object. Multiple sources of data may be utilised simultaneously to drive the delineation process. | 10-11-2012 |
20120275658 | PETROGRAPHIC IMAGE ANALYSIS FOR DETERMINING CAPILLARY PRESSURE IN POROUS MEDIA - This disclosed subject matter is generally related to methods for characterizing two-dimensional (2D) and three-dimensional (3D) samples to determine pore-body and pore-throat size distributions and capillary pressure curves in porous media using petrographic image analysis. Input includes high-resolution petrographic images and laboratory-derived porosity measurements. Output includes: (1) pore-body and pore-throat size distributions, and (2) simulated capillary pressure curves for both pore bodies and pore throats. | 11-01-2012 |
20120281883 | METHODS TO BUILD 3D DIGITAL MODELS OF POROUS MEDIA USING A COMBINATION OF HIGH- AND LOW-RESOLUTION DATA AND MULTI-POINT STATISTICS - This subject disclosure describes methods to build and/or enhance 3D digital models of porous media by combining high- and low-resolution data to capture large and small pores in single models. High-resolution data includes laser scanning fluorescence microscopy (LSFM), nano computed tomography (CT) scans, and focused ion beam-scanning electron microscopy (FIB-SEM). Low-resolution data includes conventional CT scans, micro computed tomography scans, and synchrotron computed tomography scans. | 11-08-2012 |
20120300987 | FREQUENCY-DEPENDENT RAY TRACING THROUGH AN INTERFACE - Computing systems and methods for improving processing of collected data are disclosed. In one embodiment, while ray-tracing through a sub-surface region, a frequency-dependent outgoing ray direction is computed from a point on an interface disposed in the sub-surface region when the ray tracing is at the interface. | 11-29-2012 |
20130044918 | VIRTUAL WHITE LINES FOR INDICATING PLANNED EXCAVATION SITES ON ELECTRONIC IMAGES - Methods and apparatus for facilitating detection of a presence or an absence of at least one underground facility within a dig area. Source data representing one or more input images of a geographic area including the dig area is electronically received at a first user location, which may be remote from the dig area. The source data is processed so as to display at least a portion of the input image(s) on a display device at the first user location. One or more indicators are added to the displayed input image(s), via a user input device associated with the display device, to provide at least one indication of the dig area and thereby generate a marked-up digital image. In one example, the indicator(s) is/are added to the displayed input image(s) without acquiring geographic coordinates corresponding to the indicator(s). | 02-21-2013 |
20130064431 | Efficient Computation of Wave Equation Migration Angle Gathers - Method for efficient computation of wave equation migration angle gathers by using multiple imaging conditions. Common reflection angle or common azimuth gathers or gathers including both common reflection angles and common azimuth angles are produced as the data are migrated. In the course of either wave equation migration or reverse time migration, the pressures and particle motion velocities that need to be computed are sufficient to also compute the Poynting vector pointing in the direction of source-side ( | 03-14-2013 |
20130077832 | METHOD FOR ANALYZING SEISMIC DATA - A method for analyzing seismic data by generating a post-migration common image gather in a dip angle domain from measured seismic data; detecting concave features related to reflection events in the common image gather and apexes; filtering out part of the concave features in the common image gather in a vicinity of the detected apexes; applying a hybrid Radon transform to the filtered common image gather to separate residues of the concave features from other image features related to diffraction events; and applying an inverse hybrid Radon transform to an image containing the separated features related to diffraction events to obtain a transformed common image gather in the dip angle domain. | 03-28-2013 |
20130083973 | METHOD OF TRACKING DISCONTINUOUS SEISMIC HORIZONS IN SEISMIC IMAGES - The invention targets in particular a method for searching for a seismic horizon in a seismic image of the subsoil. The method notably comprises the designation of two points belonging to the horizon sought, the iterative search for the best solution for the equation of the seismic horizon notably by virtue of a breakdown of this solution into two components, a pseudo-continuous component and a jump component. | 04-04-2013 |
20130094716 | Dual Image Method And System For Generating A Multi-Dimensional Image Of A Sample - The present invention relates in part to a method for generating a multi-dimensional image of a sample which combines different image capturing modalities with data analysis capability for identifying and integrating the higher accuracy image features captured by each respective modality to yield reconciled image data of higher accuracy and consistency. A system which can be used to perform the method also is included. | 04-18-2013 |
20130156270 | Products and Methods for Identifying Rock Samples - Products and methods for identifying rock samples based on an average color value for each rock sample. | 06-20-2013 |
20130170713 | SLABBED CORE FORMAT FOR BOREHOLE IMAGE DATA - A method can include providing borehole data organized with respect to a cylindrical surface, defining one or more bedding planes based at least in part on the borehole data, and transforming at least a portion of the borehole data to a planar slab format for a plane interior to the cylindrical surface. Various other apparatuses, systems, methods, etc., are also disclosed. | 07-04-2013 |
20130236064 | OPTIMIZING SUBTERRANEAN TREATMENT CHARACTERISTIC BY DIGITAL GEOINFORMATICS - Methods for acquiring, cataloguing, and analyzing digital core samples taken of subterranean formations are disclosed. One embodiment provides a method that includes obtaining an image or a series of images of at least a portion of a subterranean formation; simulating, by a computing device, a fracturing characteristic of the subterranean formation based on the image or the series of images; and cataloguing the image or the series of images in a formation fingerprinting database. | 09-12-2013 |
20130259319 | IMAGE SCAN METHOD, SYSTEM AND COMPUTER READABLE MEDIUM - An image scan is performed by obtaining a protocol identifier, determining scan conditions from the protocol identifier, and generating an image of a specimen according to the scan conditions. An image scan system has a computer to determine scan conditions from a protocol assigned to a specimen, and a scan assembly to conduct an image scan of the specimen according the scan conditions. A computer readable medium has instructions to obtain a protocol identifier, instructions to determine scan conditions from the protocol identifier, and instructions to generate an image of a specimen according to the scan conditions. | 10-03-2013 |
20130308831 | Method And System For Estimating Rock Properties From Rock Samples Using Digital Rock Physics Imaging - A method is provided for efficiently characterizing rock traversed while drilling a borehole for hydrocarbon reservoir development. A rock sample can be obtained having a provenance of collection linked to a specific region of the borehole, which is scanned to obtain a 2D digital image that is segmented to pixels characterized as pore space and as mineral matrix and defining a boundary between them. A transform relationship, for example, a form of the Kozeny-Carman equation adapted for application to a 2D segmented image environment, can be applied to calculate the estimated value for a target rock property, which can be absolute permeability, relative permeability, formation factor, elasticity, bulk modulus, shear modulus, compressional velocity, shear velocity, electrical resistivity, or capillary pressure, and the estimated value is used to characterize the rock at that region of the borehole. This affords an opportunity to quickly and efficiently develop massive data directly characterizing extended regions of rock, whether traversed by the borehole in this or a related well. Computerized systems, computer readable media, and programs for performing the methods are also provided. | 11-21-2013 |
20130336541 | GEOLOGICAL LOG DATA PROCESSING METHODS AND APPARATUSES - A method of processing geological log data to construct missing information from destroyed or occluded parts using cues from observed data comprises the steps of: a. in respect of one or more data dimensions associated with missing values in a log data set, decomposing the signal into a plurality of morphological components; and b. morphologically reconstructing the signal such that missing values are estimated. | 12-19-2013 |
20140044315 | Method For Improving The Accuracy Of Rock Property Values Derived From Digital Images - A method for increasing the accuracy of a target property value derived from a rock sample is described in which the sample is scanned to obtain a three-dimensional tomographic digital image which can be processed to pore space and solid material phases through a segmentation process. A process is used which revises the segmented volume, e.g., by increasing pore space connectivity, in a manner affecting the target property value that would be derived. Another described method increases the accuracy with which a segmented volume represents a material sample having structure not adequately resolved in an original three-dimensional tomographic digital image. Further, a system for performing the processes, and a segmented digital volume which more accurately represents a sample of a porous media, are described. | 02-13-2014 |
20140044316 | 3D OBJECT DELINEATION - Disclosed is a method of 3D object delineation from 3D seismic data comprising the steps of providing 3D seismic data ( | 02-13-2014 |
20140050363 | DEVICE AND METHOD FOR DISPLAYING FULL AZIMUTH ANGLE DOMAIN IMAGE DATA - A device, system, and method for displaying seismic image data may include computing, from a wide-azimuth data set, a discrete data set associated with an image function at a seismic image point. The discrete data set may be mapped onto a continuous curved three-dimensional surface. The mapped data set may be projected onto a continuous planar surface. The projected data may be displayed as a planar disk. A plurality of continuous planar surfaces, each representing a single image point, may be assembled to form a three-dimensional body, representing a seismic gather of image points. The three-dimensional body may be displayed. Other embodiments are described and claimed. | 02-20-2014 |
20140056481 | METHODS OF MULTINARY INVERSION FOR IMAGING OBJECTS WITH DISCRETE PHYSICAL PROPERTIES - A method of multinary inversion for imaging objects with discrete physical properties of the examined medium is described. The model parameters of the target area are parameterized in terms of a multinary function of the physical properties that accepts a finite number of discrete values from the continuum of at least one physical property. The multinary function is chosen such that the derivative of the multinary function with respect to the physical property is a continuous and known function. The imaging is based on solving the optimization problem for parametric functional of the multinary functions describing the target model parameters. The method can be applied for multi-modal imaging, such that at least one physical property representing the physical properties of the examined medium, may be derived to provide a reconstruction or classification of the physical properties of the examined medium. | 02-27-2014 |
20140093136 | AUTOMATIC CLASSIFICATION OF THE DEGREE OF MATURATION FOR IRON ORE PELLETS - An automatic method or the classification of the Degrees of Maturation (DM) for fired iron ore pellets, independent of human intervention, based on the digital acquisition of microscopy images of polished cross sections, and their processing, analysis and classification by a suitable software procedure. | 04-03-2014 |
20140093137 | AUTOMATIC MORPHOMETRY AND CLASSIFICATION OF CRYSTALS OF IRON OXIDES - An automatic method for the classification of crystals of iron oxides, including the measurement of oxide crystal size and shape, by a digital microscopy procedure involving image acquisition, processing, analysis, and classification is described. | 04-03-2014 |
20140119612 | METHOD FOR AUTOMATIC QUANTIFICATION OF DENDRITE ARM SPACING IN DENDRITIC MICROSTRUCTURES - A method to automatically quantify dendrite arm spacing in dendritic microstructures. Once a location of interest in a cast material specimen has been identified, the information contained in it is automatically analyzed to quantify dendrite cell size information that is subsequently converted into a quantified dendrite arm spacing through an empirical relationship or a theoretical relationship. In one form, the relationship between DCS and DAS is such that the DAS in dendritic structure of cast aluminum alloys may be automatically determined from the measurement of one or more of dendrite cell size and the actual volume fraction of the eutectic phases in the local casting microstructure. Non-equilibrium conditions may be accounted for in situations where a theoretical volume fraction of a eutectic phase of the alloy in equilibrium condition is appropriately modified. Thus, in situations where equilibrium conditions—such as those where the casting is cooled very slowly during solidification—does not apply (such as during rapid cooling and consequent solidification), the eutectic measured in the non-equilibrium condition, which can be smaller than the theoretical value in equilibrium, can be accounted for. | 05-01-2014 |
20140119613 | AUTOMATIC GEMSTONE ORIENTATION - A method and apparatus for orientating discrete objects, such as gemstones, is described. The method comprises providing the objects on a travelling path; providing a pair of opposed walls ( | 05-01-2014 |
20140126781 | SPATIAL EXPANSION SEISMIC DATA PROCESSING METHOD AND APPARATUS - A method for processing seismic data may include receiving input seismic data (d | 05-08-2014 |
20140140580 | System And Method For Reproducibly Extracting Consistent Horizons From Seismic Images - A system and method is provided for analyst to rapidly and accurately identify and model subsurface geologic horizons, which are bounding surfaces of rock layers, by extracting surfaces from two-dimensional and three-dimensional seismic data. | 05-22-2014 |
20140153785 | METHODS AND SYSTEMS FOR DETECTION AND CHARACTERIZATION OF CHANNEL SYSTEMS - A computer implemented method for detecting a channel system comprises importing channel data, wherein the channel data includes intensity measurements associated with locations in the channel system. The method further comprises calculating, by a processor, directional first derivative data of the intensity measurements; selecting a plurality of localized test wavelets; calculating, by the processor, a plurality of fit-measures, wherein the plurality of fit-measures indicate correlations between the directional first derivatives and the plurality of localized test wavelets; and determining a plurality of selected wavelets from the plurality of localized test wavelets based on the plurality of fit-measures, wherein the plurality of selected wavelets model the channel system. | 06-05-2014 |
20140205153 | SYSTEMS, METHODS AND COMPUTER-ACCESSIBLE MEDIUMS FOR AUTHENTICATION AND VERIFICATION OF PHYSICAL OBJECTS - Exemplary methodology, procedure, system, method and computer-accessible medium can be provided for authenticating a non-digital medium of a physical object, by receiving at least one image of video of at least one marked or unmarked region, and comparing the first microscopic image or video of at least one marked or unmarked region with at least one second microscopic image or video relating to the non-digital medium to determine if a similarity between the first and second microscopic images or videos matches or exceeds a predetermined amount. | 07-24-2014 |
20140212006 | METHOD FOR QUANTITATIVE PREDICTION OF MATRIX ACIDIZING TREATMENT OUTCOMES - In one embodiment, the current application discloses a method comprising: performing a computed tomography (CT) porosity scan on a core sample, the core sample comprising a portion of a formation of interest; in response to the CT porosity scan, interpreting a porosity profile of the core sample; and in response to the porosity profile, modeling a response of a formation of interest to a predetermined treatment to determine a reacted formation configuration, wherein the predetermined treatment comprises an acid fluid treatment schedule, and wherein the modeling further comprises modeling acid fluid flow through the formation of interest having the porosity profile, and wherein the modeling further comprises accounting for acid reaction products during the predetermined treatment and shut-in period. | 07-31-2014 |
20140219511 | Derivative Imaging for Subsurface Object Detection - A series of scans is generated for a subsurface and a derivative image is created using the series of subsurface images. One or more tests are performed on the derivative image, and a subsurface object is detected based on the one or more tests. A sensor is configured to generate a series of scans for a subsurface and a processor is coupled to the sensor. The processor is configured to execute stored program instructions that cause the processor to generate a series of images of the subsurface using the series of scans, create a derivative image using the series of subsurface images, perform one or more tests on the derivative image, and detect a subsurface object based on the one or more tests. | 08-07-2014 |
20140233809 | Method and Device for Processing Geological Information - Disclosed in the disclosure are a method and a device for processing geological information. The method for processing the geological information comprises: acquiring multiple geological image graphs; determining the relation between the image coordinate and the ground coordinate of each of the multiple geological image graphs by an imaging mode of geological images; and joining the multiple geological image graphs together according to the relation between the image coordinate and the ground coordinate of each of the multiple geological image graphs. The large-scale ground images can be acquired by processing the geological images according to the present disclosure. | 08-21-2014 |
20140247969 | IDENTIFICATION OF MULTIPLES CONTAMINATION IN SEISMIC IMAGES - Methods, systems, and computer-readable media for identifying multiples contamination in a stack are provided. The method includes identifying spatially an area of potential multiples contamination in the stack. The method also includes constructing, using a processor, a model of multiples contamination using well data, and evaluating a degree of contamination in the area of potential contamination using the model of multiples contamination. The method further includes attenuating multiples contamination in the areas of multiples contamination, and validating the stack after attenuating. | 09-04-2014 |
20140254884 | Methods of and Apparatuses for Identifying Geological Characteristics in Boreholes - A method of detecting an edge of a geological characteristic in a borehole comprises, in respect of an image log of a length of a borehole, carrying out the steps of a gradient-based edge detection method, a phase congruence-based edge detection method or a combination of such methods as preliminary, pre-processing stages. Subsequent steps of the method may include operating a relatively computationally simple process to identify sinusoids among detected edge features; and a relatively computationally complex process for parameterizing the thus-identified sinusoids. | 09-11-2014 |
20140270393 | SYSTEMS AND METHODS FOR IMPROVING DIRECT NUMERICAL SIMULATION OF MATERIAL PROPERTIES FROM ROCK SAMPLES AND DETERMINING UNCERTAINTY IN THE MATERIAL PROPERTIES - A testing system can analyze a 3D digital volume of a material sample. The testing system can define several test volumes with each test volume including a different numbers of voxels. The test volumes can define the size of portions of the 3D digital volume to analyze. For each test volume, the testing system can acquire two adjacent portions of 3D digital volume that are the size of the test volume currently being analyzed. The testing system can calculate a petrophysical property value for the two adjacent portions of the 3D digital volume and can calculate the difference value between the two adjacent portions of the 3D digital volume. The testing system can repeat the process for the different test volumes. The testing system can plot the mean difference values for the different test volumes. The testing system can analyze the plot to determine a representative elementary volume that meets a predefined difference value. | 09-18-2014 |
20140270394 | Systems and Methods for Improving Direct Numerical Simulation of Material Properties from Rock Samples and Determining Uncertainty in the Material Properties - A testing system for analyzing a 3D digital volume of a material sample. The testing system defines several test volume sizes with each test volume size including a different numbers of voxels, defining the size of portions of the 3D digital volume to analyze. For each test volume size, the testing system acquires two adjacent portions of 3D digital volume at the test volume size currently being analyzed. The testing system calculates a material property value for the two adjacent portions of the 3D digital volume, and a difference value between the two adjacent portions of the 3D digital volume. The process is repeated over the different test volume sizes. The testing system calculates mean difference values for the different test volume sizes, from which it determines a representative elementary volume. | 09-18-2014 |
20140286538 | LWD Real-Time Borehole Image Transmission - Data transmission from a bottom hole assembly (BHA) includes obtaining a scan from multiple scans forming a downhole data log of a borehole within a subterranean formation. The scan includes a sequence of data items from a sensor in the BHA located in the borehole. Each data item corresponds to an azimuth angle of the sensor. Further, compressed scan data is generated from the sequence of data items on a per-scan basis, and transmitted, using a pre-determined borehole telemetry, to a surface unit. | 09-25-2014 |
20140286539 | INVERSION-BASED WORKFLOW FOR PROCESSING NUCLEAR DENSITY IMAGES IN HIGH-ANGLE AND HORIZONTAL WELLS - Methods and apparatus for characterizing a subterranean formation traversed by a wellbore including collecting data from the formation using a tool wherein the tool collects data to form an azimuthal image, characterizing a section of the formation comprising data and images acquired in a high angle wellbore section or horizontal wellbore section using a parametric model, and performing an inversion using apparent densities and volumetric photoelectric factor images to build a formation model wherein the inversion is tailored for high angle wellbore sections and/or horizontal wellbore sections. | 09-25-2014 |
20140307928 | Seismic Velocity Model Updating and Imaging with Elastic Wave Imaging - Method for building a seismic imaging velocity model, particularly at the boundary of a geo-body, and to perform imaging, by taking into account the elastic reflection and scattering information in the seismic data. More illumination of the base and flanks (or in general, the boundary) of the geo-body is provided from (a) inside of the geo-body ( | 10-16-2014 |
20140321713 | WAVE-EQUATION MIGRATION VELOCITY ANALYSIS USING IMAGE WARPING - An objective function is disclosed that extracts the velocity error information directly in the image domain without computing common-image gathers. Because of the dimensionality of the problem, gradient-based methods (such as the conjugate-gradient algorithm) are used in the optimization procedure. In order to include the full complexity of the wavefield in the velocity estimation algorithm, a two-way (as opposed to one-way) wave operator is considered, where the imaging operator is not linearized with respect to the model parameters (as in linearized wave-equation migration velocity analysis), and the gradient of the objective function is determined using the adjoint-state method. The velocity estimation methodology is illustrated with a few synthetic examples. | 10-30-2014 |
20140334690 | METHOD FOR EXAMINING SAMPLES OF UNCONSOLIDATED POROUS MEDIA - A sample of an unconsolidated porous medium is frozen and at subzero temperature is placed into contact with a frozen solution of an X-ray contrast agent. Upon the end of saturation of the sample, X-ray computed microtomography of the sample is conducted at subzero temperatures and by means of analyzing the obtained computer tomograhic image, spatial distribution and concentration of ice and/or gas hydrate inclusions, open and closed porosity, pore size distribution, specific surface in the sample are determined. | 11-13-2014 |
20150023564 | SYSTEM AND METHOD FOR ESTIMATING POROSITY DISTRIBUTION IN SUBTERRANEAN RESERVOIRS - A system and method for estimating porosity distribution in a region of interest of a geologic formation from a resistivity image log representative of the geologic formation is disclosed. A normalization factor representative of a rock matrix based on a first resistivity value and an image point factor based on a second resistivity value are calculated and compared to identify points in the resistivity image log that correspond to the secondary porosity. The normalization factor and image point factor are recalculated based on a different first resistivity value and a different second resistivity value as necessary to identify additional points in the resistivity image log that correspond to the secondary porosity until a termination criterion is met. The method may further include a porosity calibration operation and one or more artifact corrections. | 01-22-2015 |
20150030209 | METHODS OF ANALYZING SEISMIC DATA - A method of analysing seismic data from a geological volume is provided. The geological volume is divided into a plurality of voxels. For each voxel a respective neighbourhood is defined which includes that voxel and a predetermined arrangement of neighbouring voxels. For each voxel, the respective normal vectors of a seismic attribute vector field derived from the seismic data are calculated. For each voxel, a respective local structure tensor based on the normal vectors of the voxels of the respective neighbourhood is calculated. For each voxel, the value of an expression which includes one or more of the eigenvalues (λ | 01-29-2015 |
20150030210 | SIGNAL ENHANCEMENT USING DIVERSITY SHOT STACKING FOR REVERSE TIME MIGRATIONS (DeSSeRT) - A method of processing seismic data so as to provide an image of a sub-surface region, comprises providing plurality of migrated shot gathers that contain information about the region, summing portions of the migrated shot gathers to provide a pilot stack, partitioning the plurality of gathers into a plurality of groups and summing the gathers in each group to provide a substack, wherein each group includes at least two migrated shots and wherein a substack is generated from each group, applying an amplitude normalization algorithm to the pilot stack so as to generate an amplitude-normalized pilot stack, calculating a weight function by comparing each substack to the normalized pilot stack, weighting each substack using the weight function so as to generate a plurality of weighted substacks, summing overlapping portions of the weighted substacks so as to generate a output stack, and using the output stack to generate an image. | 01-29-2015 |
20150043787 | Image-Based Direct Numerical Simulation of Petrophysical Properties Under Simulated Stress and Strain Conditions - A testing system for performing image based direct numerical simulation to characterize petrophysical properties of a rock sample under the simulated deformation condition, for example as representative of subsurface conditions. A digital image volume corresponding to x-ray tomographic images of a rock sample is segmented into its significant elastic phases, such as pore space, clay fraction, grain contacts and mineral type, and overlaid with an unstructured finite element mesh. A simulated deformation is applied to the segmented image volume, and the resulting deformed unstructured mesh is numerically analyzed, for example by way of direct numerical simulation, to determine the desired petrophysical properties. | 02-12-2015 |
20150055833 | Frequency-Dependent Ray Tracing Through an Interface - Computing systems and methods for improving processing of collected data are disclosed. In one embodiment, while ray-tracing through a sub-surface region, a frequency-dependent outgoing ray direction is computed from a point on an interface disposed in the sub-surface region when the ray tracing is at the interface. | 02-26-2015 |
20150063650 | Identifying Potential Fracture Treatment Locations In a Formation Based on Production Potential - The present disclosure relates to identifying potential fracture treatment locations in a rock formation for oil and/or gas production based on production potential. One example method includes receiving internal imaging data of a core sample of a rock formation; generating a digital core sample model of the structure of the core sample based on the internal imaging data; analyzing the core sample model to determine the density distribution of a deposit in the core sample; and determining a production potential value from the density distribution of the deposit. | 03-05-2015 |
20150078625 | LWD Real-Time Borehole Image Transmission - Data transmission from a bottom hole assembly (BHA) includes obtaining a scan from multiple scans forming a downhole data log of a borehole within a subterranean formation. The scan includes a sequence of data items from a sensor in the BHA located in the borehole. Each data item corresponds to an azimuth angle of the sensor. Further, compressed scan data is generated from the sequence of data items on a per-scan basis, and transmitted, using a pre-determined borehole telemetry, to a surface unit. | 03-19-2015 |
20150098627 | Automatic Dip Picking From Wellbore Azimuthal Image Logs - Method for automatically determining a planar event such as a bedding plane from azimuthal wellbore log data ( | 04-09-2015 |
20150104078 | Image Data Processing - A method for processing image data of a sample is disclosed. The method comprises registering a first and a second images of at least partially overlapping spatial regions of the sample and processing data from the registered images to obtain integrated image data comprising information about the sample, said information being additional to that available from said first and second images. | 04-16-2015 |
20150110360 | ITERATIVE STACKING OF SEISMIC IMAGE PARTITIONS - Systems, media, and methods for processing seismic data are disclosed. For example, in one embodiment, the method may include receiving a plurality of partial image partitions of a migrated seismic image, and stacking the plurality of partial image partitions such that a first image is generated. The method may also include aligning the plurality of partial image partitions based at least partially on the first image. Aligning may include adjusting at least one of the plurality of partial image partitions and generating a displacement field. The method may also include, based at least in part on the displacement field, stacking the plurality of aligned partial image partitions to generate a second image. The method may further include based at least in part on the second image, realigning the plurality of aligned partial image partitions. | 04-23-2015 |
20150131866 | METHOD OF CONSTRUCTING A GRID REPRESENTATIVE OF A PROPERTY DISTRIBUTION BY CONDITIONAL MULTIPOINT STATISTICAL SIMULATION - The invention is a method using a computer to construct a grid representative of the distribution of a physical property of an underground formation having application to petroleum reservoir development. A set of initial grid cells MI containing at least one conditioning point PC is defined. Each cell MI is then visited and assigned a value representative of the property using a filling method. At least one unvisited cell (MNV1, MNV2) adjacent to at least one already visited cell MV is then identified, and the number N of adjacent cells MV is determined for each cell (MNV1, MNV2). Each cell (MNV1, MNV2) is then visited and filled according to the decreasing values of N. The stages of identification and filling of cells (MNV1, MNV2) are repeated until each cell of the grid has been visited. | 05-14-2015 |
20150146935 | AUTOMATED WORKFLOW FOR 3D CORE DIGITAL MODELING FROM COMPUTERIZED TOMOGRAPHY SCANNER (CTS) IMAGES - Computer-implemented methods, systems, and non-transitory computer-readable medium having computer program stored therein are provided to enhance the accuracy and efficiency of modeling a core sample from images of two-dimensional transverse sections of a core sample. Embodiments of the invention include, for example, image registering a plurality of images of transverse sections of a core sample to produce aligned transverse sections by approximating the circular location of the boundary of the transverse section and aligning the images based on center points of the approximated circles. Embodiments can further include, for example, performing a saw cut correction on the aligned transverse section images to adjust the images for the slab cut, generating a three-dimensional simulated model of the core sampling using or more of the saw cut line corrected images, and generating a three-dimensional simulated model of the internal composition of a borehole related to the core sample using multipoint statistics calculations. | 05-28-2015 |
20150146936 | AUTOMATED SAW CUT CORRECTION FOR 3D CORE DIGITAL MODELING FROM COMPUTERIZED TOMOGRAPHY SCANNER (CTS) IMAGES - Computer-implemented methods, systems, and non-transitory computer-readable medium having computer program stored therein are provided to enhance the accuracy and efficiency of modeling a core sample from two-dimensional images of the core sample. Embodiments of the invention include, for example, image registering a plurality of images of transverse sections of a core sample to produce aligned transverse sections and performing a saw cut correction on the aligned images to adjust the images for a slab cut. Embodiments of the saw cut correction can include, for example, identifying the saw cut line, approximating the slab cut boundary, and moving a portion of the representation of the image to the periphery of the approximated slab cut boundary. Embodiments can further include, generating three-dimensional models of the core sample and the internal composition of a borehole related to the core sample using the adjusted saw cut line images and multipoint statistics calculations. | 05-28-2015 |
20150310294 | METHOD FOR PROCESSING AN IMAGE - The present invention relates to method for processing an image, said image representing a rock sample. The method comprises receiving said image; for each current threshold value in a plurality of threshold values determining a threshold image, the threshold image having pixels associated with a first color value or a second color value, the determination of the threshold image being based on the received image and the current threshold; and for each current connected set of pixels associated with the first color value in the threshold image, determining a connected volume or a connected surface area of said current connected set of pixels. In addition, the method comprises determining numbers of connected sets of pixels associated with the first color value for a plurality of connected volumes or connected surface areas and for a plurality of thresholds. | 10-29-2015 |
20150381981 | Borehole Image Compression - Devices and methods for obtaining borehole images at a surface installation while a borehole-imaging downhole tool is logging a borehole are provided. One such method may involve, while the downhole tool is disposed in the borehole, obtaining a first borehole image at a first depth of investigation using the borehole-imaging downhole tool. Compression electronics may compress the first borehole image to obtain a first compressed borehole image. Compressing the first borehole image may involve exploiting a symmetry characteristic of the first borehole image to increase compression efficiency or exploiting a similarity of the first borehole image with a second borehole image to increase compression efficiency, or both. The compressed borehole image then may be efficiently transmitted to the surface installation via a telemetry system. | 12-31-2015 |
20160027185 | Methods of and Apparatuses for Identifying Geological Characteristics in Boreholes - A method of detecting an edge of a geological characteristic in a borehole comprises, in respect of an image log of a length of a borehole, carrying out the steps of a gradient-based edge detection method, a phase congruence-based edge detection method or a combination of such methods as preliminary, pre-processing stages. Subsequent steps of the method may include operating a relatively computationally simple process to identify sinusoids among detected edge features; and a relatively computationally complex process for parameterizing the thus-identified sinusoids. | 01-28-2016 |
20160027186 | Methods of and Apparatuses for Identifying Geological Characteristics in Boreholes - A method of detecting an edge of a geological characteristic in a borehole comprises, in respect of an image log of a length of a borehole, carrying out the steps of a gradient-based edge detection method, a phase congruence-based edge detection method or a combination of such methods as preliminary, pre-processing stages. Subsequent steps of the method may include operating a relatively computationally simple process to identify sinusoids among detected edge features; and a relatively computationally complex process for parameterizing the thus-identified sinusoids. | 01-28-2016 |
20160086352 | DATABASE-GUIDED METHOD FOR DETECTING A MINERAL LAYER FROM SEISMIC SURVEY DATA - A method for detecting a mineral layer in seismic survey image data includes transforming the intensity of an unprocessed seismic survey image volume, wherein the seismic survey image volume comprises a 3-dimensional (3D) grid of voxels each associated with an intensity, wherein a contrast of the seismic survey image volume is enhanced, scanning the intensity transformed image voxel-by-voxel with a classifier to determine a probability of each voxel being associated with a mineral layer, and thresholding the voxel probabilities to yield a 3D binary image mask that corresponds to the seismic survey image volume, wherein each voxel of the binary image mask has a value indicative of whether the voxel is mineral or non-mineral. | 03-24-2016 |
20160093094 | DIGITAL PORE ALTERATION METHODS AND SYSTEMS - A method includes receiving images of a rock sample. The method also includes modifying a set of voxels related to one or more of the received images by applying a digital pore growing operation that changes non-pore voxels surrounding a pore space to pore voxels, wherein the digital pore growing operation is based at least in part on a predetermined dead oil estimate. The method also includes estimating a property of the rock sample based at least in part on the modified set of voxels. | 03-31-2016 |
20160117799 | IMAGE UP-SCALE DEVICE AND METHOD - An image scale device for up-scaling an input image by generating data signals for a plurality of additional pixels, the additional pixels added to the input image to generate an up-scaled image, the device comprising an RGB interpolator configured to generate red (R), green (G), and blue (B) data signals for each of the additional pixels on the basis of the R, G, and B data signals of an arbitrary pixel among pixels of the input image that are adjacent to the respective additional pixel, and a W interpolator configured to generate a white (W) data signal for each of the additional pixels on the basis of W data signals of the pixels of the input image that are adjacent to the respective additional pixel. | 04-28-2016 |
20160125574 | Compensating for Space and Slowness/Angle Blurring of Reflectivity - Systems and methods for compensating for spatial and slowness or angle blurring of plane-wave reflection coefficients in imaging. A wave field may be determined at a reference depth proximate to a reflector for a shot record. A receiver-side blurring function may be determined at the reference depth. An aggregate blurring function may be constructed based at least partially on the source wave field and the receiver-side blurring function. A plane-wave reflection coefficients may be determined based at least partially on the aggregate blurring function. | 05-05-2016 |
20160130930 | Borehole Image Gap Filling - The present disclosure introduces methods and apparatus for acquiring a borehole image corresponding to a sidewall surface of a borehole that penetrates a subterranean formation, wherein the subterranean formation comprises structural elements and a varying geophysical characteristic. The borehole image comprises structure corresponding to the structural elements, texture corresponding to the varying geophysical characteristic, and coverage gaps ( | 05-12-2016 |
20160155021 | Characterizing Porosity Distribution from a Borehole Image | 06-02-2016 |
20160187130 | METHOD FOR DETERMINING A POSITION AND ORIENTATION OFFSET OF A GEODETIC SURVEYING DEVICE AND SUCH A SURVEYING DEVICE - Method for precisely determining the position offset and orientation offset of a second deployment relative to a first deployment in the same measurement environment of a geodetic surveying device, in particular a total station or a theodolite, on the basis of directions, determined on the basis of the image, and at least one distance, measured by laser-optical means, to measurement environment points, which are imaged both in a second and in a first environment image. | 06-30-2016 |
20160187509 | Methods and Systems for Scan Analysis of a Core Sample - System for analyzing scan data of a core sample includes an imaging system for obtaining images of a first segment and a second segment of the core sample, and one or more processors for receiving the images of the first segment and the second segment, and setting the images of the first segment adjacent to the images of the second segment coaxially in series to form a stacked image. The method includes receiving image data of segments of the core sample, determining values representative of one or more physical characteristics of the core sample, comparing the values to known reference information of a material similar to the material of the core sample, and determining the one or more physical characteristics of the core sample based at least in part on the comparison. | 06-30-2016 |
20160188956 | IDENTIFYING MATCHING PROPERTIES BETWEEN A GROUP OF BODIES REPRESENTING A GEOLOGICAL STRUCTURE AND A TABLE OF PROPERTIES - Systems and methods for identifying matching properties between a group of bodies representing a geological structure and a table of properties by performing property matching on the group of bodies to convert each body to a respective compartment represented by a triangulated mesh of the bounding body. | 06-30-2016 |
20160379356 | USING MAXIMAL INSCRIBED SPHERES FOR IMAGE-BASED ROCK PROPERTY ESTIMATION - A method for analyzing a rock sample comprises analyzing a three dimensional image of the rock sample using maximal inscribed sphere analysis to determine proxies for at least one of grain size distribution, mean grain size and standard deviation of grain size. The proxy or proxies are used to determine at least one mechanical property of the rock formation. | 12-29-2016 |
20170235015 | METHOD FOR DETECTING HYDROCARBON DEPOSITS | 08-17-2017 |