Data from the Sentinel-1 satellites acquired between 22 February 2015 and 20 September 2016 show

that Millennium Tower in San Francisco is sinking by about 40 mm a year in the ‘line of sight’ – the direction that the satellite is ‘looking’ at the building.

The coloured dots represent targets observed by the radar.

The colour scale ranges from 40 mm a year away from radar (red) to 40 mm a year towards radar (blue). Green represents stable targets.

* Mining professionals of State Enterprise "NIGRI" (Mining-Ore Research Institute, Ukraine) have used 3D GeoSEIS Tomography to accurately locate subsurface volumetric distribution of cavities, mine workings, active geodynamic zones, concentration of stresses for building thermographic inspection and nondistructive control of of buildings and engineering designs/constructions. The Infrared Inspection was performed by Thermal Imaging, by a certified IR/TIR Thermographer and Digital Photocamera. This inspection is designed to assess the performance and volumetric location of building, roof, underfloor heating stress lineament and also to show their...

*3D-4D GeoSEIS Tomography™ Method is a unique tool of volumetric transformations and integration of DEM, airborne thermal and multispectral satellite images, airborne/ground gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 3D-4D GeoSEIS (SpaceTime) Model for 3D mapping & 4D monitoring, exact ranging and forecasting of oil-gas deposits, multifactor volumetric mapping of low-amplitude tectonics (lineaments, fractures, shear zones, folds, faults), active geodynamic zones, landslides, cavities, old underground workings (mined-out areas) and collapse sinks, geophysical anomalies and geologic properties of deep structures, for cost-effective 3D mapping & 4D Earth lithosphere modeling, earthquake and volcano monitoring.

*4D GeoSEIS Tomography is invaluable for monitoring of stress & strain zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults. *Rock physics modeling and combined dynamic elastic and electrical 3D-4D GeoSEIS Tomography Modeling aim to build Microstructure Tectonophysical volumetric 4D models that will simulate elastic and viscoelastic properties of shale (in particular, anisotropy and attenuation) as functions of mineralogy, confining stress and pore pressure... www.flickr.com/photos/jeisus2012/sets/72157626153283579/w... ; Validation certificate: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

The results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling:

* Vertical sections of volumetric 4D GeoSEIST Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical sections, leaving behind other methods in detection of the locations of sinkholes, cavities and old underground workings (mined-out areas) at different depths!

* Developed “4D GeoSEIS Tomography” method has proved the ability to perform volumetric

mapping of underground areas of collapse and deformation associated with the local thermo-elastic stress fields around mined-out areas at depths of 1-2 km.

* The anomalies of spectral brightness measured by the airborne thermal imager and the infrared sensors World View-2, which have been recalculated with regard to depth, have enabled accurate mapping of cavities, old underground workings (mined-out areas) and active geodynamic zones available in geologic environment.

We have used multispectral images of WorldView-3 satellite with 0,3m resolution for volumetric 3D-4D SpaceTime Mapping a 3D-4D geometry of the deposits with much higher resolution than 3D seismic, magneto-telluric, electromagnetic data.

*3D-4D GeoSEIS Tomography™ Method is a unique tool of volumetric transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 3D-4D GeoSEIS (SpaceTime) Model for 3D mapping & 4D monitoring, exact ranging and forecasting of oil-gas deposits, multifactor volumetric mapping of low-amplitude tectonics (lineaments, fractures, shear zones, folds, faults), active geodynamic zones, landslides, cavities, old underground workings (mined-out areas) and collapse sinks, geophysical anomalies and geologic properties of deep structures, for cost-effective 3D mapping & 4D Earth lithosphere modeling, earthquake and volcano monitoring.

*4D GeoSEIS Tomography is invaluable for monitoring of stress & strain zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults.

*Rock physics modeling and combined dynamic elastic and electrical 3D-4D GeoSEIS Tomography Modeling aim to build microstructural and tectonophysical volumetric 4D models that will simulate elastic and viscoelastic properties of shale (in particular, anisotropy and attenuation) as functions of mineralogy, confining stress and pore pressure.

www.flickr.com/photos/jeisus2012/sets/72157626153283579/w...;

Validation certificate: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4D GeoSEIS Tomography Modeling & Monitoring?

* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...

* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!

* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modeling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.

The Farmer Field School (FFS) approach is promoted by FAO projects in Burundi. This approach aims to build farmers' capacities through the process of learning by doing, observation, experimentation and discovery in their own fields.

This picture was taken on Sampeke hill, in Kayogoro commune, Makamba province (southern Burundi), as part of the project which supports the improvement of resilience capacities of vulnerable populations most affected by the effects of the multifactor crisis in Burundi (OSRO / BDI / 502 / EC) implemented by FAO and funded by the European Union.

©FAO/Gustave Ntaraka

* Mining professionals of State Enterprise "NIGRI" (Mining-Ore Research Institute, Ukraine) have used 3D GeoSEIS Tomography to accurately locate subsurface volumetric distribution of cavities, mine workings, active geodynamic zones, concentration of stresses for building thermographic inspection and nondistructive control of of buildings and engineering designs/constructions. The Infrared Inspection was performed by Thermal Imaging, by a certified IR/TIR Thermographer and Digital Photocamera. This inspection is designed to assess the performance and volumetric location of building, roof, underfloor heating stress lineament and also to show their...

*3D-4D GeoSEIS Tomography™ Method is a unique tool of volumetric transformations and integration of DEM, airborne thermal and multispectral satellite images, airborne/ground gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 3D-4D GeoSEIS (SpaceTime) Model for 3D mapping & 4D monitoring, exact ranging and forecasting of oil-gas deposits, multifactor volumetric mapping of low-amplitude tectonics (lineaments, fractures, shear zones, folds, faults), active geodynamic zones, landslides, cavities, old underground workings (mined-out areas) and collapse sinks, geophysical anomalies and geologic properties of deep structures, for cost-effective 3D mapping & 4D Earth lithosphere modeling, earthquake and volcano monitoring.

*4D GeoSEIS Tomography is invaluable for monitoring of stress & strain zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults. *Rock physics modeling and combined dynamic elastic and electrical 3D-4D GeoSEIS Tomography Modeling aim to build Microstructure Tectonophysical volumetric 4D models that will simulate elastic and viscoelastic properties of shale (in particular, anisotropy and attenuation) as functions of mineralogy, confining stress and pore pressure... www.flickr.com/photos/jeisus2012/sets/72157626153283579/w... ; Validation certificate: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

Women on Rusovu Hill, in Kayogoro Commune, Makamba Province (southern Burundi). In Burundi, FAO is promoting myciculture to improve food security and nutrition. This project supports the improvement of resilience capacities for vulnerable populations most affected by the effects of the multifactor crisis in Burundi (OSRO / BDI / 502 / EC) and is implemented by FAO and funded by the European Union.

©FAO/Gustave Ntaraka

Stephen Dunlap and Ben Morrow at the Venture Challenge Trade Show hosted by San Diego State University.

The competition was held at the Marriott Mission Valley Hotel in San Diego, California.

Read more about the competitions and our success on the PassPro-tech Hub.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4D GeoSEIS Tomography Modelling & Monitoring?

* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...

* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!

* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modeling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.

*We have used multispectral images of WorldView-3 satellite with 0,3m resolution for volumetric 3D-4D SpaceTime Mapping a 3D-4D geometry of the deposits with much higher resolution than 3D seismic, magneto-telluric, electromagnetic data.

*3D-4D GeoSEIS Tomography™ Method is a unique tool of volumetric transformations and integration of DEM, airborne thermal and multispectral satellite images, airborne/ground gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 3D-4D GeoSEIS (SpaceTime) Model for 3D mapping & 4D monitoring, exact ranging and forecasting of oil-gas deposits, multifactor volumetric mapping of low-amplitude tectonics (lineaments, fractures, shear zones, folds, faults), active geodynamic zones, landslides, cavities, old underground workings (mined-out areas) and collapse sinks, geophysical anomalies and geologic properties of deep structures, for cost-effective 3D mapping & 4D Earth lithosphere modeling, earthquake and volcano monitoring.

*4D GeoSEIS Tomography is invaluable for monitoring of stress & strain zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults.

*Rock physics modeling and combined dynamic elastic and electrical 3D-4D GeoSEIS Tomography Modeling aim to build microstructural and tectonophysical volumetric 4D models that will simulate elastic and viscoelastic properties of shale (in particular, anisotropy and attenuation) as functions of mineralogy, confining stress and pore pressure...

www.flickr.com/photos/jeisus2012/sets/72157626153283579/w... ;

Validation certificate: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

* Mining professionals of State Enterprise "NIGRI" (Mining-Ore Research Institute, Ukraine) have used 3D GeoSEIS Tomography to accurately locate subsurface volumetric distribution of cavities, mine workings, active geodynamic zones, concentration of stresses for building thermographic inspection and nondistructive control of of buildings and engineering designs/constructions. The Infrared Inspection was performed by Thermal Imaging, by a certified IR/TIR Thermographer and Digital Photocamera. This inspection is designed to assess the performance and volumetric location of building, roof, underfloor heating stress lineament and also to show their...

*3D-4D GeoSEIS Tomography™ Method is a unique tool of volumetric transformations and integration of DEM, airborne thermal and multispectral satellite images, airborne/ground gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 3D-4D GeoSEIS (SpaceTime) Model for 3D mapping & 4D monitoring, exact ranging and forecasting of oil-gas deposits, multifactor volumetric mapping of low-amplitude tectonics (lineaments, fractures, shear zones, folds, faults), active geodynamic zones, landslides, cavities, old underground workings (mined-out areas) and collapse sinks, geophysical anomalies and geologic properties of deep structures, for cost-effective 3D mapping & 4D Earth lithosphere modeling, earthquake and volcano monitoring.

*4D GeoSEIS Tomography is invaluable for monitoring of stress & strain zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults. *Rock physics modeling and combined dynamic elastic and electrical 3D-4D GeoSEIS Tomography Modeling aim to build Microstructure Tectonophysical volumetric 4D models that will simulate elastic and viscoelastic properties of shale (in particular, anisotropy and attenuation) as functions of mineralogy, confining stress and pore pressure... www.flickr.com/photos/jeisus2012/sets/72157626153283579/w... ; Validation certificate: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

The method: 3D-4D transformation of 2D images of spectral brightness fields into volumetric 3D-4D SEIST (SpaceTime) Model

TAKE YOUR GEOSPATIAL ANALYSIS TO THE NEXT 4D LEVEL WITH 4D GEOSEIS TOMOGRAPHY!

Add the Third Time-Depth Dimension to Your Geospatial Analysis!

Uniqueness of 3D-4D GeoSEIS Tomography technology is determined by algorithms that transforms any 2D digital images (Vis, Thermal, IR, MS...) of physical fields into volumetric (Space-Time) 3D-4D GeoSEIS model of stress fields which reflects their evolution…

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

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Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Volumetric model of an internal structure of DEM and Spectral Brightness fields it is created by the 4D GeoSEIS transformation of the satellite and topographical (DEM) images...

4D GeoSEIS Tomography Method to transform digital images of physical fields into volumetric SpaceTime Models that reflect evolution of a volumetric structure on any vertical slice...

4D GeoSEIS model is linking observation at the surface to geodynamic processes occurring underground...

4D GEOSEIS PROJECTS” HAVE BEEN PROPOSED FOR COMPANIES AROUND THE WORLD TO MAP ANY STATE'S TERRITORIES AND PROSPECT’S AREA IN 4D:

* We propose for any company 3D-4D GeoSEIS Tomography transformations of airborne thermal & multispectral satellite images, geophysical data (magnetic, gravity, IP, seismic) and DEM to multifactor volumetric 3D-4D GeoSEIS (space-time) model, exact ranging and forecasting of mineral deposits, multifactor volumetric mapping of low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures for cost-effective geophysical and geological prospecting...

Newest Results of Multifactor Volumetric 4D GeoSEIS Tomography Modeling: flic.kr/s/aHskbm1WfY , www.flickr.com/photos/jeisus2012/sets/72157626153283579

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi...

4D GeoSEIS Tomography Method can help your company save cost for oil-gas deposits prospecting and 4D geomechanical monitoring:

* Volumetric 3D-4D GeoSEIS models will allow to increase accuracy of tectonic structures mapping on deep horizons to a level of near-surface horizons, that in many times will raise the efficiency and will reduce the operating costs for geological prospecting and explorations.

* The volumetric 3D GeoSEIS models of low-amplitude geodynamic zones, tectonic structures and geophysical fields shows that the well-explored areas of hydrocarbon occurrences and deposit are locate on the most favorable trap structures that are fixed on 3D GeoSEIS model of multicomponent stress field.

* Vertical sections of volumetric “4D GeoSEIS Tomography” (4D Space-Time) Models of spectral brightness fields of airborne and satellite images are in good agreement with geological and geophysical section obtained with AMT and RAP profiling, the results of drilling and geo-surveying details of old underground mining at the test site area:

1) Locations of all AMT (Audio-Magneto-Telluric) anomalies of maximal resistivity at 100m-150m depths coincide with the local anomalies of maximum spectral brightness (VNIR/ch.8/WV-2) of highly porous zones (oil-gas trap). The latter offer more accurate reflection of the morphology of the echelon fracture zones associated with horizontal left-hand shear zone.

2) Patterns of resistivity and the local anomalies of maximum spectral brightness (VNIR & TIR) are direct hydrocarbon indicators: the presence of hydrocarbons in highly porous rocks is also associated with characteristic resistivity patterns revealed by MT - so-called "Direct Hydrocarbon Indicators" - as demonstrated by the international Project Paleorift in Uzbekistan.

3) The intervals and locations of the points, where drilling tools sink down, are notable for anomalies of maximum spectral brightness. The locations and intervals between places of drilling fluid loss coincide with aquifer zones, which are registered due to anomalies of minimum spectral brightness.

Estas son algunas de las conclusiones del estudio IBM Security Future of Identity elaborado por IBM basándose en más de 4.000 entrevistas realizadas a ciudadanos en todo el mundo. El objetivo es identificar las principales tendencias en seguridad para acceder a las aplicaciones, incluyendo el uso de contraseñas, la seguridad biométrica o la denominada autenticación multifactor, es decir aquellas que combinan dos o más credenciales personales.

Más información: www-03.ibm.com/press/es/es/pressrelease/53665.wss

Estas son algunas de las conclusiones del estudio IBM Security Future of Identity elaborado por IBM basándose en más de 4.000 entrevistas realizadas a ciudadanos en todo el mundo. El objetivo es identificar las principales tendencias en seguridad para acceder a las aplicaciones, incluyendo el uso de contraseñas, la seguridad biométrica o la denominada autenticación multifactor, es decir aquellas que combinan dos o más credenciales personales.

Más información: www-03.ibm.com/press/es/es/pressrelease/53665.wss

Estas son algunas de las conclusiones del estudio IBM Security Future of Identity elaborado por IBM basándose en más de 4.000 entrevistas realizadas a ciudadanos en todo el mundo. El objetivo es identificar las principales tendencias en seguridad para acceder a las aplicaciones, incluyendo el uso de contraseñas, la seguridad biométrica o la denominada autenticación multifactor, es decir aquellas que combinan dos o más credenciales personales.

Más información: www-03.ibm.com/press/es/es/pressrelease/53665.wss

Looking for the best Blockchain Digital Identity Solution? Blockchain firm provide blockchain based digital identity platform for decentralized access to identity management. Our team of experts develops a security identity platform to verify the identity of multifactor authentication on web and mobile application.

www.blockchainfirm.io/blockchain-identity-platform

Authentication

Image URL: 2.bp.blogspot.com/-Qt360HNovzs/VsRNsbrV-2I/AAAAAAAAAQA/sc...

(on-premises) Client layer. Tablet. Phone. Games console. PC. On-premises database. Browser. Office Add-in. On-premises service. AD. Multifactor. Authentication. Access Control. Layer. Integration. layer. Service Bus. CDN. BizTalk Services. Traffic Manager. Virtual Networks. Express Route. Application. layer. API Mgmt. Websites. Cloud Services. VM. Mobile Services. Media Services. Notification Hubs. Scheduler. Automation. Data Layer. Storage. Blobs. Tables. Queues. Data. Machine Learning. HD Insight. Backup and Recovery. SQL Database. Caching. StorSimple.

USB security key vendor Yubico realized that its products look alike, so it showed off a series of colorful, creative stickers you could slap on one to remind you that its yours.

Image showing the current price for the John Hancock Multifactor Developed International ETF (JHMD).

Portable biometric mobile terminal that has multifactor authentication, Aratek Marshall 5 is perfect fit for you who wants small portable powerful device.

www.aratek.co/product/biometric-terminal-marshall

Looking for biometric tablet that's ideal for applications like mobile time attendance, healthcare and financial service? You're looking at the right product, Aratek BM7550, multifaceted biometric tablet.

www.aratek.co/product/biometric-terminal-bm7550-tablet

Looking for the best Blockchain Digital Identity Solution? Blockchain firm provide blockchain based digital identity platform for decentralized access to identity management. Our team of experts develops a security identity platform to verify the identity of multifactor authentication on web and mobile application.

www.blockchainfirm.io/blockchain-identity-platform

Multifactor Authentication is vital for preventing any access of unauthorized individuals from breaking into the database or any network. Read on.

The Zero Trust Model emphasizes the importance of implementing strong authentication and authorization mechanisms. It comes with some important examples such as multifactor authentication and role-based access control.

Image showing the current price for the Xtrackers Russell US Multifactor ETF (DEUS).

A partir del 5 de mayo, implementaremos un nuevo sistema de acceso a nuestro #OfiWebCRM basado en doble verificación (MFA - Autenticación Multifactor).

After Alice enters her password to access her email account, she may

receive a prompt on her phone asking her to confirm that she is signing

in. This is one implementation of multifactor authentication—one that threat actors like to take advantage of.

Trost, Heidi, 2024. Human-Centered Security:

How to Design Systems That Are Both Safe and Usable

New York: Rosenfeld

rosenfeldmedia.com/books/human-centered-security/

via Blogger ift.tt/19MsCoW