The "rad pods" are optional auxiliary radiation protection bags filled with Martian regolith for extra radiation protection if needed.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Alyssa Mangano, Margaret Kennedy and Ting Wang.

Yantram MEP Engineering Design Plan includes the following 3d engineering services which would drafted in AutoCAD design. These architectural design or drwaing could be generated through paper to CAD, PDF to CAD or hand drafted skectch to CAD.

This projector remote control shows the lack of design considerations that still haunts so many tech companies today. After 30+ years of research on cognitive science, it's disappointing to see such products in the market

Ron DeBardeleben, a 1981 mechanical engineering graduate, is the principal designer of an Italian high-performance sports car.

* 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...

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...

The processing and tectonophysical interpretation of this image proved the relationship of lineaments with a fracture in the outcrops of the quarry site, and also once again confirmed the all-pervasive transcendental nature of lineaments of the stress field, mapped by 2D-3Dseist filtering and image transformation methods. I advise professionals to pay attention to the obvious fact of the existence of a super-complex system of cracks and lineaments, which are not mapping by any generally accepted methods of geological and geophysical surveys, so the reliability of all their forecasts does not exceed 10%, with a huge investment of time and money!

To understand how much harder and more complex is my structural-tectonophysical 2D-3Dseist models of lineament tectonics you can compare the generally known pictures with the images in my albums...

flic.kr/p/2gAUG7i

I can propose any company the low-cost 3D-4Dseist modeling:

The newest results lnkd.in/g4-HVcj

lnkd.in/etDg3xB

lnkd.in/dt8iGns; lnkd.in/dxc4FjN

Developed the “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 0-600m.

Subsurface maxima of spectral brightness fields, which are associated with the environmental

heating and rock breakage (caving) zones above old mine workings and below areas of collapse sinks formation have been mapped on the orthogonal slices of volumetric 4D GeoSEIS Model.

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 the geologic environment.

Vertical sections of volumetric 4D GeoSEIS 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 cavities and old underground workings

(mined-out areas) at different depths.

VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....

*Using 4D GeoSEIS Tomography transformation of a various band of the multispectral imagery of WV-2, the discriminating iron oxides, clay, and hydrothermal minerals can be accurately volumetric mapped...

* The results of structural-geodynamic modeling proved the possibility of satellite maps creation (Landsat7ETM, ASTER, World View-2…) of low-amplitude tectonics with spatial resolution 1-20-30m/pix for horizontal lines, and 20 cm of fold’s amplitude. The spatial resolution of satellite models and maps on a concrete area exceeded the spatial resolution of the mining works plan on scale 1:5000.

* 3D GeoSEIS Tomography is invaluable for identifying geodynamic 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...

Seeking business partners for 3D-4D GeoSEIS Tomography modeling and Monitoring…

Seeking business partners for developing 3D-4D GeoSEIS Tomography transformation of 2D-3D digital (multispectral, radar, geophysical, CT, MRI, Ultrasound) images and video...

We propose any company to integrate any geoinformation into multicomponent volumetric 3D-4Dseist GIS:

* 3Dseist mapping of lineament structure of stresses and deformations by 2D-3Dseist Method of decoding a seismic image (will cost only $300)

* The approbation of the 3D-4Dseist Tomography Method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Kryvyi Rih, Ukraine) will cost only $2000...

* 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-4Dseist GIS (will cost $50'000) for an exact and cost-effective 3D-4D spacetime modeling!

* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through the 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 the discovery.

A few days earlier, my brother, a resident of Tarrytown, came down to Manhattan to drive us to his home to see his new daughter. When we drove on the Queensboro Bridge to get to his home, I said to myself that I want to take some photos of the bridge when I come back to Manhattan. So one morning I took the bus and subway from our hotel at West 96th Street and Broadway down to East 63rd Street and York Avenue to admire the bridge.

Students display 3-D printers capable of manufacturing small parts and objects.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Students display 3-D printers capable of manufacturing small parts and objects.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Students display 3-D printers capable of manufacturing small parts and objects.

Students display 3-D printers capable of manufacturing small parts and objects.

Students display 3-D printers capable of manufacturing small parts and objects.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Summary.

Detailed classification and characteristic of metamorphosed magmatic complexes of the metaophiolite formation formed at the early stage of the geosyncline development under conditions of activation of the island-arc structures are presented. It is substantiated as unpromising to target for sulfide copper-nickel mineralization and it is possible to detect epigenetic hydrothermal-metasomatic mineralization of gold, molybdenum and other metals.

В статье «Метаморфизованная офиолитовая формация гранит-зеленокаменных структур Среднего Приднепровья» (Я.И. Бондаренко, Геологический журнал, 1992, №1) дана детальная классификация и характеристика метаморфизованных магматических комплексов метаофиолитовой формации гранит-зеленокаменных структур Среднего Приднепровья, сформированной на ранней стадии развития геосинклинали в условиях активизации островодужных структур.

На основании корректно проведенного сравнительного анализа множества петрохимических характеристик коматиитовой и офиолитовой формаций, в зеленокаменных структурах УЩ обосновывается бесперспективность поисков промышленного сульфидного медно-никелевого оруденения и возможность обнаружения эпигенетического, гидротермально-метасоматического оруденения золота, молибдена и других металлов.

Учитывая специфику формирования метаморфизованной офиолитовой формации Среднего Приднепровья - синхронное проявление магматических, метаморфических, метасоматических процессов и гранитизации в условиях геосинклинальной активизации островодужных структур, геологоразведочные работы следует нацелить на поиски и разведку эпигенетического, гидротермально-метасоматического типов промышленного оруденения (Au, Ag, Mo, редкие металлы и др.).

Формационный структурно-геодинамический анализ, объёмное многофакторное 4D GeoSEIS моделирование и прогнозирование рудовмещающих структур позволят выявить благоприятные геодинамические обстановки и структуры для локализации жильного и штокверкового оруденения, связанного с этапами тектоно-магматической активизации астеносферных очагов.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

* 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...

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

During the 2007 Formula 1 race in Melbourne, the DIA (Design Institute of Australia) in partnership with the Australian Grand Prix Corporation, organized an event to showcase Australia 's local talent based on the theme of ""design in sport"".

The F1 Helmet was selected as the object of design, since it is the only protection for the driver's head and plays an important role in the car's aerodynamics.

CobaltNiche took part in the event to develop a completely new F1 helmet design concept, known as the ""Stealth"".

The Stealth is based on a unique ""rear-entry"" method of mounting the helmet from behind, allowing for a precise contoured fit around the head and neck when compared to traditional helmets that fit over the head.

To demonstrate the unique form and function of the helmet design, Formero provided Rapid Prototype (RP) models using a combination of Stereolithography (SLA) and Objet 3D Printing technology.

SLA technology was selected to build the helmet visor, due to the durability and clarity of Formero's Dura Max Clear SLA resin. Objet 3D Printing technology was utilised to build the remaining helmet components, due to its fine reproduction of detail, smooth finish and ultimate build speed. This enabled Formero to complete the models in half the time it would take using SLA technology.

Within a few days the F1 helmet was finished, assembled and ready for painting. The end result was a quality presentation model that visually provided a true representation of the end product.

for MORE PHOTOS LOOK BELOW...

Students display 3-D printers capable of manufacturing small parts and objects.

Students display 3-D printers capable of manufacturing small parts and objects.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Pictures from the Spaghetti Tower Build Day

For more info see: www.ucs.louisiana.edu/~jev9637/MCHE201.html

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

The ME310 Design Team Development Loft (Prof. Larry Leifer, PI) provides space and technical support for globally distributed product development teams working on corporate partner projects. Teams are assigned a desktop design station with internet video studio support. The facility is located in Building 550.

Pictures from the Spaghetti Tower Build Day

For more info see: www.ucs.louisiana.edu/~jev9637/MCHE201.html

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Pictures from the Spaghetti Tower Build Day

For more info see: www.ucs.louisiana.edu/~jev9637/MCHE201.html

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

First-year students in Benjamin Fehl's EDSGN 130 Architectural Graphics and CAD course were charged with identifying the best location for a transportation rail hub on campus and designing a train station on the site. The team included Tyler Jani, William Manning, Han Sung Kim, Richard Knouff and Blaine Pricard.

Take your geospatial analysis to the next 3D-4D level with 3D-4Dseist tomography modeling!

* 3D-4Dseist tomography method is a unique tool of spacetime transformations of DEM, airborne thermal and multispectral satellite images and geophysical data into multicomponent volumetric 3D-4Dseist model for exact volumetric mapping and forecasting of geodynamic zones, 3D fracture patterns, shear zones, faults, etc., geophysical anomalies associated with the local stress fields of 3Dspacetime for earthquake monitoring and geomechanical modeling.

* 3D-4Dseist tomography is invaluable for identifying geodynamic zones that may be potential areas for rock bursts, 3D fracture patterns, and their density and outline zones of high permeability, shear zones, and faults...

*Using 3D-4Dseist tomography transformation of a various band of the multispectral imagery the discriminating iron oxides, clay, and hydrothermal minerals can be accurately volumetric mapped...

* The results of structural-geodynamic modeling proved the possibility of satellite maps creation (Landsat7ETM, ASTER, World View-2…) of low-amplitude tectonics with spatial resolution 1-20-30m/pix for horizontal lines, and 20 cm of fold’s amplitude. The spatial resolution of satellite models and maps on a concrete area exceeded the spatial resolution of the mining works plan on scale 1:5000.

* Uniqueness of * 3D-4Dseist tomography method is a unique tool of spacetime transformations of DEM, airborne thermal and multispectral satellite images and geophysical data into multicomponent volumetric 3D-4Dseist model for exact volumetric mapping and forecasting of geodynamic zones, 3D fracture patterns, shear zones, faults, etc., geophysical anomalies associated with the local stress fields of 3Dspacetime for earthquake monitoring and geomechanical modeling.

* 3D-4Dseist tomography is invaluable for identifying geodynamic zones that may be potential areas for rock bursts, 3D fracture patterns, and their density and outline zones of high permeability, shear zones, and faults...

*Using 4D GeoSEIS Tomography transformation of a various band of the multispectral imagery the discriminating iron oxides, clay, and hydrothermal minerals can be accurately volumetric mapped...

* 3D-4Dseist technology is determined by algorithms that transform digital images of physical fields into volumetric spacetime models which reflect their evolution.

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

WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4Dseist spacetime transformation of 2D images and 3D-4Dseist modelling, forecasting and monitoring???

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

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

* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through the application of advanced multicomponent volumetric 3D-4Dseist spacetime transformation of 2D images of spectral brightness and geophysical fields to targeting problems. This emerging 3D-4Dseist 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 the discovery!

Pictures from the Spaghetti Tower Build Day

For more info see: www.ucs.louisiana.edu/~jev9637/MCHE201.html

Pictures from the Spaghetti Tower Build Day

For more info see: www.ucs.louisiana.edu/~jev9637/MCHE201.html