View allAll Photos Tagged Geodynamics
On a site of a roadbed extent 20,76м on aerial image we have revealed change of the sizes of a track that is connected with linearly-vortical structure fields of stresses and deformations!
* We propose any company to integrate any geoinformation into High Res. (1-5sm) multicomponent volumetric 3D-4DGeoSEIST GIS (will be cost $50'000):
* 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 modelling 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.
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
En 1993, les Lettons découvrent l'existence d'une station top secrète, datant de l'ère soviétique. Cachées au fin fond de la forêt, au nord de Ventspils, ville côtière de la Baltique, se dressaient trois antennes utilisées par le KGB pour espionner les communications satellites entre l'Europe du Nord et les Etats-Unis pendant la guerre froide. Quand les Russes se retirent, ils démontent la plus petite et vandalisent les deux autres. Les antennes paraboliques de 16 et 32 mètres de diamètre passent sous l'aile du Virac (Ventspils International Radio Astronomy Center), un institut de recherche civil qui va mettre quatre ans à restaurer l'un des radiotélescopes les plus précis d'Europe du Nord, le RT-32. Lourde charge pour ce petit pays qui peine à trouver les fonds. Son principal souci est dorénavant de promouvoir le radiotélescope afin de développer les coopérations et les échanges internationaux.
Recent glacial deposits were uncovered by wave action at Reiss Beach in Caithness. Glacial striations on one of the surface of a Devonian Old Red Sandstone surface of a mainly mudstone boulder. Recent glacial deposits were uncovered by wave action. There are two main directions of multiple ice striae showing clear intersects and crosscuts. This is the best example of striae of the 4 boulders showing multiple ice striae. Unlike the other 3 in situ in the till/silt deposits this one was found on the east side of the recently uncovered till/silt deposits on top of boulders.
Glacial striations examples from all over the world:
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2014/10/28/glacial-striations/
www.flickr.com/photos/jsjgeology/14972503578/in/set-72157...
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.uwosh.edu/faculty_staff/hiatt/Research/work.html
www.grisda.org/2014-banff/images/184d-glacier928.jpg
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.swisseduc.ch/glaciers/earth_icy_planet/glaciers15-en....
webspace.ship.edu/cjwolt/geology/slides/jpg/gl08.jpg
blogs.agu.org/mountainbeltway/2012/08/21/glacial-striatio...
bgrg.org/pages/education/alevel/coldenvirons/Striations1.htm
www.uwgb.edu/dutchs/Petrology/Leaverite-Surface.HTM
luirig.altervista.org/pics/index4.php?search=Striated+gla...
quizlet.com/3777187/glaciers-flash-cards/
Links describing glacier plucking:
www.earthonlinemedia.com/ebooks/tpe_3e/glacial_systems/ge...
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
www4.uwsp.edu/geo/faculty/lemke/geol370/lectures/08_trans...
members.shaw.ca/len92/geology.htm
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
geogblogdno.blogspot.co.uk/p/ice-on-land-new.html
www.geocaching.com/geocache/GC26DTM_7wpc-ledgedale-natura...
The Geo dynamics owned 3000 hp Rig 100 at Jolokia 1 Innamincka South Australia, This Rig is being operated by Weatherfords personnel. October 2010
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
Recent glacial deposits were uncovered by wave action at Reiss Beach in Caithness. Glacial striations on one of the surface of a Devonian Old Red Sandstone surface of a mainly mudstone boulder. Recent glacial deposits were uncovered by wave action. There are two main directions of multiple ice striae showing clear intersects and crosscuts. This is the best example of striae of the 4 boulders showing multiple ice striae. Unlike the other 3 in situ in the till/silt deposits this one was found on the east side of the recently uncovered till/silt deposits on top of boulders.
Glacial striations examples from all over the world:
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2014/10/28/glacial-striations/
www.flickr.com/photos/jsjgeology/14972503578/in/set-72157...
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.uwosh.edu/faculty_staff/hiatt/Research/work.html
www.grisda.org/2014-banff/images/184d-glacier928.jpg
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.swisseduc.ch/glaciers/earth_icy_planet/glaciers15-en....
webspace.ship.edu/cjwolt/geology/slides/jpg/gl08.jpg
blogs.agu.org/mountainbeltway/2012/08/21/glacial-striatio...
bgrg.org/pages/education/alevel/coldenvirons/Striations1.htm
www.uwgb.edu/dutchs/Petrology/Leaverite-Surface.HTM
luirig.altervista.org/pics/index4.php?search=Striated+gla...
quizlet.com/3777187/glaciers-flash-cards/
Links describing glacier plucking:
www.earthonlinemedia.com/ebooks/tpe_3e/glacial_systems/ge...
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
www4.uwsp.edu/geo/faculty/lemke/geol370/lectures/08_trans...
members.shaw.ca/len92/geology.htm
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
geogblogdno.blogspot.co.uk/p/ice-on-land-new.html
www.geocaching.com/geocache/GC26DTM_7wpc-ledgedale-natura...
The volumetric 3D-4D SEIST Model of an internal spacetime brightness field of a Sun is created by the 3D SEIST transformation of 2D image!
The 3Dseist slices of 4Dseist unified (inertial quark-lepton-photonic) field is created by the 3D-4D SEIST transformation and integration of 2D images!
Take your geospatial analysis to the next 4D-7D level with 4D-7D SEIS Tomography!
Seeking business partners for 3D-4D GeoSEIS Tomography modelling 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 are looking for investment partnership for developing 6D GeoSEIS Tomography transformation of 3D digital (multispectral, radar, geophysical, CT, MRI, Ultrasound) images and video... If you interest it, please don’t miss this opportunity. Please check of the information:
* The uniqueness of 3D-4D GeoSEIS Tomography technology is determined by algorithms that transforms digital images of physical fields into volumetric spacetime models which reflects its volumetric structure and evolution!
* 6D GeoSEIS Tomography brings 3D scan visualization to a whole 6D volumetric animation level. Its 6D Space-time-based Technology extends the capabilities of volumetric modeling practices – allowing anyone, anywhere to see, explore and share (in real-time) 6D interactive views directly from traditional 3D Seismic, MRI, CT and ultrasound scans…
VALIDATION CERTIFICATE for 4D GeoSEIS Tomography Method www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
*Using 4D GeoSEIS Tomography transformation of various bands 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 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 mining works plan on the 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...
My Customers & Partners: Institute of Geological Sciences of NAS (National Academy of Sciences of Ukraine), Institute of Geotechnical Mechanics of NAS, Institute of Problems on Nature Management & Ecology of NAS, State Enterprise NIGRI (Mining-Ore Research Institute)...
Publications and scientific reports:
www.cosis.net/members/submissions.php, www.cosis.net/members/submissions.php?user=u8c8d2c4436821...
Certificates:
www.flickr.com/photos/jeisus2012/5531682555/in/photostream , www.slideshare.net/JarosloveBondarenko/4-d-geoseis, foto.mail.ru/mail/jeisus/7/64.html# , foto.mail.ru/mail/jeisus/7/62.html# , foto.mail.ru/mail/jeisus/7/65.html#
Shestopalov V.M., Bondarenko Ya.I., Zayonts I.O., Rudenko Yu.F., Bohuslavsky A.S. Complexation of Structural-Geodynamical and Hydrogeological Methods of Studying Areas to Reveal Geological Structural Perspectives for Deep Isolation of Radioactive Wastes. // Field Testing and Associated Modeling of Potential High-Level Nuclear Waste Geologic Disposal Sites // Berkeley, USA, 1998.
Kolotenko V.P. Bondarenko J.J. Spiritual and Moral aspects of Sustainable Development Theory // Man and City. Towards a Human and Sustainable Development // Napoli, Italy, 2000.
Bondarenko J.J., Risk analysis, synthesis and Spiritual Energy-Information Structure Modeling 'SEISM' to reveal environmental perspectives for isolation of radioactive and hazardous chemical wastes // ECO-INFORMA 2001 // Chicago, USA, 2001.
Bondarenko J. J., The Multifactor Predictive SEIS (GIS) Model of ecological, genetic and population health risk in connection with dangerous bio-geodynamical processes in geopathogenic hazard zones //ECO-INFORMA 2001// Chicago, USA, 2001.
Zayonts I.O., Bondarenko J.J., Slipchenko B., Lysychenko G.V., New approaches to the problem of geoecological risk for urbanized territories // ECO-INFORMA 2001 // Chicago, USA, 2001.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
This created 3D GeoSEIS Tomography model has mapped the volumetric structure of a strains field which is related to subduction an oceanic plate in the western and southern directions. The 3D GeoSEIS Model proves, that the nuclear station has been constructed in a very adverse tectonic structure which increments the destructive energy of the earthquakes and tsunami. 3D GeoSEIS model unequivocally shows that the minimal destructions of block 2 of the power plant 1 are caused by stress relaxation in lowered parts of a plate.
3D-4D GeoSEIS models should be created before the construction of dangerous technogenic objects...
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
4D GeoSEIS Tomography Method is a unique tool of transformations of DEM, airborne thermal & multispectral satellite images, airborne gamma-ray spectrometry and geophysical data (AMT, Magnetic, Gravity, IP, Seismic etc.) into multicomponent volumetric 4D Model for exact volumetric mapping and forecasting of geodynamic zones (3D fracture patterns, shear zones and faults), geomechanical anomalies and deformation associated with the local stress fields, for earthquake monitoring and geomechanical modeling...
* 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...
*Using 4D GeoSEIS Tomography transformation of various bands 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 the scale of 1:5000.
* Uniqueness of 3D-4D GeoSEIS Tomography technology is determined by algorithms that transform digital images of physical fields into volumetric space-time models which reflects the evolution of volumetric space-time structure of any fields.
Validation Certificate for “4D GeoSEIS Tomography” Method: www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
* 6D GeoSEIS Tomography brings 3D scan visualization to a whole 6D volumetric animation level. Its 6D Space-time-based Technology extends the capabilities of volumetric modeling practices – allowing anyone, anywhere to see, explore and share (in real-time) 6D interactive views directly from traditional 3D Seismic, MRI, CT and ultrasound scans…
Seeking contract 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 are looking for investment partnership for developing 6D GeoSEIS Tomography transformation of 3D digital (multispectral, radar, geophysical, CT, MRI, Ultrasound) images and video...
My Customers & Partners: Institute of Geological Sciences of NAS (National Academy of Sciences of Ukraine), Institute of Geotechnical Mechanics of NAS, Institute of Problems on Nature Management & Ecology of NAS, State Enterprise NIGRI (Mining-Ore Research Institute)...
Publications and scientific reports:
www.cosis.net/members/submissions.php, www.cosis.net/members/submissions.php?user=u8c8d2c4436821...
Certificates:
www.flickr.com/photos/jeisus2012/5531682555/in/photostream , www.slideshare.net/JarosloveBondarenko/4-d-geoseis, foto.mail.ru/mail/jeisus/7/64.html# , foto.mail.ru/mail/jeisus/7/62.html# , foto.mail.ru/mail/jeisus/7/65.html#
Shestopalov V.M., Bondarenko Ya.I., Zayonts I.O., Rudenko Yu.F., Bohuslavsky A.S. Complexation of Structural-Geodynamical and Hydrogeological Methods of Studying Areas to Reveal Geological Structural Perspectives for Deep Isolation of Radioactive Wastes. // Field Testing and Associated Modeling of Potential High-Level Nuclear Waste Geologic Disposal Sites // Berkeley, USA, 1998.
Kolotenko V.P. Bondarenko J.J. Spiritual and Moral aspects of Sustainable Development Theory // Man and City. Towards a Human and Sustainable Development // Napoli, Italy, 2000.
Bondarenko J.J., Risk analysis, synthesis, and Spiritual Energy-Information Structure Modeling 'SEISM' to reveal environmental perspectives for isolation of radioactive and hazardous chemical wastes // ECO-INFORMA 2001 // Chicago, USA, 2001.
Bondarenko J. J., The Multifactor Predictive SEIS (GIS) Model of ecological, genetic and population health risk in connection with dangerous bio-geodynamical processes in geopathogenic hazard zones //ECO-INFORMA 2001// Chicago, USA, 2001.
Zayonts I.O., Bondarenko J.J., Slipchenko B., Lysychenko G.V., New approaches to the problem of geoecological risk for urbanized territories // ECO-INFORMA 2001 // Chicago, USA, 2001...
Geology is the study of the Earth. Etymologically, that's literally what is means. The first part, "geo-" is derived from "Gaea", the name of an ancient fake goddess of the Earth. The second part is derived from the ancient word "logia" meaning "writing about" or "study of".
Geology is not just the study of rocks, despite the widespread perception that it is. Geology is the study of the Earth - the whole Earth. What does the Earth include?
Geosphere - the solid Earth (= rocky portion of the Earth - crust + mantle + core, although some portions of those are liquid or somewhat soft).
Atmosphere - the gaseous layer of Earth occurring above the crust. Earth's air includes ~78% molecular nitrogen (N2), ~21% molecular oxygen (O2), ~0.9% argon (Ar), plus scores of trace gases.
Hydrosphere - liquid water occurring in Earth's ocean basins, in rivers/streams/lakes/ponds, and as groundwater.
Cryosphere - glacial ice, principally occurring on Antarctica, Greenland, and at the tops of some mountain ranges.
Biosphere - the study of Earth's life forms is part of geology; biology is part of geology (although biologists won't readily admit this!).
Pedosphere - an understanding of Earth's soils ("dirt") is part of geology.
Magnetosphere - Earth has a magnetic field, generated by currents in the molten, outer portion of Earth's metallic iron-rich core.
Geology involves a thorough understanding of the entire Earth. Many researchers refer to the inter-relatedness of all the "-spheres" listed above as the Earth system. As such, some geologists have changed the name for "the study of the Earth" from geology to Earth system science. There are several other synonyms for geology, including "geological science", "geoscience", and "Earth science". All of these terms are synonymous, and as such, I would suggest that the oldest and simplest term is the only correct term. GEOLOGY.
Unfortunately, the definition of geology as "study of the Earth" is arbitrarily limiting. Many scientists do planetary geology, which is the study of the geology of the various planets and moons in the solar system.
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There are numerous specialties in geology - it's probably the broadest field in all of science. Geology students and professional geologists have dozens and dozens of possible fields to be interested in. A not-complete list is given below.
Aquatic geochemistry - study of the natural and pollution chemistries of water
Archaeological geology - study of the geology of archaeological sites
Atmospheric chemistry - study of the natural and pollution chemistries of air
Atmospheric physics - study of the physics of weather and other atmospheric phenomena
Atmospheric science - study of Earth's (or another planet's) atmosphere
Basin analysis - study of the origin and history of sedimentary basins (depositional centers)
Biogeochemistry - study of the interrelationship between life forms and natural chemical cycles
Biostratigraphy - study of layered rocks based on fossil content
Brachiopodology - study of modern and/or fossil brachiopods
Bryozoology - study of modern and/or fossil bryozoans
Chronostratigraphy - study of the absolute ages of layered rocks
Climatology - study of climate
Coal geology - study of the origin, composition, and occurrence of coal beds
Conodontology - study of conodonts (= phosphatic microfossils that were grasping spines in the mouths of an extinct group of chordates)
Coral paleoclimatology - study of ancient climates using information from fossil corals
Crinoidology - study of crinoids (= sea lilies - relatives of starfish)
Crystallography - study of crystals
Dinosaurology - study of dinosaurs
Earth science - study of the Earth
Economic geology - study of all Earth materials that have value in society
Engineering geology - study of & recognition of & accounting for site-specific and regional geology before, during, and after construction projects (buildings, roads, bridges, geothermal well fields at Ohio State University-Columbus campus, etc.)
Environmental geology - study of the relationship between geology and natural hazards or environmental concerns/problems
Environmental geophysics - study of near-surface geology using geophysical methods at the surface
Exploration geophysics - study of subsurface geology using geophysical methods at the surface to discover petroleum fields, ore deposits, etc.
Field geology - field gathering of geologic information and mapping of geologic units and structures
Forensic geology - study of solving crimes using geologic evidence
Genetic stratigraphy - study of the origin and age of discrete packages of layered rocks unconformably separated from other rock packages
Geoarchaeology - study of the geology of archaeological sites
Geochemistry - study of the chemical composition of & chemical reactions occurring in geologic systems
Geochronology - study of the absolute ages of rocks and geologic events
Geodesy - study of Earth measurements, tides, gravitational field, and upper geospheric movements
Geodetics - study of Earth measurements, tides, gravitational field, and upper geospheric movements
Geodynamics - study of the physics of plate tectonics, structural deformation, and glacial ice sheet formation & retreat
Geographic information systems - analysis and graphical representation of data tied to various geographic locations
Geoinformatics - study of the nature and graphical representation of geologic information tied to various geographic locations
Geological science - study of the Earth
Geology - study of the Earth
Geomathematics - study of the Earth using math
Geometallurgy - study of the geology and mineralogy behind variation in extraction styles of metals from ores during processing
Geomicrobiology - study of the relationship between micro-organisms and various geologic/geochemical phenomena; includes the study of extremophile microbes
Geomorphology - study of the morphology and origin of landforms
Geophysics - study of the physics of the Earth
Geoscience - study of the Earth
Geoscience education - study of how geology is taught in schools
Geostatistics - study of the use of statistics in solving geologic problems
Glacial geology - study of glaciers, their effects, and their deposits
Glaciology - study of glaciers
Gravimetry - study of the strength of and variations in Earth's gravitation field
Historical geology - study of the changes in the geosphere, atmosphere, hydrosphere, cryosphere, pedosphere, magnetosphere, and biosphere throughout the 4.55 billion years of Earth's history
History of geology - study of early geologic ideas and early geologists
Hydrogeology - study of surface water and groundwater
Hydrogeophysics - study of groundwater using geophysical methods at the surface
Ichnology - study of traces made by organisms
Igneous petrology - study of the origin, mineralogy, and chemistry of igneous rocks
Inorganic geochemistry - study of the non-carbon based chemistry of geologic systems
Invertebrate paleontology - study of fossil invertebrates (animals without a backbone)
Isotope biogeochemistry - study of the interrelationship between life forms and natural chemical cycles using isotopic information
Isotope geochemistry - study of the nature and origin of isotopic variations in geologic systems
Isotope geology - study of the nature and origin of isotopic variations in geologic systems
Isotope stratigraphy - study of vertical changes in the isotopic compositions of layered rocks
Limnogeology - study of inland bodies of water (ponds, lakes)
Limnology - study of inland bodies of water (ponds, lakes)
Lithostratigraphy - study of layered rocks based on rock type
Magnetometry - study of the strength and variation of Earth's magnetic field
Magnetostratigraphy - study of layered rocks based on their magnetic properties
Marine geology - study of the oceans
Medical geology - study of the relationship between geology and human health
Metamorphic geology - study of metamorphic rocks
Meteoritics - study of meteorites
Meteorology - study of weather
Micropaleontology - study of microfossils
Mineralogy - study of minerals
Mineral physics - study of the physical properties of minerals
Neotectonics - study of the geology and physics of modern and geologically recent (= post-Oligocene) plate tectonic processes and structural deformation
Oceanography - study of the oceans
Organic geochemistry - study of the carbon-based chemistry of geologic systems
Paleoanthropology - study of fossil hominids
Paleobiology - study of ancient life
Paleobotany - study of fossil plants
Paleoceanography - study of ancient oceans
Paleoclimatology - study of ancient climates
Paleoecology - study of the relationship between ancient organisms and their environment
Paleogeography - study of the geographic changes of continents and ocean basins through geologic time
Paleohydrogeology - study of ancient aquifers and ancient surface waters
Paleohydrology - study of ancient aquifers and ancient surface waters
Paleoichnology - study of traces left by ancient organisms
Paleomagnetics - study of the magnetic properties of rocks
Paleomagnetism - study of the magnetic properties of rocks
Paleontology - study of fossils
Paleooology - study of fossil eggs
Paleopedology - study of ancient soils (paleosols)
Paleoseismology - study of ancient earthquakes
Paleotectonics - study of the geology and physics of geologically ancient (= pre-Miocene) plate tectonic processes and structural deformation
Paleozoology - study of ancient animals
Pedology - study of soils
Petroleum geology - study of oil and natural gas
Petrology - study of the origin, mineralogy, and chemistry of all rock types
Phylogeny - study of the evolutionary relationships among modern and/or ancient organisms
Planetary geology - study of the geology of other planets, moons, asteroids, meteoroids, and comets
Precambrian geology - study of extremely ancient (older than 544 million years) geologic objects, events, and phenomena
Quaternary geology - study of modern and geologically recent (post-Pliocene) geologic objects, events, and phenomena
Reflection seismology - study of subsurface geology using information obtained from artificial, surface-originated shock waves that get reflected back to the surface from rock layers, faults, and other geologic contacts
Remote sensing - study of surficial geology using information obtained from a distance
Rheology - study of the flow physics of rocks, minerals, ice, magma, and water
Scolecodontology - study of scolecodonts (= microfossils of polychaete worm jaws)
Sedimentary geology - study of sediments, sedimentation, and sedimentary rocks
Sedimentary petrology - study of the origin, physical characteristics, and mineralogy of sedimentary rocks
Sedimentology - study of sediments and sedimentation
Seismology - study of earthquakes
Seismotectonics - study of the relationships among earthquakes, fault lines, and plate tectonics
Sequence stratigraphy - study of the subdivision of layered rock successions into discrete, genetically-related, unconformity-bounded packages
Soil science - study of soils
Speleology - study of caves
Stratigraphy - study of layered rocks
Stromatolitology - study of stromatolites (= large, layered structures built up by photosynthetic bacterial mats)
Structural geology - study of the geometry and origin of deformed rocks
Taxonomy - study of naming and classifying modern and/or ancient organisms
Tectonics - study of plate tectonics
Tectonophysics - study of the physics of plate tectonics
Trilobitology - study of fossil trilobites
Vertebrate paleontology - study of fossil vertebrates (animals with a backbone)
Volcanology - study of volcanoes
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
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.
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 ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
Processed with CARIS HIPS and SIPS
Author: Dave Bernstein and Aron Lembke, Geodynamics
A 3D scene showing high resolution multibeam data collected around the Morehead City State Port, North Carolina. The data was collected to inspect the submerged bridge structure, port walls, mooring construction and shoaling.
Acknowledgements: Bathymetry was acquired using a Kongsberg 3002D. The data is also featured in Port Technology International.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
Picture was taken from the west looking east.
Mirador Observatory lies within the town of Baguio close to the western boundary of the city, and comprises an isolated hill, “Mirado” (Mount Lookout)
Illustrations from the book:
Mirador Observatory, Baguio, Benguet
A new meteorological-geodynamic station of the Weather Bureau
By Rev. Jose Algue, S.J. director to the Weather Bureau.
Published 1909 by Bureau of Printing in Manila.
openlibrary.org/books/OL7077917M/Mirador_observatory_Bagu...
Recent glacial deposits were uncovered by wave action at Reiss Beach in Caithness. Glacial striations on one of the surface of a Devonian Old Red Sandstone surface of a mainly mudstone boulder. Recent glacial deposits were uncovered by wave action. There are two main directions of multiple ice striae showing clear intersects and crosscuts. This is the best example of striae of the 4 boulders showing multiple ice striae. Unlike the other 3 in situ in the till/silt deposits this one was found on the east side of the recently uncovered till/silt deposits on top of boulders.
Glacial striations examples from all over the world:
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2014/10/28/glacial-striations/
www.flickr.com/photos/jsjgeology/14972503578/in/set-72157...
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.uwosh.edu/faculty_staff/hiatt/Research/work.html
www.grisda.org/2014-banff/images/184d-glacier928.jpg
maps.unomaha.edu/Maher/geo330/kirk1.html
blogs.agu.org/mountainbeltway/2012/08/08/what-those-geolo...
www.swisseduc.ch/glaciers/earth_icy_planet/glaciers15-en....
webspace.ship.edu/cjwolt/geology/slides/jpg/gl08.jpg
blogs.agu.org/mountainbeltway/2012/08/21/glacial-striatio...
bgrg.org/pages/education/alevel/coldenvirons/Striations1.htm
www.uwgb.edu/dutchs/Petrology/Leaverite-Surface.HTM
luirig.altervista.org/pics/index4.php?search=Striated+gla...
quizlet.com/3777187/glaciers-flash-cards/
Links describing glacier plucking:
www.earthonlinemedia.com/ebooks/tpe_3e/glacial_systems/ge...
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
www4.uwsp.edu/geo/faculty/lemke/geol370/lectures/08_trans...
members.shaw.ca/len92/geology.htm
www.geology.um.maine.edu/geodynamics/AnalogWebsite/Underg...
geogblogdno.blogspot.co.uk/p/ice-on-land-new.html
www.geocaching.com/geocache/GC26DTM_7wpc-ledgedale-natura...
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.
This is a 32-meter fully steerable parabolic, centimetre-wave range antenna RT-32 and a 16-meter diameter antenna RT-16. The Ventspils International Radio Astronomy Center (VIRAC) uses these antennae to take part in observations of cosmic sources of natural and artificial radiation in order to accumulate observational data for fundamental and practical research programs in radio astronomy, astrophysics, cosmology, geophysics, geodynamics, geodesy, coordinate-time service and other.
Charles L. "Lacy" Veach was selected as an astronaut candidate in May 1984, and became an astronaut in June 1985. He had flown as a mission specialist on two Space Shuttle missions, STS-39/Discovery in 1991 and STS-52/Columbia in 1992. He had logged 436.3 hours in space.
On STS-39, Veach was responsible for operating a group of instruments which included an ultraviolet astronomical camera, an x-ray telescope, and a liquid helium-cooled infrared telescope which performed landmark observations of the Earth's atmosphere and the Aurora Australis (the Southern Lights).
The 8-day unclassified Department of Defense mission aboard the Orbiter Discovery launched from the Kennedy Space Center in Florida on April 28, 1991, and landed at Kennedy on May 6, 1991.
STS-52 was a 10-day mission aboard the Orbiter Columbia during which the crew successfully deployed the Laser Geodynamic Satellite (LAGEOS), a joint Italian-American project. They also operated the first U.S. Microgravity Payload (USMP) with French and American experiments.
Veach was the primary Remote Manipulator System (RMS) operator on the mission, supporting the initial flight tests of the Canadian-built Space Vision System (SVS). STS-52 launched from the Kennedy Space Center in Florida on October 22, 1992, and landed at Kennedy on November 1, 1992.
Lacy Veach died in Houston, Texas, on October 3, 1995, of cancer.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
* 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.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
www.constantinroman.com/continentaldrift
Cambridge Scholar and last research Student of Sir Edward Bullard, FRS, in the Dept of Geodesy and Geophysics at Cambridge.
Pioneer of Plate Tectonics introducing new concepts:
1. The definition of the geometry of the sinking lithosphere under the Carpathian arc of Romania (Nature 1970)
2. The first plate Tectonic Model of the Carpathian arc (Luxemburg 1970)
3. The definition of the Black Sea Plate (Luxemburg 1970)
4. The definition of non-rigid lithospheric plates or "Buffer Plates" (Geophysical Journal of the Royal astronomical Society, London)
5. The definition of the first focal mechanisms of large earthquakes behind the Himalayas (New Scientist 1972)
6. The study of seimotectonics of Central Asia and the definition of the Tibetan and Sinkiang Buffer plates. (New Scientist, and Geophys. J. roy. astr. Soc.)
7. The definition of the Persian and Anatolian Buffer Plate (Geophys. J. roy. astr. Soc.)
8. The geodynamic model of the Black Sea plate (Romanian Academy, Geological Society of London, Geological Society of Dallas)
9. The Geodynamic reconstruction of the Moray Firth Basin (inhouse proprietary study Amoco, 1976)
10. International Energy Adviser to Governments and world Industry
11. Promoter of Worldwide Exploration Opportunities
12. Editor of the Centre for Romanian Studies London (since 2002)
13. Translator, author and freelance journalist
14. Art Collector
Scholar of Peterhouse, Cambrige (1969-1973)
PhD Cambridge 1973
Personal Adviser (Energy) to the Presidemt of Romania (1996-2000)
Professor Honoris Causa U. of Bucharest (1997)
Commander of the Order of Merit (Romania, 2000)
Member of the Society of Authors (London)
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 ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
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...
I can propose any company the low-cost 3D-4Dseist modeling:
The newest results lnkd.in/g4-HVcj
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.
For the first time in world practice, the interpretation of the 3Dseist spacetime structure of the stress field of a 3D seismic model has been performed.
1. Transcendence of the 3Dseist volume structure of spacetime to any section of 3D geospace (the absolute permeability of 2D-3D geospace environment), which allows you to interpolate and integrate information between a horizontal plane and any vertical section was proved!
2. For the first time, not only the visible tectonic structures of the geological layers but also the hidden compression stress lineaments of the post-inversion stage of subducting, compression and folding were identified.
3. For the first time, a unified structure of the stretching of oil-and-gas bearing traps in the zones of the subducting blocks of the high-angle reverse fault has been identified.
4. For the first time, the vortex lineament structure (pink color) of intermediate stresses, which determine the vertical internal expansion of space-time and the geodynamic zones of the ascending (left part) and descending (right part) energy-mass flows was determined.
* 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 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.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
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 sulphide 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.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
In the 1930s, Nikola Tesla revived the idea of tele-geodynamics to create small, realtively harmless tremors to relieve stress, rather than having to wait in fear for nature to take it's course. Perhaps this idea did not remain the idle speculation of a scientist whose star had never been on the ascendant since the 27,000 dead Japanese, and we occasionally experience the devious machinations of invisible "earthquake merchants" at the behest of the unseen hands who wish to experiment on and control the populace.
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
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 ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
de.wikipedia.org/wiki/Ringturm
The ring tower is a striking high-rise building in a prominent location in Vienna, where is located the headquarters of the Vienna Insurance Group. It was built in 1953-1955 after designs of Erich Boltenstern at Schottenring inside the Viennese Ringstrasse and is located at the stop Schottenring of the Wiener Linien (Vienna Public Transport). The 73 meter (93 meter height including the weather light column) high ring tower was deemed as innovative project for the reconstruction of the city.
The building, which previously stood on this plot, was the only one of the entire Scots ring which was destroyed in the Second World War. The ring tower with its 23 floors and its 20-meter high weather lighthouse is the second highest building inside Vienna's Ringstrasse. Higher is only the Gothic-style St. Stephen's Cathedral. In addition to the central office of the Vienna Insurance Group are now also offices of Wiener Stadtwerke (public utility company) in the ring tower. In the office building a total of 12,000 square meters of effective surface is available. The facade and parts of the ring tower were renovated in 1996.
Name
In a contest, a name was sought for the then very modern office skyscraper. Among 6,502 entries the name "ring tower" was chosen. There were, among other proposals, such as City House, Gutwill-house (goodwill-house), house of reciprocity, high-corner, new tower, Sonnblick-house, insurance high-rise, Vindobona-house or vision-house (farsightedness-house) of the creative population after the war. One of the submitters of the name "ring tower" was rewarded with an honorarium of 2,000 shillings.
Weather lighthouse
Weather lighthouse, seen from the ring road
On the roof there is the 20-meter high weather lighthouse with 117 lights in differently colored light signals the weather for the next day displaying (each 39 white, red and green lights as well as 2 additional air traffic control lights).
This light column is directly connected to the ZAMG (Central Institute for Meteorology and Geodynamics) on the Hohenwarte in Vienna.
Meaning of the signals:
red ascending = temperature rising
red descending = temperature falling
green ascending = weather conditions will be better
green descending = weather will be worse
Flashing red = warning lightning or storms
Flashing white = snow or ice
Ringturm 2013
Ringturm disguising
Since 2006, the ring tower is changed every year into an "art tower " by covering the building with printed webs. The covering consists of 30 printed network paths with about 3 meters wide and 63 or 36 meters in length , and the resulting area is approximately 4,000 square meters.
The previous art projects:
2006 "Don Giovianni" by Christian Ludwig Attersee (on the occasion of the Mozart Year)
2007 "Tower of Life" by Robert Hammerstiel
2008 "Tower in Bloom" by Hubert Schmalix (Blumenstillleben)
2011 "Sense of family" Xenia Hausner
2012 "Society" by Hungarian artist László Fehér
2013 "Connectedness" of the Slovak artist Dorota Sadovská
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