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

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

By results of structurally-geodynamic interpretation and 3D GeoSEIS Tomography modelling of a gravitational field the predicted gold-polymetallic deposits prospected area it is necessary to consider unpromising for prospecting; Predicted tectonic faults are not correct...

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

de.wikipedia.org/wiki/Ringturm

Geo Dynamics is pleased to announce its recent tie-up with PROCEQ SA world leaders for Non Destructive Testing Products for Concrete, Metal, and Paper/Film industry. Geo Dynamics will represent PROCEQ SA for sales through North India for their concrete testing products like Rebar Detection, Pull Off Testing, Corrosion Analysis, Ultrasonic Testing, Permeability Analysis and Concrete Test Hammer.

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 Austrian Research Promotion Agency (FFG) Forum on 13 September 2018 - Panel 1 at FFG FORUM: "Impact – made in Europe" with Klement Tockner (Austrian Science Fund FWF), Mark Ferguson (Science Foundation Ireland), Moderator Gerald Gross, Lena Tsipouri (National and Kapodistrian University of Athens), Michael Staudinger (Central Institute for Meteorology and Geodynamics ZAMG) and Peter Prenninger (AVL List GmbH) (from the left to the right). Copyright FFG/Klaus Morgenstern

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.

In this photo, Mr. Michael Staudinger, ex-Director of the Central Institute of Meteorology and Geodynamics (ZAMG), discusses the history of IMO-WMO, emphasizing the significance of the initial steps and pioneers of IMO. He highlights how the work of these pioneers holds immense value in comprehending the current scenario and predicting the future. Mr. Staudinger sheds light on the first activities, their methods, and the extent of their evolution over time.

A sensational 2D-3Dseist mapping of lineament structure of stresses and deformations by decoding an image showing a lateral spread triggered by the Alaska Earthquake!

* 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 Austrian Research Promotion Agency (FFG) Forum on 13 September 2018 - Panel 1 at FFG FORUM: "Impact – made in Europe" with Klement Tockner (Austrian Science Fund FWF), Mark Ferguson (Science Foundation Ireland), Moderator Gerald Gross, Lena Tsipouri (National and Kapodistrian University of Athens), Michael Staudinger (Central Institute for Meteorology and Geodynamics ZAMG) and Peter Prenninger (AVL List GmbH) (from the left to the right). Copyright FFG/Klaus Morgenstern

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

de.wikipedia.org/wiki/Ringturm

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 activization 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.

Volumetric 3D GeoSEIS Tomography Model of stress lineaments

and maximum destructions

on area around Kathmandu

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 activization 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.

Geo Dynamics is pleased to announce its recent tie-up with PROCEQ SA world leaders for Non Destructive Testing Products for Concrete, Metal, and Paper/Film industry. Geo Dynamics will represent PROCEQ SA for sales through North India for their concrete testing products like Rebar Detection, Pull Off Testing, Corrosion Analysis, Ultrasonic Testing, Permeability Analysis and Concrete Test Hammer.

Структурно-геодинамическая модель и тектонофизические карты 3-х пластов песчаников, вмещающих сурьмянно-ртутные жилы Катушкинской антиклинали Никитовского Рудного Поля (Я.И. Бондаренко, 1989г) высокой сложности, не имеющей мировых аналогов, с выделением линеаментов поля напряжений и трещиноватости в условиях наличия перекрывающей 100 метровой толщи меловых отложений, выполнено только по данным буровых скважин и без применения геофизических методов!

В настоящее время я предлагаю всем серьезным организациям намного более сложные многокомпонентные 3D-4Dseist прогнозные модели любой территории Земли, планет солнечной системы, Солнца, галлактик и наблюдаемой части вселенной, которые быстро создаются с помощью технологии 3D-4Dseist tomography...

WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4Dseist Tomography, Modelling, and Monitoring???

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

* The integrated 3D-4Dseist Tomography Method is a unique tool of 3D-4D 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 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 4Dseist tomography modeling of spectral brightness and geophysical fields to targeting problems. This emerging 4Dseist technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in the discovery.

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.

Eurasian Plate.

The Eurasian Plate is a tectonic plate which includes most of the continent of Eurasia (a landmass consisting of the traditional continents of Europe and Asia), with the notable exceptions of the Indian subcontinent, the Arabian subcontinent, and the area east of the Chersky Range in East Siberia. It also includes oceanic crust extending westward to the Mid-Atlantic Ridge and northward to the Gakkel Ridge.

The eastern side is a boundary with the North American Plate to the north and a boundary with the Philippine Sea Plate to the south, and possibly with the Okhotsk Plate and the Amurian Plate. The southerly side is a boundary with the African Plate to the west, the Arabian Plate in the middle and the Indo-Australian Plate to the east. The westerly side is a divergent boundary with the North American Plate forming the northernmost part of the Mid-Atlantic Ridge, which is straddled by Iceland. The 1973 eruption of Eldfell, the volcano of the Icelandic island Heimaey, caused by the North American and the Eurasian plates moving apart, is a result of divergent plate boundary forces.

Eurasian & Anatolian Plate

The geodynamics of central Asia is dominated by the interaction between the North Eurasia and India Plates. In this area, many subplates or crust blocks have been recognized. These subplates or crust blocks form the Central Asian transit zone and the East Asian transit zone

Zentralanstatlt fur meteorologie und geodynamic....quello che un tempo era l'Istituto Talassografico di Trieste

Geo Dynamics is pleased to announce its recent tie-up with PROCEQ SA world leaders for Non Destructive Testing Products for Concrete, Metal, and Paper/Film industry. Geo Dynamics will represent PROCEQ SA for sales through North India for their concrete testing products like Rebar Detection, Pull Off Testing, Corrosion Analysis, Ultrasonic Testing, Permeability Analysis and Concrete Test Hammer.

Processed with CARIS HIPS and SIPS

Author: Ben Summers and Dave Bernstein, Geodynamics

The fourteenth multibeam survey of Ocean City Inlet, Maryland, United States to locate sand for beach nourishment.

Acknowledgements: Offshore & Coastal technologies Inc. and United States Army Corps of Engineers Baltimore District.

Greek Orthodox priests pass by a destroyed house in the village of Valmi, Greece, Monday June 9, 2008. Seismologists warned Monday that a strong aftershock was expected in southwestern Greece a day after a powerful earthquake killed two people and injured nearly 150. The quake, which had a preliminary magnitude of 6.5, struck Sunday afternoon near the western port city of Patras, about 120 miles (200 kilometers) west of Athens, the Athens Geodynamic Institute said. (AP Photo/Phil Ipparis)

The method of 2D-3Dseist filtering and decoding multispectral image of the Pleiades spacecraft was used.

The 3Dseist model proved the possibility and correctness of decoding and mapping the volumetric field of deformations and stresses of spacetime of anthropogenic objects from satellite images, which can be transformed into 3D 4Dseist models of stress fields using 3D-4Dseist Tomography!

* I advise professionals, true scientists, and creationists to download images for further scaling up with a detailed study of the unique volumetric - hypercrystalline microstructure of the spacetime of thin world (dark energy and matter) of physical fields

* Professionals should pay attention to the logical relationship between the manifestation of the volumetric frame-block structure of 3D-4Dseist spacetime and the angular deformations of the perspective view of the plane in a three-dimensional coordinate system, which once again proves the torsion nature of 3D-4Dseist spacetime!

* The image illustrates only the first stage of volumetric 3Dseist mapping of the lineament field, which will be used to create a volumetric 4Dseist model of the stress and strain field of the inner 4Dseist spacetime of the thin world of physical fields.

Example: flic.kr/p/f1ZMCd

In the 1930s, 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 turn of the century, 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.

Geo Dynamics is India’s Pioneering Company committed to provide quality non-destructive test services to the pile foundation and construction industry using the NDT equipments.

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.

Eurasian Plate.

The Eurasian Plate is a tectonic plate which includes most of the continent of Eurasia (a landmass consisting of the traditional continents of Europe and Asia), with the notable exceptions of the Indian subcontinent, the Arabian subcontinent, and the area east of the Chersky Range in East Siberia. It also includes oceanic crust extending westward to the Mid-Atlantic Ridge and northward to the Gakkel Ridge.

The eastern side is a boundary with the North American Plate to the north and a boundary with the Philippine Sea Plate to the south, and possibly with the Okhotsk Plate and the Amurian Plate. The southerly side is a boundary with the African Plate to the west, the Arabian Plate in the middle and the Indo-Australian Plate to the east. The westerly side is a divergent boundary with the North American Plate forming the northernmost part of the Mid-Atlantic Ridge, which is straddled by Iceland. The 1973 eruption of Eldfell, the volcano of the Icelandic island Heimaey, caused by the North American and the Eurasian plates moving apart, is a result of divergent plate boundary forces.

Eurasian & Anatolian Plate

The geodynamics of central Asia is dominated by the interaction between the North Eurasia and India Plates. In this area, many subplates or crust blocks have been recognized. These subplates or crust blocks form the Central Asian transit zone and the East Asian transit zone

Geo Dynamics is India’s Pioneering Company committed to provide quality Ground Penetrating Radar Technology Services using latest GPR Technology available in the market.

A priest passes by a razed church in Valmi on Monday June 9, 2008. Seismologists warned Monday that a strong aftershock was expected in southwestern Greece a day after a powerful earthquake killed two people and injured nearly 150. The quake, which had a preliminary magnitude of 6.5, struck Sunday afternoon near the western port city of Patras, about 120 miles (200 kilometers) west of Athens, the Athens Geodynamic Institute said.(AP Photo/Petros Karadjias)

Athens Geodynamic Institute analyzed the earthquake's magnitude at 5.8

Reports came from as far as Albania, Montenegro, Bulgaria and Southern Italy.

Thanassis Ganas, Athens Geodynamic Institute: "We need 48 hours to say with 99 percent certainty that this was the main quake" In 1953 a 7.2 magnitude quake struck three days after a 6.4.

The quakes of 1953 were not created by the same fault as the 6.1mag of Jan 26th.

USGS: earthquake.usgs.gov/earthquakes/eventpage/usb000m8ch#summary

A priest walks by a flattened house at the village of Vlami, Monday June 9, 2008. Seismologists warned Monday that a strong aftershock was expected in southwestern Greece a day after a powerful earthquake killed two people and injured nearly 150. The quake, which had a preliminary magnitude of 6.5, struck Sunday afternoon near the western port city of Patras, about 120 miles (200 kilometers) west of Athens, the Athens Geodynamic Institute said.(AP Photo/Phil Ipparis)

In the 1930s, 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 turn of the century, 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.

So Holmes was right about plumes but wrong about mid-oceanic seafloor spreading. It is now generally agreed that slab pull / subduction is the dominant driving force for plate motion. A real game changer. A lot of diagrams are going to have to be redrawn!

Geo Dynamics is India’s Pioneering Company committed to provide quality Dynamic Pile Load Testing, High Strain Dynamic Pile Testing, Low Strain Integrity Testing services using latest Pile Driving Analyzers, Pile Integrity Testers & NDT equipments.

Carey Hain (BoyarMiller), Matt Bell (GEODynamics) and Ken Teusink (SunBelt Business Brokers)

Dr. Noah Petro, of Goddard's Planetary Geodynamics group, tells the group about some of the things he does as a Lunar scientist. (Some of our Goddard hosts, seated, and Camilla, just back from JSC.)

YouTube - Noah Petro LRO Live! Question #20

www.youtube.com/watch?v=YZ3YJBCax8o

Geo Dynamics is India’s Pioneering Company committed to provide quality Dynamic Pile Load Testing, High Strain Dynamic Pile Testing, Low Strain Integrity Testing services using latest Pile Driving Analyzers, Pile Integrity Testers & NDT equipments.

Geo Dynamics is India’s Pioneering Company committed to provide quality Dynamic Pile Load Testing, High Strain Dynamic Pile Testing, Low Strain Integrity Testing services using latest Pile Driving Analyzers, Pile Integrity Testers & NDT equipments.