Earth scientists are frequently confronted with problems that involve 3-dimensional phenomena, but up until now the main computerized geoprocessing tool available to them has been the 2-dimensional GIS. New 3-dimensional geoprocessing capabilities are being developed and will be in their hands in 1989. These systems address a class of problems that could not be dealt with before and will provide answers to questions that we did not realize we could ask
Computer technology has evolved to a position of being able to handle large three-dimensional (3D) d...
Geologists are finally able to capture their vision using new technolgy and methods to build systema...
Geomatics, also known as geospatial technology or geomatics engineering, refers to the set of discip...
In this paper we dissected the 3-dimensional Geographic Information Systems (3D GISs) and disambigua...
In this paper we dissected the 3-dimensional Geographic Information Systems (3D GISs) and disambigua...
While most current Geographical Information Systems (GIS) are 2D GIS, more and more application doma...
Three-dimensional display-technologies offer a great potential to being used in digital cartography ...
Currently, a variety of software is capable of handling a wide range of spatial problems, beginning ...
Two-dimensional geographical information systems are extensively used in the geosciences to create a...
The Geological Surveying and Investigation in 3 Dimensions (GSI3D) software tool and methodology has...
Geoinformation systems (GIS) contain information about objects in geo-graphic space; the focus on ge...
The rapidly increasing computer power has made it possible to work with 3D in geographical informati...
Since 2001, six workshops on three-dimensional (3-D) geological mapping have been conducted in assoc...
When developing a 3-D view of the subsurface, a geologist has to collect, validate and integrate a ...
A spatial information system (SIS) is critical to the hosting, querying, and analyzing of spatial da...
Computer technology has evolved to a position of being able to handle large three-dimensional (3D) d...
Geologists are finally able to capture their vision using new technolgy and methods to build systema...
Geomatics, also known as geospatial technology or geomatics engineering, refers to the set of discip...
In this paper we dissected the 3-dimensional Geographic Information Systems (3D GISs) and disambigua...
In this paper we dissected the 3-dimensional Geographic Information Systems (3D GISs) and disambigua...
While most current Geographical Information Systems (GIS) are 2D GIS, more and more application doma...
Three-dimensional display-technologies offer a great potential to being used in digital cartography ...
Currently, a variety of software is capable of handling a wide range of spatial problems, beginning ...
Two-dimensional geographical information systems are extensively used in the geosciences to create a...
The Geological Surveying and Investigation in 3 Dimensions (GSI3D) software tool and methodology has...
Geoinformation systems (GIS) contain information about objects in geo-graphic space; the focus on ge...
The rapidly increasing computer power has made it possible to work with 3D in geographical informati...
Since 2001, six workshops on three-dimensional (3-D) geological mapping have been conducted in assoc...
When developing a 3-D view of the subsurface, a geologist has to collect, validate and integrate a ...
A spatial information system (SIS) is critical to the hosting, querying, and analyzing of spatial da...
Computer technology has evolved to a position of being able to handle large three-dimensional (3D) d...
Geologists are finally able to capture their vision using new technolgy and methods to build systema...
Geomatics, also known as geospatial technology or geomatics engineering, refers to the set of discip...