This paper documents ongoing research into the application of 3D printing processes to GIS data. As 3D printing becomes more accessible to a broad audience, its application to GIS data is being investigated by industry, academia and amateur Makers. This paper will outline a technique for converting contour lines into a digital, printable 3D models using ArcGIS and Rhino software; other methods will also be briefly discussed. The end goal of this research is to develop a set of easy-to-follow guidelines for replicating this process in the context of an academic library, drawing on the author’s own experiences
This document proposes a set of processes necessary to convert a 2D topographic map into 3D informat...
The traditional method of using a conventional line-printer to produce rough isolines using raster c...
close. Based on the model of 3D data field capture, then according to the software conversion of STL...
Flat studies showing terrain (e.g. in form of maps) do not fully reflect its nature. Planning or des...
Due to the sophisticated nature of contour lines on 2D drawings, students often find difficulties in...
As the amount of scientific data continues to grow, researchers need new tools to help them visualiz...
The thesis deals with contemporary methods of converting 3D geoinformation model into analog/printed...
In In the last years there has been an increasing use of digital techniques for conservation and res...
3D printing techniques are becoming popular and common. They provide a nice and simple solution to c...
Measurements and models of global geophysical parameters such as potential fields, seismic velocity ...
<p>(<b>A</b>) A 3D model can be generated and visualized in a wide range of software packages. 3D mo...
C093: 3D Display and Printing explore methods to convert 3D data obtained using 3D measurement syste...
3D scanning and printing has the potential to revolutionise the world. It offers a bridge between th...
The instantiation of 3D models has become much more convenient attributable to the development of 3D...
Geographic Information Systems (GIS) integrate the technologies related to Geoprocessing, with the a...
This document proposes a set of processes necessary to convert a 2D topographic map into 3D informat...
The traditional method of using a conventional line-printer to produce rough isolines using raster c...
close. Based on the model of 3D data field capture, then according to the software conversion of STL...
Flat studies showing terrain (e.g. in form of maps) do not fully reflect its nature. Planning or des...
Due to the sophisticated nature of contour lines on 2D drawings, students often find difficulties in...
As the amount of scientific data continues to grow, researchers need new tools to help them visualiz...
The thesis deals with contemporary methods of converting 3D geoinformation model into analog/printed...
In In the last years there has been an increasing use of digital techniques for conservation and res...
3D printing techniques are becoming popular and common. They provide a nice and simple solution to c...
Measurements and models of global geophysical parameters such as potential fields, seismic velocity ...
<p>(<b>A</b>) A 3D model can be generated and visualized in a wide range of software packages. 3D mo...
C093: 3D Display and Printing explore methods to convert 3D data obtained using 3D measurement syste...
3D scanning and printing has the potential to revolutionise the world. It offers a bridge between th...
The instantiation of 3D models has become much more convenient attributable to the development of 3D...
Geographic Information Systems (GIS) integrate the technologies related to Geoprocessing, with the a...
This document proposes a set of processes necessary to convert a 2D topographic map into 3D informat...
The traditional method of using a conventional line-printer to produce rough isolines using raster c...
close. Based on the model of 3D data field capture, then according to the software conversion of STL...