Conversion of a GIS surface data directly to a 3D STL part for terrain modeling
Abstract
Purpose
This paper aims to convert surface data directly to a three-dimensional (3D) stereolithography (STL) part. The Geographic Information Systems (GIS) data available for a terrain are the data of its surface. It doesn’t have information for a solid model. The data need to be converted into a three-dimensional (3D) solid model for making physical models by additive manufacturing (AM).
Design/methodology/approach
A methodology has been developed to make the wall and base of the part and tessellates the part with triangles. A program has been written which gives output of the part in STL file format. The elevation data are interpolated and any singularity present is removed. Extensive search techniques are used.
Findings
AM technologies are increasingly being used for terrain modeling. However, there is not enough work done to convert the surface data into 3D solid model. The present work aids in this area.
Practical implications
The methodology removes data loss associated with intermediate file formats. Terrain models can be created in less time and less cost. Intricate geometries of terrain can be created with ease and great accuracy.
Social implications
The terrain models can be used for GIS education, educating the community for catchment management, conservation management, etc.
Originality/value
The work allows direct and automated conversion of GIS surface data into a 3D STL part. It removes intermediate steps and any data loss associated with intermediate file formats.
Keywords
Citation
Agrawal, S., J. de Beer, D. and Kumar Modi, Y. (2014), "Conversion of a GIS surface data directly to a 3D STL part for terrain modeling", Rapid Prototyping Journal, Vol. 20 No. 5, pp. 422-430. https://doi.org/10.1108/RPJ-10-2012-0093
Publisher
:Emerald Group Publishing Limited
Copyright © 2014, Emerald Group Publishing Limited