FROM SFM TO 3D PRINT: AUTOMATED WORKFLOW ADDRESSED TO PRACTITIONER AIMED AT THE CONSERVATION AND RESTAURATION
- Resource Type
- Authors
- Laura Inzerillo; F. Di Paola
- Source
- The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XLII-2-W5, Pp 375-382 (2017)
- Subject
- lcsh:Applied optics. Photonics
0209 industrial biotechnology
Engineering
Point cloud
3D printing
02 engineering and technology
computer.software_genre
lcsh:Technology
020901 industrial engineering & automation
Documentation
0502 economics and business
Polygon mesh
Multimedia
lcsh:T
business.industry
05 social sciences
lcsh:TA1501-1820
Automation
SfM, Image Based Modeling, Automation, Restauration, Conservation, 3D printing
Variety (cybernetics)
Workflow
lcsh:TA1-2040
Settore ICAR/17 - Disegno
State (computer science)
lcsh:Engineering (General). Civil engineering (General)
business
Software engineering
computer
050203 business & management
- Language
- English
- ISSN
- 2194-9034
In In the last years there has been an increasing use of digital techniques for conservation and restoration purposes. Among these, a very dominant rule is played by the use of digital photogrammetry packages (Agisoft Photoscan, 3D Zephir) which allow to obtain in few steps 3D textured models of real objects. Combined with digital documentation technologies digital fabrication technologies can be employed in a variety of ways to assist in heritage documentation, conservation and dissemination. This paper will give to practitioners an overview on the state of the art available technologies and a feasible workflow for optimizing point cloud and polygon mesh datasets for the purpose of fabrication using 3D printing. The goal is to give an important contribute to confer an automation aspect at the whole processing. We tried to individuate a workflow that should be applicable to several types of cases apart from small precautions. In our experimentation we used a DELTA WASP 2040 printer with PLA easyfil.