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| − | + | == Abstract == | |
| + | The aim of the paper is to analyze practical aspects with use of 3D Model for accurate | ||
| + | building condition assessment. Use of fully interactive visualization methods from a technical condition | ||
| + | assessment platform going to be, especially taking into consideration current COVID-19 scenarios, a | ||
| + | very supportive tool for the massive inspection of building stocks, particularly in big residential areas. | ||
| + | The authors present the approach based on high-performance images that were captured by Unmanned | ||
| + | Aerial Vehicles (UAVs). The next step is the generation of a 3D model and orthophotos of building | ||
| + | facades. The graphical information together with tables of attributes will allow the interactive georeferenced management and assessment, that is proposed as a form of interactive cooperation. The idea | ||
| + | of this approach corresponds widely with the Building Information Modeling aims. The authors | ||
| + | introduce the methodology, stages of the inventory and follow-up process carried out within the platform | ||
| + | requirements together with advantages of the visualization techniques, basing on a particular case | ||
| + | study. Technical details about the information system and the analysis connected with the visualization | ||
| + | utility will be presented and illustrated. | ||
== Full document == | == Full document == | ||
| − | <pdf>Media: | + | <pdf>Media:Banaszek_et_al_2020a_3052_p942_OK.pdf</pdf> |
Latest revision as of 07:52, 1 March 2021
Abstract
The aim of the paper is to analyze practical aspects with use of 3D Model for accurate building condition assessment. Use of fully interactive visualization methods from a technical condition assessment platform going to be, especially taking into consideration current COVID-19 scenarios, a very supportive tool for the massive inspection of building stocks, particularly in big residential areas. The authors present the approach based on high-performance images that were captured by Unmanned Aerial Vehicles (UAVs). The next step is the generation of a 3D model and orthophotos of building facades. The graphical information together with tables of attributes will allow the interactive georeferenced management and assessment, that is proposed as a form of interactive cooperation. The idea of this approach corresponds widely with the Building Information Modeling aims. The authors introduce the methodology, stages of the inventory and follow-up process carried out within the platform requirements together with advantages of the visualization techniques, basing on a particular case study. Technical details about the information system and the analysis connected with the visualization utility will be presented and illustrated.
Full document
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Published on 25/09/20
Submitted on 28/09/20
DOI: 10.23967/dbmc.2020.235
Licence: CC BY-NC-SA license
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