A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Relocated Steel Structure using ARCGIS (An ArcGIS Case Study of Soil Properties, Area Calculation, and 3D Analysis)
The geospatial elements of steel structure relocation are investigated in this thesis. Particular attention is paid to the categorization of soil using ArcGIS, the creation of 3D models using ArcGIS, and the determination of the most suitable research area using Google Earth Engine. The purpose of this study is to get an understanding of the environmental elements that influence the structural stability and performance of steel structures when they are relocated. The first step is to classify the soil at the existing site of the structure as well as the potential new location. This entails analyzing aspects of the soil such as its type, composition, and texture. ArcGIS is used to produce a complete 3D model, which provides a thorough picture of the terrain and topography, as well as identifies possible barriers and determines the ideal location of the construction. In the last step of the relocation project, a calculation is made using Google Earth Engine to determine the most appropriate research area for the project. This calculation takes into account a variety of parameters, including land use, land cover, environmental limits, and accessibility. This comprehensive approach helps to assure informed decision-making, improves structural stability, and reduces environmental consequences, all of which contribute to the effectiveness and sustainability of future structural relocations.
Relocated Steel Structure using ARCGIS (An ArcGIS Case Study of Soil Properties, Area Calculation, and 3D Analysis)
The geospatial elements of steel structure relocation are investigated in this thesis. Particular attention is paid to the categorization of soil using ArcGIS, the creation of 3D models using ArcGIS, and the determination of the most suitable research area using Google Earth Engine. The purpose of this study is to get an understanding of the environmental elements that influence the structural stability and performance of steel structures when they are relocated. The first step is to classify the soil at the existing site of the structure as well as the potential new location. This entails analyzing aspects of the soil such as its type, composition, and texture. ArcGIS is used to produce a complete 3D model, which provides a thorough picture of the terrain and topography, as well as identifies possible barriers and determines the ideal location of the construction. In the last step of the relocation project, a calculation is made using Google Earth Engine to determine the most appropriate research area for the project. This calculation takes into account a variety of parameters, including land use, land cover, environmental limits, and accessibility. This comprehensive approach helps to assure informed decision-making, improves structural stability, and reduces environmental consequences, all of which contribute to the effectiveness and sustainability of future structural relocations.
Relocated Steel Structure using ARCGIS (An ArcGIS Case Study of Soil Properties, Area Calculation, and 3D Analysis)
Roy, Rahul (author)
2023-01-01
URN:NBN:fi:amk-2023112030182
Theses
Electronic Resource
English
soil , mapping , geographic information systems , Three-dimensional imaging , modelling (representation) , fi=Rakennus- ja yhdyskuntatekniikka|sv=Byggnads- och samhällsteknik|en=Civil and Construction Engineering| , Steel Structure , steel constructions , remote sensing , ArcGIS , soils , Sustainable Technology , geographic information
DDC:
710
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