Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
GIS and BIM Integration Model Workflow Towards Digital Twin to Assess Flood Impacts on Buildings
Floods are a highly destructive natural hazard that results in severe social and economic impacts. Traditional hazard-based approaches to flood management necessitate urgent improvements. A paradigm shift has been observed toward adopting a flood risk management (FRM) framework. This framework entails a multi-tier risk analysis approach to identify and mitigate flood-related hazards in an integrated manner. By reducing the hazard levels and potential damages, FRM treats these risks at various levels. In FRM, the development of flood-resilient buildings and infrastructures constitutes a crucial measure. However, current building resilience strategies lack the incorporation of distinctive building characteristics and their unique behaviours in risk evaluation. The need for new approaches and technological tools is imperative for the accurate evaluation of flood risk and the development of resilient buildings and infrastructures. The fast-paced changes in today's world require the incorporation of innovative technologies in the FRM domain to achieve flood- resilient buildings. However, the integration of new technologies, especially big data, presents new challenges for FRM. To overcome these challenges, the potential of emerging technologies in the FRM domain was investigated, revealing that their integration could enhance FRM. The integration of Geographic Information Systems (GIS) and Building Information Modelling (BIM) has been identified as a promising approach to improve FRM by merging hydrodynamic flood and building information into a single geospatial environment. This study investigates how the integration of GIS and BIM can improve flood risk management by creating a 3D digital twin for flood-resilient buildings, and to assess its potential for supporting flood impact assessment on buildings. In this multidisciplinary study, a novel, multiphase model workflow has been developed to create a 3D digital twin environment in order to enhance FRM for flood-resilient buildings. The digital twin enables an ...
GIS and BIM Integration Model Workflow Towards Digital Twin to Assess Flood Impacts on Buildings
Floods are a highly destructive natural hazard that results in severe social and economic impacts. Traditional hazard-based approaches to flood management necessitate urgent improvements. A paradigm shift has been observed toward adopting a flood risk management (FRM) framework. This framework entails a multi-tier risk analysis approach to identify and mitigate flood-related hazards in an integrated manner. By reducing the hazard levels and potential damages, FRM treats these risks at various levels. In FRM, the development of flood-resilient buildings and infrastructures constitutes a crucial measure. However, current building resilience strategies lack the incorporation of distinctive building characteristics and their unique behaviours in risk evaluation. The need for new approaches and technological tools is imperative for the accurate evaluation of flood risk and the development of resilient buildings and infrastructures. The fast-paced changes in today's world require the incorporation of innovative technologies in the FRM domain to achieve flood- resilient buildings. However, the integration of new technologies, especially big data, presents new challenges for FRM. To overcome these challenges, the potential of emerging technologies in the FRM domain was investigated, revealing that their integration could enhance FRM. The integration of Geographic Information Systems (GIS) and Building Information Modelling (BIM) has been identified as a promising approach to improve FRM by merging hydrodynamic flood and building information into a single geospatial environment. This study investigates how the integration of GIS and BIM can improve flood risk management by creating a 3D digital twin for flood-resilient buildings, and to assess its potential for supporting flood impact assessment on buildings. In this multidisciplinary study, a novel, multiphase model workflow has been developed to create a 3D digital twin environment in order to enhance FRM for flood-resilient buildings. The digital twin enables an ...
GIS and BIM Integration Model Workflow Towards Digital Twin to Assess Flood Impacts on Buildings
Ali, Ahsan (Autor:in)
01.01.2024
Buch
Elektronische Ressource
Englisch
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