Preparation of Synthetic As-Damaged Models for Post-Earthquake BIM Reconstruction Research

AbstractPost-earthquake operations, such as search and rescue and damage assessment, require efficient and effective surveying technologies to rapidly capture the “as-damaged” state of buildings. Recent research has shown early feasibility of methods for compilation of as-damaged building information models (BIM) from as-damaged point cloud data and “as-built” models. Yet research efforts to develop and rigorously test appropriate methods are seriously hampered by the obvious scarcity of access for researchers to earthquake-damaged buildings for surveying specimens and hence the lack of terrestrial laser scanning data of post-earthquake buildings. Full-scale or reduced-scale physical models of building components can be built and damaged using a shaking table or other structural laboratory equipment, and these can be scanned, all at reasonable cost. However, equivalent full-scale building samples are unavailable. The solution is to synthesize accurate and representative data sets. A computational approach...

[1]  David Arditi,et al.  AUTOMATED PROGRESS CONTROL USING LASER SCANNING TECHNOLOGY , 2013 .

[2]  George Vosselman,et al.  EXTRACTING WINDOWS FROM TERRESTRIAL LASER SCANNING , 2007 .

[3]  Reginald DesRoches,et al.  Rapid entropy-based detection and properties measurement of concrete spalling with machine vision for post-earthquake safety assessments , 2012, Adv. Eng. Informatics.

[4]  Mani Golparvar-Fard,et al.  Image-Based Automated 3D Crack Detection for Post-disaster Building Assessment , 2014, J. Comput. Civ. Eng..

[5]  Burcu Akinci,et al.  A formalism for utilization of sensor systems and integrated project models for active construction quality control , 2006 .

[6]  Satyandra K. Gupta,et al.  Retrieving Matching CAD Models by Using Partial 3D Point Clouds , 2007 .

[7]  Miroslav Nastev,et al.  Urban RAT: New Tool for Virtual and Site-Specific Mobile Rapid Data Collection for Seismic Risk Assessment , 2016 .

[8]  Ralph R. Martin,et al.  Noise in 3D laser range scanner data , 2008, 2008 IEEE International Conference on Shape Modeling and Applications.

[9]  John W. van de Lindt,et al.  Experimental Seismic Response of a Full-Scale Six-Story Light-Frame Wood Building , 2010 .

[10]  Reginald DesRoches,et al.  Machine Vision-Enhanced Postearthquake Inspection , 2011, J. Comput. Civ. Eng..

[11]  Yang Dam Eo,et al.  Coregistration of terrestrial lidar points by adaptive scale-invariant feature transformation with constrained geometry , 2012 .

[12]  Reginald DesRoches,et al.  Automated Damage Index Estimation of Reinforced Concrete Columns for Post-Earthquake Evaluations , 2015 .

[13]  Burcu Akinci,et al.  Automated Recognition of 3D CAD Objects in Site Laser Scans for Project 3D Status Visualization and Performance Control , 2009 .

[14]  Luigi Barazzetti,et al.  Scan registration using planar features , 2014 .

[15]  B. Riley,et al.  EMERGENCY MANAGEMENT AGENCY , 2009 .

[16]  Jie Shan,et al.  A comprehensive review of earthquake-induced building damage detection with remote sensing techniques , 2013 .

[17]  Derek D. Lichti,et al.  Error Models and Propagation in Directly Georeferenced Terrestrial Laser Scanner Networks , 2005 .

[18]  Ayhan Irfanoglu,et al.  Performance of Template School Buildings during Earthquakes in Turkey and Peru , 2009 .

[19]  Burcin Becerik-Gerber,et al.  Assessment of target types and layouts in 3D laser scanning for registration accuracy , 2011 .

[20]  A. Whittaker,et al.  Damage Assessment of Reinforced Concrete Structures Using Fractal Analysis of Residual Crack Patterns , 2013 .

[21]  Chaitanya K. Baru,et al.  OpenTopography: a services oriented architecture for community access to LIDAR topography , 2011, COM.Geo.

[22]  Ioannis Brilakis,et al.  Visual retrieval of concrete crack properties for automated post-earthquake structural safety evaluation , 2011 .