An object-based image analysis for building seismic vulnerability assessment using high-resolution remote sensing imagery

Building seismic vulnerability assessment plays an important role in formulating pre-disaster mitigation strategies for developing countries. The occurrence of high-resolution satellite sensors has greatly motivated it by providing a promising approach to obtain building information. However, this also brings a big challenge to the accurate building extraction and its coherent integration with the assessment model. The main objective of this paper is to investigate how to extract building attributes from high-resolution remote sensing imagery using the object-based image analysis (OBIA) method, so as to accurately and conveniently assess building seismic vulnerability by the combination of in situ field data. A general framework for the assessment of building seismic vulnerability is presented, including (1) the extraction of building information using OBIA, (2) building height estimation, and (3) the support vector machine (SVM)-based building seismic vulnerability assessment. Particularly, an integrated solution is proposed that merges the strengths of multiple spatial contextual relationships and some typical image object measures, under the unified framework to improve building information extraction at different scale levels as well as for different interest objects. With the aid of 35 building samples from two powerful earthquakes in China, the cloud-free WorldView-2 images and some building structure parameters from field survey were used to quantity the grades of building seismic vulnerability in Wuhan Optics Valley, China. The results show that all 48 buildings among the study area have been well detected with an overall accuracy of 80.67 % and the mean error of heights estimated from building shadow is less than 2 m. This indicates that the integrated analysis strategy based on OBIA is suitable for extracting the building information from high-resolution remote sensing imagery. Additionally, the assessment results using SVM show that the building seismic vulnerability is statistically significantly related to structure types and building heights. Both the proposed OBIA method and its integration strategy with SVM are easily implemented and provide readily interpretable assessment results for building seismic vulnerability. This reveals that the proposed method has a great potential to assist urban planners for making local disaster mitigation planning through the prioritization of intervention measures, such as the reinforcement of walls and the dismantlement of endangered houses.

[1]  Yang Shao,et al.  Shadow detection and building-height estimation using IKONOS data , 2011 .

[2]  Helmut Mayer,et al.  Automatic Object Extraction from Aerial Imagery - A Survey Focusing on Buildings , 1999, Comput. Vis. Image Underst..

[3]  Guney Ozcebe,et al.  Prediction of potential damage due to severe earthquakes , 2004 .

[4]  Bruno Merz,et al.  Possibilities and Limitations of Interdisciplinary, User-oriented Research: Experiences from the German Research Network Natural Disasters , 2006 .

[5]  M. Panagiota,et al.  A support vector regression approach for building seismic vulnerability assessment and evaluation from remote sensing and in-situ data , 2012, 2012 IEEE International Geoscience and Remote Sensing Symposium.

[6]  Pierre Soille,et al.  Extracting building stock information from optical satellite imagery for mapping earthquake exposure and its vulnerability , 2013, Natural Hazards.

[7]  Yongwang Zhao,et al.  A hierarchical organization approach of multi-dimensional remote sensing data for lightweight Web Map Services , 2012, Earth Science Informatics.

[8]  E. Reinoso,et al.  A Simplified Method for Vulnerability Assessment of Dwelling Buildings and Estimation of Damage Scenarios in Catalonia, Spain , 2006 .

[9]  Thomas Blaschke,et al.  Multiscale image analysis for ecological monitoring of heterogeneous, small structured landscapes , 2002, Remote Sensing.

[10]  H. S. B. Duzgun,et al.  An integrated earthquake vulnerability assessment framework for urban areas , 2011 .

[11]  Eléonore Wolff,et al.  Change detection in urban areas using very high spatial resolution satellite images: case study in Brussels , 2005, SPIE Remote Sensing.

[12]  Tao Jiang,et al.  Stratified and automatic information extraction from high-resolution satellite imagery based on an object-oriented method , 2009, International Symposium on Digital Earth.

[13]  Claus Brenner,et al.  Extraction of buildings and trees in urban environments , 1999 .

[14]  Peter Reinartz,et al.  Adaptive Shadow Detection Using a Blackbody Radiator Model , 2011, IEEE Transactions on Geoscience and Remote Sensing.

[15]  D. Wald,et al.  A Global Building Inventory for Earthquake Loss Estimation and Risk Management , 2010 .

[16]  Marina Mueller,et al.  Potential of High-Resolution Satellite Data in the Context of Vulnerability of Buildings , 2006 .

[17]  Dong-Chen He,et al.  A new approach to building identification from very‐high‐spatial‐resolution images , 2009 .

[18]  Conghe Song,et al.  Impacts of landscape structure on surface urban heat islands: A case study of Shanghai, China , 2011 .

[19]  J. Strobl,et al.  Object-Oriented Image Processing in an Integrated GIS/Remote Sensing Environment and Perspectives for Environmental Applications , 2000 .

[20]  Yang Cunjian Extracting the Rural Residential Information From High Resolution Satellite Imagery , 2009 .

[21]  V. Shettigara,et al.  HEIGHT DETERMINATION OF EXTENDED OBJECTS USING SHADOWS IN SPOT IMAGES , 1998 .

[22]  R. Bruce Irvin,et al.  Methods For Exploiting The Relationship Between Buildings And Their Shadows In Aerial Imagery , 1989, Photonics West - Lasers and Applications in Science and Engineering.

[23]  Ming Zhong,et al.  Object-Based Classification of Urban Areas Using VHR Imagery and Height Points Ancillary Data , 2012, Remote. Sens..

[24]  Christian Heipke,et al.  Building extraction from aerial imagery using a generic scene model and invariant geometric moments , 2001, IEEE/ISPRS Joint Workshop on Remote Sensing and Data Fusion over Urban Areas (Cat. No.01EX482).

[25]  Hai-Yan Yu,et al.  MSER based shadow detection in high resolution remote sensing image , 2010, 2010 International Conference on Machine Learning and Cybernetics.

[26]  G. Strunz,et al.  Assessing building vulnerability to earthquake and tsunami hazard using remotely sensed data , 2013, Natural Hazards.

[27]  D. Tralli,et al.  Satellite remote sensing of earthquake, volcano, flood, landslide and coastal inundation hazards , 2005 .

[28]  Xinhui Li,et al.  Fill in Occlusion Regions on Remotely Sensed Images Using Texture Synthesis Technique , 2011, 2011 International Conference on Internet Computing and Information Services.

[29]  Li Qian-sh Investigation on damaged houses structure in Wenchuan earthquake disaster area , 2009 .

[30]  Xiaoling Chen,et al.  Remote sensing image-based analysis of the relationship between urban heat island and land use/cover changes , 2006 .

[31]  Hao Wu,et al.  Examining the Satellite-Detected Urban Land Use Spatial Patterns Using Multidimensional Fractal Dimension Indices , 2013, Remote. Sens..

[32]  Mahmod Reza Sahebi,et al.  Automatic building extraction from LIDAR digital elevation models and WorldView imagery , 2009 .

[33]  R. Brereton,et al.  Support vector machines for classification and regression. , 2010, The Analyst.

[34]  P. Guéguen,et al.  A simplified approach for vulnerability assessment in moderate-to-low seismic hazard regions: application to Grenoble (France) , 2007 .

[35]  Clive S. Fraser,et al.  Processing of Ikonos imagery for submetre 3D positioning and building extraction , 2002 .

[36]  D. Flanders,et al.  Preliminary evaluation of eCognition object-based software for cut block delineation and feature extraction , 2003 .

[37]  Laurent Durieux,et al.  A method for monitoring building construction in urban sprawl areas using object-based analysis of Spot 5 images and existing GIS data , 2008 .

[38]  Hugo Bachmann,et al.  On the Seismic Vulnerability of Existing Buildings: A Case Study of the City of Basel , 2004 .

[39]  J. R. Jensen,et al.  Remote Sensing of Urban/Suburban Infrastructure and Socio‐Economic Attributes , 2011 .

[40]  Ashley William Gunter,et al.  Getting it for free: Using Google earth™ and IL WIS to map squatter settlements in Johannesburg , 2009, 2009 IEEE International Geoscience and Remote Sensing Symposium.

[41]  Farid Melgani,et al.  A Complete Processing Chain for Shadow Detection and Reconstruction in VHR Images , 2012, IEEE Transactions on Geoscience and Remote Sensing.

[42]  J. X. Zhang,et al.  OBJECT-ORIENTED BUINDING EXTRACTION BY DSM AND VERY HIGH-RESOLUTION ORTHOIMAGES , 2008 .

[43]  Robert V. Whitman,et al.  HAZUS Earthquake Loss Estimation Methods , 2006 .

[44]  Stefano Parolai Remote sensing’s contribution to earthquake risk assessment and mitigation , 2013, Natural Hazards.

[45]  I. Dowman,et al.  Data fusion of high-resolution satellite imagery and LiDAR data for automatic building extraction * , 2007 .

[46]  Hao Wu,et al.  Quantifying and analyzing neighborhood configuration characteristics to cellular automata for land use simulation considering data source error , 2012, Earth Science Informatics.

[47]  U. Benz,et al.  Multi-resolution, object-oriented fuzzy analysis of remote sensing data for GIS-ready information , 2004 .

[48]  Nicola Casagli,et al.  A Semi-Automated Object-Based Approach for Landslide Detection Validated by Persistent Scatterer Interferometry Measures and Landslide Inventories , 2012, Remote. Sens..

[49]  P. Gamba,et al.  A fast algorithm for target shadow removal in monocular colour sequences , 1997, Proceedings of International Conference on Image Processing.

[50]  Chih-Jen Lin,et al.  A Practical Guide to Support Vector Classication , 2008 .

[51]  Renxi Chen,et al.  Building Recognition from High Resolution Image , 2009, 2009 International Conference on Information Engineering and Computer Science.

[52]  Fumio Yamazaki,et al.  Applications of remote sensing and GIS for damage assessment , 2001 .

[53]  Thomas Blaschke,et al.  Object based image analysis for remote sensing , 2010 .

[54]  Liu Hue Zhang Bing Wei Zheng AN ANALYSIS AND APPRAISAL OF TOPOGRAPHIC INFLUENCE ON AERIAL ARRAY CCD IMAGES , 2009 .

[55]  Ali Haydar Kayhan,et al.  Seismic risk assessment of buildings in Izmir, Turkey , 2010 .

[56]  J. Mendes,et al.  Seismic vulnerability and risk assessment: case study of the historic city centre of Coimbra, Portugal , 2011 .

[57]  Curt H. Davis,et al.  Automated Building Extraction from High-Resolution Satellite Imagery in Urban Areas Using Structural, Contextual, and Spectral Information , 2005, EURASIP J. Adv. Signal Process..

[58]  Nello Cristianini,et al.  An Introduction to Support Vector Machines and Other Kernel-based Learning Methods , 2000 .

[59]  Jocelyn Chanussot,et al.  Classification of basic roof types based on VHR optical data and digital elevation model , 2008, IGARSS 2008 - 2008 IEEE International Geoscience and Remote Sensing Symposium.

[60]  K. Lang Seismic vulnerability of existing buildings , 2002 .

[61]  Jean Louchet,et al.  Using colour, texture, and hierarchial segmentation for high-resolution remote sensing , 2008 .

[62]  E. L. Harder,et al.  The Institute of Electrical and Electronics Engineers, Inc. , 2019, 2019 IEEE International Conference on Software Architecture Companion (ICSA-C).

[63]  Solomon Tesfamariam,et al.  Earthquake induced damage classification for reinforced concrete buildings , 2010 .

[64]  Wang Yi,et al.  The model of extracting the height of buildings by shadow in image , 2011, Proceedings of 2011 International Conference on Computer Science and Network Technology.

[65]  J. Schiewe,et al.  SEGMENTATION OF HIGH-RESOLUTION REMOTELY SENSED DATA - CONCEPTS, APPLICATIONS AND PROBLEMS , 2002 .

[66]  Zhengjun Liu,et al.  Building extraction from high resolution satellite imagery based on multi-scale image segmentation and model matching , 2008, 2008 International Workshop on Earth Observation and Remote Sensing Applications.

[67]  Hannes Taubenböck,et al.  Remote sensing contributing to assess earthquake risk: from a literature review towards a roadmap , 2013, Natural Hazards.

[68]  T. Gillespie,et al.  Assessment and prediction of natural hazards from satellite imagery , 2007, Progress in physical geography.

[69]  M. Pittore,et al.  Toward a rapid probabilistic seismic vulnerability assessment using satellite and ground-based remote sensing , 2013, Natural Hazards.

[70]  Zhengjun Liu,et al.  Building extraction from high resolution imagery based on multi-scale object oriented classification and probabilistic Hough transform , 2005, Proceedings. 2005 IEEE International Geoscience and Remote Sensing Symposium, 2005. IGARSS '05..

[71]  Russell Blong,et al.  A Review of Damage Intensity Scales , 2003 .