Concrete bridge deck condition assessment using IR Thermography and Ground Penetrating Radar technologies

The current practice of bridge inspection relies heavily on visual inspection, which suffers from several limitations, including the safety of the inspection team, the accuracy of subsurface defects detection, and subjectivity. In visual inspection, data collection is time consuming and the collecte...

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Bibliographic Details
Published in:Automation in construction 2017-09, Vol.81, p.340-354
Main Authors: Abu Dabous, Saleh, Yaghi, Salam, Alkass, Sabah, Moselhi, Osama
Format: Article
Language:English
Subjects:
ArcGIS
Bridge
Bridge decks
Bridge inspection
Bridges
Concrete bridges
Condition assessment
Data acquisition
Defects
Demolition
Destructive testing
Feasibility studies
Geographic information systems
GPR
Ground penetrating radar
Infrared Thermography
Inspection
Inspections
Nondestructive testing
Reliability aspects
Satellite navigation systems
Studies
Thermography
Visualization
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Summary:The current practice of bridge inspection relies heavily on visual inspection, which suffers from several limitations, including the safety of the inspection team, the accuracy of subsurface defects detection, and subjectivity. In visual inspection, data collection is time consuming and the collected data is typically documented by completing standard inspection reports. These reports do not provide sufficient visualization of locations and/or the extent of defects. Emerging combinations of non-destructive testing (NDT) technologies and Geographic Information Systems (GIS) have the potential to circumvent some of these limitations. More research is still needed to assess the potential of these technologies to be applied in the field and to address the challenges in deploying them. The challenges include data acquisition and processing, data interpretation to identify the location and extent of defects, and the integration of results obtained from multiple technologies. This research introduces an integrated method utilizing Infrared (IR) Thermography and Ground Penetrating Radar (GPR) technologies to enhance the detection of concrete bridge defects. Integrating results can improve confidence in defect detection and quantification, and as a result can enhance the reliability of the bridge condition rating process. The integrated system is implemented in a case study of a concrete bridge deck in the city of Laval, Quebec, Canada. The obtained results are compared to detailed and visual inspection results conducted on the bridge before its demolition. The study analyzes potential, limitations, and challenges of using the proposed integrated method. In addition, the study demonstrates the feasibility of integrating the collected data in ArcGIS for enhanced visualization of the inspection results. •IRT and GPR integrated method is proposed.•The method is demonstrated and validated with a case study.•Potential and limitations related to the integrated method are identified.•ArcGIS is utilized for enhanced representation and visualization of inspection results.
ISSN:0926-5805
1872-7891
DOI:10.1016/j.autcon.2017.04.006