Multi-Scale Condition and Structural Analysis of Steel Bridge Infrastructure

The data that exists or can be obtained regarding the condition and behavior of our nation's infrastructure presently exceeds the profession's ability to make efficient use of said data. Existing data sets span an enormous range of relative breadth and depth. For example, the breadth of the National Bridge Inventory (NBI) is comprehensive, but relatively basic with respect to structural condition. At the opposite extreme, state of the art structural models (i.e., finite element analysis) of individual structures can be created that give accurate and detailed information on the stress and displacement profiles throughout the structure under diverse loading conditions, but are only performed on rare occasions where the level of effort involved in their creation is worthwhile. Between these two extremes is element level data recorded by owners that quantifies more precise information on the severity and extent of deteriorated conditions than the NBI. Each of these data types has been used for various applications, but there are no known studies that have attempted to systematically identify and evaluate the inter-relationships between these data types. The objective of this project is to integrate this gradient of breadth and depth that can be described by these existing methodologies using big data analysis techniques to reveal a greater understanding of the structural causes of atypical bridge deterioration. This project will focus on identifying structural characteristics leading to above- or below-average performance, after accounting for differences in climate, use, etc., by creating finite element analysis models of these outliers and big data analysis techniques to systematically evaluate potential differences in stress distributions between bridges with differing conditions despite similar environments. As a result, possible short term outcomes include guidance on more efficient inspection procedures and / or more efficient and durable structural designs. These objectives will be achieved by first using NBI records for each structure over multiple years to assess deterioration over time. This information will be assessed in the context of climate and environmental data, which can be approximated at each bridge site based on existing data quantified at known locations and geographic information systems (GIS) software. There are also expected differences in deterioration due to factors traffic and age of the structure, to name a few. Thus, state of the art big data analysis techniques will be used to reveal structures that are true outliers with respect to their condition, having either significantly better or worse condition than their peers, when considering all parameters currently known to affect long term performance. With these outliers identified, causes for their above or below average performance will then be explored. These causes may include structural characteristics, construction quality, or the influence of other influential parameters that have yet to be considered. This project will focus on identifying structural characteristics by creating finite element analysis models of these outliers and a novel big data analysis technique to systematically evaluate potential differences in stress distributions between bridges with differing conditions that are otherwise similar.

Language

  • English

Project

  • Status: Active
  • Funding: $115380
  • Contract Numbers:

    DTRT13-G-UTC28

    CAIT-UTC-NC23

  • Sponsor Organizations:

    Office of the Assistant Secretary for Research and Technology

    University Transportation Centers Program
    Department of Transportation
    Washington, DC  United States  20590
  • Project Managers:

    Dunne, Richard

    Szary, Patrick

  • Performing Organizations:

    University of Delaware, Newark

    Department of Civil Engineering
    301 DuPont Hall
    Newark, DE  United States  19716
  • Principal Investigators:

    McConnell, Jennifer

  • Start Date: 20160201
  • Expected Completion Date: 20170831
  • Actual Completion Date: 0

Subject/Index Terms

Filing Info

  • Accession Number: 01590427
  • Record Type: Research project
  • Source Agency: Center for Advanced Infrastructure and Transportation
  • Contract Numbers: DTRT13-G-UTC28, CAIT-UTC-NC23
  • Files: UTC, RiP
  • Created Date: Feb 17 2016 10:20AM