>3D Visualization

Advancing Transportation Infrastructure 3D Image-Based Reconstruction with Application to Bridge Deck Crack Mapping and Inspection

The project merges a recently acquired 3D image-based reconstruction platform in the Civil and Environmental Engineering (CEE) department (called OJOS) with virtual reality and rendering capabilities in the Virginia Tech School of Visual Arts. The project goals are to: (1) assemble a mobile bridge deck surveyor platform that can be used to automatically map and measure cracks on bridge decks; (2) perform automated and manual bridge deck inspections on a bridge carrying Rt. 15 over the James River in Virginia; and (3) create a 3D image-based reconstruction and mesh model of the cracked bridge deck, automatically measure crack widths, and compare these measurements to the manual survey. Traditional (in-situ) structural health monitoring methods are manual, subjective, and often place inspectors in perilous situations. This automated condition assessment technology is a less costly and safer alternative, providing a permanent 3D record that can inform infrastructure owners about future rehabilitation decisions.”

Cristopher D. Moen, PhD, PE is an Associate Professor in the Civil and Environmental Engineering Department of the College of Engineering at Virginia Tech.

Thomas Tucker is an Associate Professor in the Creative Technology Department of the School of Visual Arts at Virginia Tech.

Gerardo Flintsch, PhD, PE is a Professor in the Via Department of Civil and Environmental Engineering at the Virginia Polytechnic Institute and State University and directs the Center for Sustainable Transportation Infrastructure at the Virginia Tech Transportation Institute.

Michael M. Sprinkel, P.E.is a research scientist for the Virginia Center for Transportation & Research (VCTIR). VCTIR is providing matching funds to the ICAT grant to allow a second student to be involved with project.

Collaborative Colleges:
Architecture & Urban Studies

3D Visualization