SAY the words "closed" or "construction ahead," and see despair cloud a driver's face. It's hard enough to drive on roadways these days without added disruptions. But happen they will because some $20-billion worth of highway infrastructure maintenance must be done each year in the U.S. to keep motorists on the move safely. State departments of transportation--owners of most of the nation's highways--face this large workload with scarce maintenance resources; they could use new technologies to help perform tasks faster, cheaper, and more effectively.|
The Federal Highway Administration (FHWA) has helped sponsor a research project at Lawrence Livermore that produced a beneficial new tool as well as an R&D 100 Award. The HERMES Bridge Inspector will provide an invaluable capability to diagnose the problems of deteriorating bridge decks and do it accurately, efficiently, nondestructively, and, perhaps most important to motorists, without closing bridges. Almost 30% of 600,000 large highway bridges in the U.S. are classified "deficient" by the FHWA, and HERMES can make a significant contribution toward solving the problem of infrastructure assessment and repair. With further development, HERMES holds promise for other concrete inspection problems, such as railroads, tunnels, and runways.
HERMES, or High-performance Electromagnetic Roadway Mapping and Evaluation System, is a radar-based sensing system mounted in a trailer. It can be pulled by a vehicle at traffic speeds over a bridge deck to collect information about the roadway subsurface--its sensors gathering data 30 centimeters or more into concrete. An onboard computer system processes the data into three-dimensional images that pinpoint problems in the roadway concrete and give engineers quantitative information about deterioration in the bridge deck. Engineers can then better assess what repairs or reconstruction is necessary and avoid the cost overruns and delays that result from inexact problem diagnoses.
HERMES technology is a radical change from conventional bridge inspection methods in use today. Most inspections are still done visually--with inspectors looking for external manifestations of internal flaws--a tedious and not completely reliable method. Another conventional inspection method uses sound: after the top layer of asphalt is stripped off, an inspector with a trained ear "listens" for faulty concrete as chains are dragged over the underlying concrete. The latter technique is costly, requiring time-consuming bridge closure, asphalt removal, and resurfacing.
In contrast, when put to the test last summer in Weaverville, California, HERMES quickly and accurately found significant problems on the Grass Valley Creek Bridge, where retrofit work had been scheduled. The internal flaws revealed the need for a complete deck replacement instead of the planned rehabilitation. What HERMES "saw" was verified once work began and the roadway's top asphalt layer was removed. Consequently, the bridge repair project had to be revised, causing a delay of a year and a million dollars in costs that could have been avoided had HERMES been available before the bidding process began.
Applying MIR Technology Again
Down the Road|
The project team continues to gain understanding of the images the system generates and of how to better design the next generation of bridge inspectors for improved detection capability, higher speed, ruggedness, and eventual transfer to the private sector. On the road again in July 1998, HERMES could be seen testing its system upgrades on bridges along highway I-80 near Truckee, California. Also, the HERMES team is using electromagnetic models for analyzing the radar data to understand how concrete inhomogeneities, temperature differences, chemical processes, and normal concrete structures contribute to the imaging results. This modeling will enable them to predict inspection results under varying conditions and suggest changes to the radar parameters and detection algorithms.
The HERMES Bridge Inspector will save the public money--up to $100 million per year, according to FHWA estimates--and inconvenience. Even more important, it will result in higher confidence and safety in our public roadways.
Key Words: HERMES Bridge Inspector, infrastructure maintenance, micropower impulse radar (MIR), nondestructive evaluation, roadway inspection, ultrawideband sensors.
For further information contact Jose E. Hernandez (925) 423-2160 (firstname.lastname@example.org).