A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Single- and multiaxis fiber-grating-based strain sensors for civil structure applications
There are approximately 576,000 major bridges, 3.2 billion square feet of bridge deck, and 162,000 miles of highways making up a part of the civil infrastructure system in the United States. Fiber grating strain sensors have the ability to play an important role in the health monitoring of these structures. The advantages of fiber optic sensors including EMI resistance, unobtrusive size, multiplexing/distributed capabilities, and environmental ruggedness, make them a logical choice for structural monitoring.
Single- and multiaxis fiber-grating-based strain sensors for civil structure applications
There are approximately 576,000 major bridges, 3.2 billion square feet of bridge deck, and 162,000 miles of highways making up a part of the civil infrastructure system in the United States. Fiber grating strain sensors have the ability to play an important role in the health monitoring of these structures. The advantages of fiber optic sensors including EMI resistance, unobtrusive size, multiplexing/distributed capabilities, and environmental ruggedness, make them a logical choice for structural monitoring.
Single- and multiaxis fiber-grating-based strain sensors for civil structure applications
Schulz, Whitten L. (author) / Udd, Eric (author) / Seim, John M. (author) / Laylor, Harold M. (author) / McGill, Galen E. (author)
Fourth Pacific Northwest Fiber Optic Sensor Workshop ; 1998 ; Troutdale,OR,United States
Proc. SPIE ; 3489
1998-09-23
Conference paper
Electronic Resource
English
Fiber Grating Strain Sensors for Civil Structures
| NTIS | 2005
Advanced Strain Measurement Using Fiber Optic Grating Sensors for Civil Structure Applications
| British Library Conference Proceedings | 1997
| British Library Online Contents | 2007