Interactive Virtual Laboratory for Experience with a Smart Bridge Test

Citation data:

Proceedings of the American Society for Engineering Education Annual Conference and Exposition (2002, Montreal, Canada), Page: 8519-8528

Publication Year:
2002
Usage 35
Downloads 23
Abstract Views 12
Repository URL:
http://scholarsmine.mst.edu/ele_comeng_facwork/657
Author(s):
Eckhoff, Elizabeth C.; Eller, Vicki M.; Watkins, Steve Eugene; Hall, Richard
Publisher(s):
American Society for Engineering Education (ASEE)
Tags:
Educational tools; Virtual laboratory experiments; Computer simulation; Cost effectiveness; Fiber optics; Image processing; Learning systems; Sensors; Synchronization; Virtual reality; Engineering education; Educational tools; Virtual laboratory experiments; Computer simulation; Cost effectiveness; Fiber optics; Image processing; Learning systems; Sensors; Synchronization; Virtual reality; Engineering education; Electrical and Computer Engineering
conference paper description
Virtual laboratory experiments can be cost effective, convenient instructional resources that have appeal to a wide range of learning styles. Expensive, time-consuming laboratory tests can be experienced repeatedly and remotely using interactive simulations and original video footage or animations. A virtual experiment can incorporate meaningful exercises, procedural options, and background hyperlinks to create a comprehensive "hands on" environment. Also, it may be used as preliminary training for the actual experiment.An interactive LabVIEW-based laboratory for a load test simulation of an existing demonstration bridge was created. This smart truss bridge is instrumented with fiber optic strain sensors situated on the trusses. The user interface incorporates a synchronized image of the loaded bridge and a graph of the associated strains. A static display mode allows the choice of load placement and of data for single or multiple sensors. A continuous display mode shows the dynamic images of the bridge and strains on truss members. Options include the display of experimental data or of theoretical calculations. Hyperlinks give access to information on the sensors, the bridge construction, and the theoretical analysis. The program interface can also be used in the actual experiment to display data. The intended application is a laboratory for an interdisciplinary class on smart materials and sensors. The Lab VIEW program can be easily modified for tests on other structures such as a full-scale bridge.