Dynamic Deformation Monitoring of Tall Structure Using GPS Technology
Publication: Journal of Surveying Engineering
Volume 121, Issue 1
Abstract
Dynamic deformation monitoring of structures such as long bridges, towers, and tall buildings, for the purpose of determining structural vibrations, is now possible using global-positioning-system (GPS) technology. Current non–GPS techniques for measuring structural vibrations (these include vibration measurement with accelerometers, vibration measurement with a laser interferometer, and vibration measurement with an electronic distance measurement instrument) are first briefly outlined, with advantages and disadvantages noted. The specific application, measurement of structural vibrations in the Calgary Tower, Calgary, Alberta, Canada, using GPS receivers in differential mode, is then described. The results show that the Calgary Tower, under wind loading, vibrates with a frequency of about 0.3 Hz in both north-south and east-west directions. The 0.3 Hz vibration frequency measured on the Calgary Tower is within the range of 0.1 Hz to 10 Hz expected for structures of this type. When the capability of GPS to monitor structural vibrations is verified by further tests, it could be adopted as a standard technique.
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References
1.
Brockwell, P. J., and Davis, R. A. (1991). Time series: theory and methods . Springer-Verlag, New York, N.Y., 575.
2.
Cannon, M. E., Lachapelle, G., and Lu, G.(1993). “Kinematic ambiguity resolution with high precision C/A code receiver.”J. Surv. Engrg., 119(4), 147–155.
3.
Kennie, T. J. M., Howard, C. M., and Horkan, S. P.(1989). “A preliminary assessment of the tellurometer MA200 for vibrational measurements of flexible structures.”Survey Rev., 232(30), 67–81.
4.
Lachapelle, G., Cannon, M. E., and Lu, G.(1992). “High precision GPS navigation with emphasis on carrier phase ambiguity resolution.”Marine Geodesy, 15(4), 253–269.
5.
Lachapelle, G., Cannon, M. E., and Lu, G.(1993). “A comparison of P code and high performance C/A code GPS receivers for on the fly ambiguity resolution.”Bull. Géodésique, 67(3), 185–192.
6.
Leach, M. P., and Hyzak, M. D. (1994). “GPS structural monitoring as applied to a cable-stayed suspension bridge.”Proc., Int. Fed. of Surveyors (FIG) 20th Congr., Melbourne, Australia, 606.2/1–606.2/12.
7.
Mauer, W., Rossmeier, F., and Schnaedelbach, K. (1988). “Determination of periodic displacements of buildings and machines with aid of a laser interferometer.”Proc., 5th Int. Fed. of Surveyors (FIG) Symp. on Deformation Measurements, Fredericton, 339–347.
8.
Teskey, W. F., and Lovse, J. W. (1994). “The potential of laser scanning for dynamic deformation monitoring.”Proc., Int. Fed. of Surveyors (FIG) 20th Cong., Melbourne, Australia, 603.1/1–603.1/10.
9.
Van Dierendonck, A. J., Fenton, P., and Ford, T.(1992). “Theory and performance of narrow correlator spacing in a GPS receiver.”Navigation, 39(3), 265–283.
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Copyright © 1995 American Society of Civil Engineers.
History
Published online: Feb 1, 1995
Published in print: Feb 1995
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