replacing control points with scale bars (Luhmann
et al.
,
2016) and compensating for the eccentricity error of circular
target (He
et al.
, 2013).
Acknowledgments
The authors would like to thank the editor and anonymous
reviewers for their valuable comments on the improvement of
the paper. This research was substantially supported by the
National Natural Science Foundation of China (Project Nos.
41631178, and 41401531), the National Key Research and
Development Project of China (Project Nos. 2018YFB0505400,
and 2017YFB0502903), and the Fundamental Research Funds
for the Central Universities.
References
Alemdar, Z.F., J. Browning and J. Olafsen, 2011. Photogrammetric
measurements of RC bridge column deformations,
Engineering
Structures
, 33(8):2407–2415.
Barazzetti, L. and M. Scaioni, 2010. Development and
implementation of image-based algorithms for measurement of
deformations in material testing,
Sensors
, 10(8):7469.
Burgess, G., M.R. Shortis and P. Scott, 2011. Photographic
assessment of retroreflective film properties,
ISPRS Journal of
Photogrammetry and Remote Sensing
, 66(5):743–750.
Busca, G., A. Cigada, P. Mazzoleni, and E. Zappa, 2014. Vibration
monitoring of multiple bridge points by means of a unique
vision-based measuring system,
Experimental Mechanics
,
54(2):255–271.
Chang, C., and Y. Ji, 2007. Flexible videogrammetric technique for
three-dimensional structural vibration measurement,
Journal of
Engineering Mechanics
, 133(6):656–664.
Chang, C., and X. Xiao, 2009. Three-dimensional structural
translation and rotation measurement using monocular
videogrammetry,
Journal of Engineering Mechanics
, 136(7):840–
848.
Choi, H.S., J.H. Cheung, S.H. Kim, and J.H. Ahn, 2011. Structural
dynamic displacement vision system using digital image
processing,
NDT & E International
, 44(7):597–608.
Feng, D., M.Q. Feng, E. Ozer, and Y. Fukuda, 2015. A vision-based
sensor for noncontact structural displacement measurement,
Sensors
, 15(7):16557.
Foroosh, H., J.B. Zerubia, and M. Berthod, 2002. Extension of phase
correlation to subpixel registration,
IEEE Transactions on Image
Processing
, 11(3):188–200.
Foroosh, H., and M. Balci, 2004. Sub-pixel registration and estimation
of local shifts directly in the Fourier domain,
Proceedings of
the IEEE International Conference on Image Processing
, pp.
1915–1918.
Fukuda, Y., M.Q. Feng, and M. Shinozuka, 2010. Cost-effective
vision-based system for monitoring dynamic response of
civil engineering structures,
Structural Control and Health
Monitoring
, 17(8):918–936.
Gentile, C., and G. Bernardini, 2010. An interferometric radar for
non-contact measurement of deflections on civil engineering
structures: Laboratory and full-scale tests,
Structure and
Infrastructure Engineering
, 6(5):521–534.
González, P.J., M. Chini, S. Stramondo, and J. Fernández, 2010.
Coseismic horizontal offsets and fault-trace mapping using phase
correlation of IRS satellite images: The 1999 Izmit (Turkey)
earthquake,
IEEE Transactions on Geoscience and Remote
Sensing
, 48(5):2242–2250.
Gruen, A., 2012. Development and status of image matching in
photogrammetry,
The Photogrammetric Record
, 27(137):36–57.
Guizar-Sicairos, M., S.T. Thurman, and J.R. Fienup, 2008. Efficient
subpixel image registration algorithms,
Optics Letters
, 33(2):156–
158.
Guo, J., and C.A. Zhu, 2016. Dynamic displacement measurement
of large-scale structures based on the Lucas-Kanade template
tracking algorithm,
Mechanical Systems and Signal Processing
,
66:425–436.
He, D., X. Liu, X. Peng, Y. Ding, and B.Z. Gao, 2013. Eccentricity
error identification and compensation for high-accuracy 3D
optical measurement,
Measurement Science and Technology
,
24(7):075402.
Heid, T., and A. Kääb, 2012. Evaluation of existing image matching
methods for deriving glacier surface displacements globally
from optical satellite imagery,
Remote Sensing of Environment
,
118:339–355.
Heo, Y.S., K.M. Lee, and S.U. Lee, 2011. Robust stereo matching using
adaptive normalized cross-correlation,
IEEE Transactions on
Pattern Analysis and Machine Intelligence
, 33(4):807–822.
Hoge, W.S., 2003. A subspace identification extension to the phase
correlation method [MRI application],
IEEE Transactions on
Medical Imaging
, 22(2):277–280.
Ji, Y.F., and C.C. Chang, 2008. Nontarget image-based technique
for small cable vibration measurement,
Journal of Bridge
Engineering
, 13(1):34–42.
Jiang, R., D.V. Jáuregui, and K.R. White, 2008. Close-range
photogrammetry applications in bridge measurement: Literature
review,
Measurement
, 41(8):823–834.
Kienle, S.C., A.M. Sims, and J. Leifer, 2008. Full-field acceleration
measurement using videogrammetry,
Proceedings of the 26
th
International Modal Analysis Conference
, 04-07 February,
Orlando, Florida.
Kohut, P., K. Holak, T. Uhl, Ł. Ortyl, T. Owerko, P. Kuras, and R.
Kocierz, 2013. Monitoring of a civil structure’s state based on
noncontact measurements,
Structural Health Monitoring
, 12(5-
6):411–429.
Kuglin, C., 1975. The phase correlation image alignment method,
Proceedings of the International Conference on Cybernetics and
Society
, 23-25 September.
Lee, J.J., and M. Shinozuka, 2006. A vision-based system for remote
sensing of bridge displacement,
NDT & E International
,
39(5):425–431.
Leifer, J., B. Weems, S. Kienle, and A. Sims, 2011. Three-dimensional
acceleration measurement using videogrammetry tracking data,
Experimental Mechanics
, 51(2):199–217.
Leprince, S., S. Barbot, F. Ayoub, and J.-P. Avouac, 2007. Automatic
and precise orthorectification, coregistration, and subpixel
correlation of satellite images, application to ground deformation
measurements,
IEEE Transactions on Geoscience and Remote
Sensing
, 45(6):1529–1558.
Lin, S.Y., J.P. Mills, and P.D. Gosling, 2008. Videogrammetric
monitoring of as-built membrane roof structures,
The
Photogrammetric Record
, 23(122):128–147.
Liu, X., X. Tong, X. Yin, X. Gu, and Z. Ye, 2015. Videogrammetric
technique for three-dimensional structural progressive collapse
measurement,
Measurement
, 63:87–99.
Luhmann, T., 2010. Close range photogrammetry for industrial
applications,
ISPRS Journal of Photogrammetry and Remote
Sensing
, 65(6):558–569.
Luhmann, T., C.S. Fraser, and H.-G. Maas, 2016. Sensor modelling
and camera calibration for close-range photogrammetry,
ISPRS
Journal of Photogrammetry and Remote Sensing
, 115:37–46.
Ma, J., J. Zhao, and A.L. Yuille, 2016. Non-rigid point set registration
by preserving global and local structures,
IEEE Transactions on
Image Processing
, 25(1):53–64.
Maas, H.-G., and U. Hampel, 2006. Photogrammetric techniques in
civil engineering material testing and structure monitoring,
Photogrammetric Engineering & Remote Sensing
, 72(1):39–45.
Matsuoka, R., 2014. Oscillation of the measurement accuracy of the
center location of an ellipse on a digital image,
Proceedings of
the International Archives of Photogrammetry, Remote Sensing
and Spatial Information Sciences
, Zurich, Switzerland, pp.
211–218.
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