Abstract
Detection of the physical position of an object is one of the most important sensing applications in industry and engineering. Not only is the gauging of physical dimensions with such position sensor systems important in its own right, but the monitoring of many operational and control parameters in engineering applications can also be converted into position sensing by use of various transducer systems.
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S. Chen, B. T. Meggitt and A. J. Rogers, Electronically scanned white-light interferometry with enhanced dynamic range, Electron. Lett., 26(24), 1663–1665, 1990.
S. Chen, I. P. Giles and M. Fahadiroushan, A quasi-distributed pressure sensor using intensity type optical coherence domain polarimetry, Opt. Leu., 16 (5), 342–344, 1991.
S. Chen, B. T. Meggitt, A. W. Palmer, K. T. V. Grattan and R. A. Pinnock, An intrinsic optical-fiber position sensor with schemes for temperature compensation and resolution enhancement, J. Lightwave Technol., 15 (2), 1997.
S. Chen, K. T. V. Grattan, A. W. Palmer and B. T. Meggitt, Fringe-order identification in optical fiber white-light interferometry using a centroid algorithm method, Electron Lett., 28 (6), 553, 1992.
Y. Ning, K. T. V. Grattan, B. T. Meggitt and A. W. Palmer, Characteristics of laser diodes for interferometric use, Appl. Opt., 28 (17), 3657–3661, 1989.
S. Chen, A. W. Palmer, B. T. Meggitt and K. T. V. Grattan, Instantaneous direct identification of central fringe using dual sources with widely spaced wavelengths, Electron. Lett., 29 (4), 334–335, 1993.
S. Chen, A. W. Palmer, K. T. V. Grattan and B. T. Meggitt, Digital signal processing techniques for electronically scanned optical-fiber white-light interferometry, Appl. Opt., 31 (28), 6003–6010, 1992.
V. Gusmeroli and M. Martinelli, High-resolution distance measurement by dynamic spectral filtering of a superluminescent source, Opt. Lett., 16 (15), 1195–1197, 1991.
W. Eickhoff, Temperature sensing by mode—mode interference in birefringence optical fibers, Opt. Lett., 6 (4), 204–206, 1981.
S. Chen and I. P. Giles, Optical coherence domain polarimetry: Intensity and interferometric type for quasi-distributed optical fibre sensors, SPIE Proceedings,1370 (for OE/Fiber’90 in San Jose, CA).
I. P. Giles, P. Lloyd, C. Doran and M. Mondanos, Optical fibre based damage detection for aerospace structures, IEE Colloquium on Optical Techniques for Smart Structures and Structural Monitoring, London, 1997.
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© 1999 Springer Science+Business Media Dordrecht
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Chen, S., Meggitt, B.T. (1999). Intrinsic position sensing using optical fiber and coherence domain polarimetry. In: Grattan, K.T.V., Meggitt, B.T. (eds) Optical Fiber Sensor Technology. Optoelectronics, Imaging and Sensing Series, vol 3. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-6077-4_9
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DOI: https://doi.org/10.1007/978-1-4757-6077-4_9
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4419-4736-9
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