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Journal of Optical Technology

Journal of Optical Technology

| SIMULTANEOUS RUSSIAN-ENGLISH PUBLICATION

  • Vol. 80, Iss. 12 — Dec. 1, 2013
  • pp: 772–777

Three-coordinate digital autocollimator

I. A. Konyakhin and T. V. Turgalieva  »View Author Affiliations


Journal of Optical Technology, Vol. 80, Issue 12, pp. 772-777 (2013)
http://dx.doi.org/10.1364/JOT.80.000772


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Abstract

Studies have been carried out to determine the characteristics of a three-coordinate digital autocollimator under laboratory conditions. The results of the studies confirmed that the proposed autocollimator can efficiently determine the angular strains of large objects of the type of the primary mirror of a radio telescope.

© 2014 Optical Society of America

OCIS Codes
(120.0280) Instrumentation, measurement, and metrology : Remote sensing and sensors
(120.4640) Instrumentation, measurement, and metrology : Optical instruments
(150.3040) Machine vision : Industrial inspection

History
Original Manuscript: July 11, 2013
Published: February 18, 2014

Citation
I. A. Konyakhin and T. V. Turgalieva, "Three-coordinate digital autocollimator," J. Opt. Technol. 80, 772-777 (2013)
http://www.opticsinfobase.org/jot/abstract.cfm?URI=jot-80-12-772


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References

  1. I. D.  Bondarenko, Construction Principles of Photoelectric Autocollimators (Izd. Universitetskoe, Minsk, 1984).
  2. I. A.  Konyakhin, É. D.  Pankov, Three-Coordinate Optical and Optoelectronic Goniometers. A Handbook (Nedra, Moscow, 1991).
  3. I. A.  Konyakhin, T. V.  Kopylova, “Three-coordinate optoelectronic autocollimator with increased sensitivity for measuring the twist angle,” Nauch. Tekhnich. Vest. SPbGU ITMO No. 6 (70), 9 (2010).
  4. T. V.  Turgalieva, I. A.  Konyakhin, “Study of an autocollimation system for measuring angular strains of large objectives,” Nauch. Tekhnich. Vest. Informats. Tekhnol. Mekh. Opt. No. 6 (82), 150 (2012).
  5. L. M.  Krivovyaz, D. T.  Puryaev, M. A.  Znamenskaya, Practice of an Optical Measurement Laboratory (Mashinostroenie, Moscow, 1974).
  6. A. L.  Andreev, N. A.  Burdova, V. V.  Korotaev, “Algorithm for spatiotemporal selection of signals in adaptive systems for observing movable objects,” Nauch. Tekhnich. Vest. SPbGU ITMO No. 4 (74), 11 (2011).
  7. A. N.  Korolev, A. I.  Gartsuev, “Study of the accuracy of image positioning on a CCD array,” Izmerit. Tekhnika No. 5, 20 (2004).

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