ITMO
ru/ ru

ISSN: 1023-5086

ru/

ISSN: 1023-5086

Scientific and technical

Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

Article submission Подать статью
Больше информации Back

DOI: 10.17586/1023-5086-2020-87-07-09-17

УДК: 621.397

Information criterion of quality of image formation and analysis in the noncontact monitoring of objects

For Russian citation (Opticheskii Zhurnal):

Гуров И.П., Дайнеко М.В. Информационный критерий качества формирования и анализа изображений при бесконтактном контроле объектов // Оптический журнал. 2020. Т. 87. № 7. С. 9–17. http://doi.org/10.17586/1023-5086-2020-87-07-09-17

 

Gurov I.P., Daineko M.V. Information criterion of quality of image formation and analysis in the noncontact monitoring of objects [in Russian] // Opticheskii Zhurnal. 2020. V. 87. № 7. P. 9–17. http://doi.org/10.17586/1023-5086-2020-87-07-09-17

For citation (Journal of Optical Technology):

I. P. Gurov and M. V. Daineko, "Information criterion of quality of image formation and analysis in the noncontact monitoring of objects," Journal of Optical Technology. 87(7), 394-400 (2020). https://doi.org/10.1364/JOT.87.000394

Abstract:

The results of the investigation of the information criterion of quality in terms of image formation and processing in the noncontact monitoring of object systems are presented taking into account the statistical properties of the signals representing the images. An example of the application of the information criterion to interferometric systems is examined, and the information criterion and traditional criteria—signal-to-noise ratio and interference fringe phase error—are compared. The information criterion of quality has a versatile character when applied to various problems of the noncontact monitoring of objects.

Keywords:

information criterion, contactless control of objects, signal-to-noise ratio

OCIS codes: 100.2960, 120.0120, 120.2650

References:

1. V. N. Vasil’ev, I. P. Gurov, and A. S. Potapov, “Modern video informatics: problems and prospects,” J. Opt. Technol. 79(11), 681–688 (2012) [Opt. Zh. 79(11), 5–15 (2012)].

2. V. A. Soipher, Methods of Computer Processing of Images (Fizmatlit, Moscow, 2003).

3. I. Richardson, H.264 and MPEG-4 Video Compression: Video Coding for Next-Generation Multimedia (Teknosfera, Moscow, 2005), pp. 42–45.

4. R. Gonzalez and R. Woods, Digital Image Processing (Teknosfera, Moscow, 2005).

5. V. P. Dvorkovich and A. V. Dvorkovich, Metrological Support of Visual Information Systems (Tekhnosfera, Moscow, 2015).

6. D. D. Klovskii, Theory of Electrical Communication (Radio i Svyaz’, Moscow, 1999).

7. D. Malacara, M. Servín, and Z. Malacara, Interferogram Analysis for Optical Testing (Taylor & Francis, New York, 2005).

8. P. De Groot, “Principles of interference microscopy for the measurement of surface topography,” Adv. Opt. Photon. 7(1), 1–65 (2015).

9. J. Bendat and A. Piersol, Random Data Analysis (Mir, Moscow, 1989).

10. S. Goldman, Information Theory (Izdatel’stvo Inostrannoi Literatury, Moscow, 1957).