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Polarization-singular Processing of Phase-inhomogeneous Layers Laser Images to Diagnose and Classify their Optical Properties

USHENKO, Y. O. See more information about USHENKO, Y. O. on SCOPUS See more information about USHENKO, Y. O. on IEEExplore See more information about USHENKO, Y. O. on Web of Science, TOMKA, Y. Y. See more information about  TOMKA, Y. Y. on SCOPUS See more information about  TOMKA, Y. Y. on SCOPUS See more information about TOMKA, Y. Y. on Web of Science, MISEVICH, I. Z. See more information about  MISEVICH, I. Z. on SCOPUS See more information about  MISEVICH, I. Z. on SCOPUS See more information about MISEVICH, I. Z. on Web of Science, ANGELSKY, A.-P. See more information about  ANGELSKY, A.-P. on SCOPUS See more information about  ANGELSKY, A.-P. on SCOPUS See more information about ANGELSKY, A.-P. on Web of Science, BACHINSKY, V. T. See more information about BACHINSKY, V. T. on SCOPUS See more information about BACHINSKY, V. T. on SCOPUS See more information about BACHINSKY, V. T. on Web of Science
 
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Author keywords
autocorrelation, phase-inhomogeneous layer, polarization, rough surface, statistical moments

References keywords
ushenko(56), biological(25), structure(21), polarization(21), images(18), optical(16), laser(15), diagnostics(14), mueller(12), angelsky(12)
Blue keywords are present in both the references section and the paper title.

About this article
Date of Publication: 2011-02-27
Volume 11, Issue 1, Year 2011, On page(s): 3 - 10
ISSN: 1582-7445, e-ISSN: 1844-7600
Digital Object Identifier: 10.4316/AECE.2011.01001
Web of Science Accession Number: 000288761800001
SCOPUS ID: 79955976146

Abstract
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Adduced in this work are the results of investigation aimed at analysis of coordinate distributions for azimuths and ellipticity of polarization (polarization maps) in laser images of three types of phase-inhomogeneous layers (PhIL), namely: rough, ground and bulk scattering layers. To characterize polarization maps for all the types of PhIL, the authors have offered to use three groups of parameters: statistical moments of the first to fourth orders, autocorrelation functions, logarithmic dependences for power spectra related to distributions of azimuths and ellipticity of polarization inherent to PhIL laser images. Ascertained are the criteria for diagnostics and classification of PhIL optical properties.


References | Cited By  «-- Click to see who has cited this paper

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[CrossRef] [PubMed] [Web of Science Times Cited 366] [SCOPUS Times Cited 443]


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[6] O. V. Angelsky, A. G. Ushenko, Yu. A. Ushenko, V. P. Pishak, "Statistical and Fractal Structure of Biological Tissue Mueller Matrix Images", in Optical Correlation Techniques and Applications, Oleg V. Angelsky, Ed. Washington: Society of Photo-Optical Instrumentation Engineers , 2007, pp. 213-266.
[CrossRef] [SCOPUS Times Cited 55]


[7] O. V. Angelsky, A. G. Ushenko, Yu. A. Ushenko, V. P. Pishak, and A. P. Peresunko, "Statistical, Correlation, and Topological Approaches in Diagnostics of the Structure and Physiological State of Birefringent Biological Tissues", in Handbook of Photonics for Biomedical Science, Valery V. Tuchin, Ed. USA: CRC Press, 2010, pp. 21-67.
[CrossRef]


[8] A. G. Ushenko, "Polarization structure of laser scattering fields," Optical Engineering, vol. 34(4), pp. 1088-1093, November 1995.
[CrossRef] [Web of Science Times Cited 72] [SCOPUS Times Cited 70]


[9] A. G . Ushenko, "Laser diagnostics of biofractals," Quantum Electronics, vol. 29(12), pp. 1078-1084, December 1999.
[CrossRef] [Web of Science Times Cited 59] [SCOPUS Times Cited 66]


[10] O. V. Angelsky, A. G. Ushenko, A. D. Arkhelyuk, S.B. Ermolenko, D. N. Burkovets, "Structure of matrices for the transformation of laser radiation by biofractals," Quantum Electronics, vol. 29(12), pp. 1074-1077, December 1999.
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[11] O. V. Angelsky, A. G. Ushenko A. D. Arheluk, S.B. Ermolenko, D. N. Burkovets, "Scattering of Laser Radiation by Multifractal Biological Structures," Optics and Spectroscopy, vol. 88(3), pp. 444-448, March 2000.

[12] A. G. Ushenko, "Polarization Structure of Biospeckles and the Depolarization of Laser Radiation," Optics and Spectroscopy, vol. 89(4), pp. 597-601, October 2000.
[CrossRef] [Web of Science Times Cited 82]


[13] A. G. Ushenko, "Stokes-correlometry of biotissues," Laser Physics, vol. 10(5), pp.1286-1292, May 2000.

[14] A. G. Ushenko, "The Vector Structure of Laser Biospeckle Fields and Polarization Diagnostics of Collagen Skin Structures," Laser Physics, vol. 10(5), pp. 1143-1149, May 2000.

[15] A. G. Ushenko, "Laser polarimetry of polarization-phase statistical moments of the object field of optically anisotropic scattering layers," Optics and Spectroscopy, vol. 91(2), pp. 313-316, February 2001.
[CrossRef] [Web of Science Times Cited 82] [SCOPUS Times Cited 81]


[16] A. G. Ushenko, "Polarization contrast enhancement of images of biological tissues under the conditions of multiple scattering," Optics and Spectroscopy, vol. 91(6), pp. 937-940, August 2001.
[CrossRef] [Web of Science Times Cited 68] [SCOPUS Times Cited 67]


[17] A. G. Ushenko, "Laser probing of biological tissues and the polarization selection of their images," Optics and Spectroscopy, vol. 91(6), pp.932-936, August 2001.
[CrossRef] [Web of Science Times Cited 85] [SCOPUS Times Cited 80]


[18] A. G. Ushenko, "Correlation processing and wavelet analysis of polarization images of biological tissues," Optics and Spectroscopy, vol. 91(5), pp.773-778, June 2002.
[CrossRef] [Web of Science Times Cited 58] [SCOPUS Times Cited 52]


[19] A. G. Ushenko, "Polarization correlometry of angular structure in the microrelief pattern or rough surfaces," Optics and spectroscopy, vol. 92(2), pp. 227-229, June 2002.
[CrossRef] [Web of Science Times Cited 85] [SCOPUS Times Cited 77]


[20] O.V. Angelsky, A. G. Ushenko, Ye. G. Ushenko, "2-D Stokes Polarimetry of Biospeckle Tissues Images in Pre-Clinic Diagnostics of Their Pre-Cancer States," Journal of Holography and Speckle, vol. 2(1), pp. 26-33, April 2005.
[CrossRef]


[21] O. V. Angelsky, A. G. Ushenko, and Y. G. Ushenko, "Complex degree of mutual polarization of biological tissue coherent images for the diagnostics of their physiological state," J. Biomed. Opt., vol. 10(6), Article ID 060502, November 2005.
[CrossRef] [PubMed] [Web of Science Times Cited 73] [SCOPUS Times Cited 72]


[22] O. V. Angelsky, A. G. Ushenko, and Ye. G. Ushenko, "Investigation of the correlation structure of biological tissue polarization images during the diagnostics of their oncological changes," Physics in Medicine and Biology, vol. 50(20), pp. 4811-4822, September 2005.
[CrossRef] [PubMed] [Web of Science Times Cited 74] [SCOPUS Times Cited 77]


[23] O. V. Angelsky, A. G. Ushenko, Y. G. Ushenko, Y. Y. Tomka, "Polarization singularities of biological tissues images," J. Biomed. Opt., vol. 11(5), Article ID 054030, September-October 2006.
[CrossRef] [PubMed] [Web of Science Times Cited 71] [SCOPUS Times Cited 66]


[24] O. G. Ushenko, S. G. Guminetsky, A. V. Motrich, "Optical properties of urine, blood plasma and pulmonary condensate of the patients with pulmovnary form of tuberculosis," Photoelectronics, vol.16, pp. 133-139, June 2007.

[25] S. H. Guminetskiy, O. G. Ushenko, I. P. Polyanskiy, A. V. Motrych, F. V. Grynchuk, "The optical method for investigation of the peritonitis progressing process," Proceedings of the SPIE, vol. 7008, Article ID 700827, April 2008.
[CrossRef] [Web of Science Times Cited 24] [SCOPUS Times Cited 19]


[26] Alexander Ushenko, Sergej Yermolenko, Alexander Prydij, Stepan Guminetsky, Ion Gruia, Ovidiu Toma, Konstantin Vladychenko, "Statistical and fractal approaches in laser polarimetry diagnostics of the cancer prostate tissues," Proceedings of the SPIE, vol. 7008, Article ID 70082C, April 2008.
[CrossRef] [Web of Science Times Cited 41] [SCOPUS Times Cited 94]


[27] A. G. Ushenko, A. I. Fediv, Yu. F. Marchuk, "Correlation and fractal structure of Jones matrices of human bile secret," Proceedings of the SPIE, vol. 7368, Article ID 73681Q, July 2009.

[28] A. G. Ushenko, Yu.Ya. Tomka, V. I. Istratiy, "Polarization selection of two-dimensional phase-inhomogeneous birefringence images of biotissues," Proceedings of the SPIE, vol. 7388, Article ID 73881L, December 2009.

[29] A. G. Ushenko, A. I. Fediv, Yu. F. Marchuk, "Singular structure of polarization images of bile secret in diagnostics of human physiological state," Proceedings of the SPIE, vol. 7368, Article ID 73681S, July 2009.

[30] S. B. Yermolenko, A. G. Ushenko, P. Ivashko, "Spectropolarimetry of cancer change of biotissues," Proceedings of the SPIE, vol. 7388, Article ID 73881D, December 2009.

[31] A. G. Ushenko, I. Z. Misevich, V. Istratiy, I. Bachyns'ka, A. P. Peresunko, Omar Kamal Numan, and T. G. Moiysuk, "Evolution of Statistic Moments of 2D-Distributions of Biological Liquid Crystal Net Mueller Matrix Elements in the Process of Their Birefringent Structure Changes," Advances in Optical Technologies, vol. 2010, Article ID 423145, March 2010.
[CrossRef] [SCOPUS Times Cited 79]


[32] Yu. A. Ushenko, A. P. Peresunko, and Bozan Adel Baku, "A New Method of Mueller-Matrix Diagnostics and Differentiation of Early Oncological Changes of the Skin Derma," Advances in Optical Technologies, vol. 2010, Article ID 952423, March 2010.
[CrossRef] [SCOPUS Times Cited 32]


[33] Oleg V. Angelsky and Yuriy A. Ushenko, "The Degree of Mutual Anisotropy of Biological Liquid Crystals Net during the Diagnostics of Human Tissues Birefringence," Advances in Optical Technologies, vol. 2010, Article ID 321275, March 2010.
[CrossRef] [SCOPUS Times Cited 12]


[34] Oleg V. Angelsky, Yuriy A. Ushenko, Alexander V. Dubolazov, and Olha Yu. Telenha, "The Interconnection between the Coordinate Distribution of Mueller-Matrixes Images Characteristic Values of Biological Liquid Crystals Net and the Pathological Changes of Human Tissues," Advances in Optical Technologies, vol. 2010, Article ID 130659, March 2010.

[35] I. Z. Misevitch, Yu. O. Ushenko, O.G. Pridiy, A. V. Motrich, Yu. Ya. Tomka, O. V. Dubolazov, "Investigation of singularities inherent to Mueller matrix images of biological crystals: diagnostics of their birefringent structure," Semicond. Physics, Quantum Electronics&Optoelectronics, 12(4), 379-390, 2009.

[36] Yu. O. Ushenko, Yu. Ya. Tomka, O. G. Pridiy, A. V.Motrich, O.V. Dubolazov, I.Z. Misevitch, V.V. Istratiy, "Wavelet analysis for Mueller matrix images of biological crystal networks," Semicond. Physics, Quantum Electronics&Optoelectronics, 12(4), 391-398, 2009.

[37] Yu. O. Ushenko, V. V. Istratiy, V. O. Balanets'ka, D. O. Kvasniyk, V.T. Bachinsky, O.I. Olar, "Phase maps for networks of polycrystalline human biological liquids: Statistical and fractal analyses," Semicond. Physics, Quantum Electronics&Optoelectronics, vol. 13(3), 240-247, 2010.

[38] Yu. O. Ushenko, I. Z. Misevich, A. P. Angelsky, V. T. Bachinsky, O. Yu. Telen'ga, O.I. Olar, "Polarization-singular structure in laser images of phase-inhomogeneous layers to diagnose and classify their optical properties," Semicond. Physics, Quantum Electronics&Optoelectronics, vol. 13(3), 248-258, 2010.

[39] V. T. Bachinsky, Yu. O. Ushenko, Yu. Ya. Tomka, O. V. Dubolazov, V. O. Balanets'ka, A.V. Karachevtsev, "Wavelet analysis for polarization maps of networks formed by liquid biological crystals in blood plasma: statistical and fractal approaches," Semicond. Physics, Quantum Electronics&Optoelectronics, vol. 13(3), 189-201, 2010.

[40] Yu. Ushenko; O. Telenha; V. Balanetskyaya, "Laser metrology of biological liquid crystals singular structure," Proceedings of the SPIE vol. 7821, 78210Z, March 2010.
[CrossRef] [Web of Science Times Cited 2] [SCOPUS Times Cited 4]


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[CrossRef] [SCOPUS Times Cited 1]


[42] Yu. A. Ushenko, V. T. Bachinskyi, I. V. Bachinskaya, "Evolution of power spectra of biological tissues Mueller matrix images in the process of changing their birefringent structure," Proceedings of the SPIE vol. 7388, 73881M, December 2009.
[CrossRef] [SCOPUS Times Cited 1]


[43] Yu. A. Ushenko, P. T. Popovitch, S. V. Godnyuk, "Evolution of statistic moments of 2D distributions of biological tissues Mueller matrix elements in the process of their birefringent structure changes," Proceedings of the SPIE vol. 7388, 73881N, December 2009.
[CrossRef] [SCOPUS Times Cited 1]


[44] Yuriy A. Ushenko, Yuriy Ya. Tomka, Alexander Dubolazov, "The degree of mutual correlation of coordinate distributions of Mueller matrix elements biological tissues and diagnostics of their physiological state," Proceeding Sensor 2009, pp. 347-351, July 2009.

[45] A. G. Ushenko, I.Z. Misevitch, Yu.A. Ushenko and A. G. Pridiy, "Laser metrology of organic crystals singular structure," Proceeding ISMTII, pp. 262-266, July 2009.

[46] A. G. Ushenko, Yu.A. Ushenko, I.Z. Misevitch and A. I. Dubolazov, V.I. Istratyy, "Polarization metrology of Mueller matrices images of phase-inhomogeneous," Proceeding ISMTII, pp. 267-271, July 2009.

[47] A. G. Ushenko, I.Z. Misevitch ,Yu.A. Ushenko and A. G. Pridiy, "Mueller-matrixes tomography of biological crystals network," Proceeding ISMTII, pp. 272-275, July 2009.

[48] S. B. Yermolenko, M.P. Gorsky, Y. A. Ushenko, A. G. Pridiy, "Polarization interferometry of singular structure of organic crystal polarization properties," Proceeding FRINGE 2009, pp. 221-224, September 2009.
[CrossRef] [SCOPUS Times Cited 1]


[49] Sergey B. Yermolenko, Yurij A. Ushenko, Vadim I. Istratyy, Pavlo V. Ivashko, "Polarization selection of two-dimensional phase-inhomogeneous pathologically changed biological tissue images," Proceedings of the SPIE vol. 7371, 73711I, May 2009.
[CrossRef] [SCOPUS Times Cited 2]


[50] Sergey Yermolenko, Yurij Ushenko, Alexander Prydiy, Stepan Guminetski, Ion Gruia, "Spectropolarimetry in singular structure biotissue images for diagnostics of their pathological changes," Proceedings of the SPIE vol. 7371, 73711M, May 2009.
[CrossRef] [SCOPUS Times Cited 1]


[51] Yu. A. Ushenko, "Skin as a transformer of the polarization structure of laser radiation," Optics and Spectroscopy vol. 93(3), pp. 321-325, September 2002.
[CrossRef] [Web of Science Times Cited 3] [SCOPUS Times Cited 3]


References Weight

Web of Science® Citations for all references: 1,687 TCR
SCOPUS® Citations for all references: 1,929 TCR

Web of Science® Average Citations per reference: 33 ACR
SCOPUS® Average Citations per reference: 38 ACR

TCR = Total Citations for References / ACR = Average Citations per Reference

We introduced in 2010 - for the first time in scientific publishing, the term "References Weight", as a quantitative indication of the quality ... Read more

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