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Stefan cel Mare
University of Suceava
Faculty of Electrical Engineering and
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ROMANIA

Print ISSN: 1582-7445
Online ISSN: 1844-7600
WorldCat: 643243560
doi: 10.4316/AECE


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2018-Jun-27
Clarivate Analytics published the InCites Journal Citations Report for 2017. The JCR Impact Factor of Advances in Electrical and Computer Engineering is 0.699, and the JCR 5-Year Impact Factor is 0.674.

2017-Jun-14
Thomson Reuters published the Journal Citations Report for 2016. The JCR Impact Factor of Advances in Electrical and Computer Engineering is 0.595, and the JCR 5-Year Impact Factor is 0.661.

2017-Feb-16
With new technologies, such as mobile communications, internet of things, and wide applications of social media, organizations generate a huge volume of data, much faster than several years ago. Big data, characterized by high volume, diversity and velocity, increasingly drives decision making and is changing the landscape of business intelligence, from governments to private organizations, from communities to individuals. Big data analytics that discover insights from evidences has a high demand for computing efficiency, knowledge discovery, problem solving, and event prediction. We dedicate a special section of Issue 4/2017 to Big Data. Prospective authors are asked to make the submissions for this section no later than the 31st of May 2017, placing "BigData - " before the paper title in OpenConf.

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  4/2010 - 26

Statistical and Fractal Processing of Phase Images of Human Biological Fluids

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, MARCHUK, Y. I. See more information about  MARCHUK, Y. I. on SCOPUS See more information about  MARCHUK, Y. I. on SCOPUS See more information about MARCHUK, Y. I. on Web of Science, BALANETCKA, V. O. See more information about BALANETCKA, V. O. on SCOPUS See more information about BALANETCKA, V. O. on SCOPUS See more information about BALANETCKA, V. O. on Web of Science
 
Click to see author's profile in See more information about the author on SCOPUS SCOPUS, See more information about the author on IEEE Xplore IEEE Xplore, See more information about the author on Web of Science Web of Science

Download PDF pdficon (967 KB) | Citation | Downloads: 811 | Views: 2,788

Author keywords
birefringence, biological fluid, correlation, Jones matrix, liquid crystal, phase, polarization

References keywords
ushenko(34), polarization(14), biological(13), structure(11), laser(11), images(11), optical(9), diagnostics(9), spectroscopy(7), optics(7)
Blue keywords are present in both the references section and the paper title.

About this article
Date of Publication: 2010-11-30
Volume 10, Issue 4, Year 2010, On page(s): 161 - 166
ISSN: 1582-7445, e-ISSN: 1844-7600
Digital Object Identifier: 10.4316/AECE.2010.04026
Web of Science Accession Number: 000284782700026
SCOPUS ID: 80051523992

Abstract
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Performed in this work are complex statistical and fractal analyses of phase properties inherent to birefringence networks of liquid crystals consisting of optically-thin layers prepared from human bile. Within the framework of a statistical approach, the authors have investigated values and ranges for changes of statistical moments of the 1-st to 4-th orders that characterize coordinate distributions for phase shifts between orthogonal components of amplitudes inherent to laser radiation transformed by human bile with various pathologies. Using the Gramm-Charlie method, ascertained are correlation criteria for differentiation of phase maps describing pathologically changed liquid-crystal networks. In the framework of the fractal approach, determined are dimensionalities of self-similar coordinate phase distributions as well as features of transformation of logarithmic dependences for power spectra of these distributions for various types of human pathologies.


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

[1] W. F. Cheong, S. A. Prahl, A. J. Welch, "A Review of the Optical Properties of Biological Tissues," IEEE J. Quantum Electron, Vol. 26, pp. 2166-2185, Dec. 1990.
[CrossRef] [Web of Science Times Cited 1833] [SCOPUS Times Cited 2035]


[2] S. A. Prahl, M. Keijzer, S. L. Jacques, A. J. Welch, "A Monte Carlo model of light propagation in tissue," SPIE Proceedings of Dosimetry of Laser Radiation in Medicine and Biology, Vol. IS 5, pp. 102-111, 1989.

[3] E. Wolf, "Unified theory of coherence and polarization of random electromagnetic beams ," Phys. Lett. A., Vol. 312, pp. 263-267, 2003.
[CrossRef] [Web of Science Times Cited 566] [SCOPUS Times Cited 667]


[4] A. G. Ushenko and V. P. Pishak, "Laser Polarimetry of Biological Tissue: Principles and Applications", in Handbook of Coherent-Domain Optical Methods: Biomedical Diagnostics, Environmental and Material Science, vol. I, Valery V. Tuchin, Ed. Boston: Kluwer Academic Publishers, 2004, pp. 93-138. [PermaLink]

[5] 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 19]


[6] 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]


[7] 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 58] [SCOPUS Times Cited 56]


[8] A. G. Ushenko, "Laser diagnostics of biofractals," Quantum Electronics, vol. 29(12), pp. 1078-1084, December 1999.
[CrossRef] [Web of Science Times Cited 48] [SCOPUS Times Cited 59]


[9] O. V. Angel'skii, 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.
[CrossRef] [Web of Science Times Cited 65] [SCOPUS Times Cited 60]


[10] O. V. Angel'skii, 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.
[CrossRef] [Web of Science Times Cited 34]


[11] 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 65]


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

[13] 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.

[14] 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 56] [SCOPUS Times Cited 64]


[15] 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 58] [SCOPUS Times Cited 67]


[16] 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 73] [SCOPUS Times Cited 79]


[17] 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 18] [SCOPUS Times Cited 35]


[18] 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 58] [SCOPUS Times Cited 64]


[19] 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]


[20] 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 59] [SCOPUS Times Cited 66]


[21] 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 48] [SCOPUS Times Cited 53]


[22] 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 46] [SCOPUS Times Cited 58]


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

[24] 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 17] [SCOPUS Times Cited 18]


[25] A. Ushenko, S. Yermolenko, A. Prydij, S. Guminetsky, I. Gruia, O. Toma, K. 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 32] [SCOPUS Times Cited 73]


[26] 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.
[CrossRef] [Web of Science Times Cited 15] [SCOPUS Times Cited 24]


[27] 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.
[CrossRef] [SCOPUS Times Cited 22]


[28] 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.
[CrossRef] [Web of Science Times Cited 12] [SCOPUS Times Cited 22]


[29] 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.
[CrossRef] [SCOPUS Times Cited 33]


[30] 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 76]


[31] O. V. Dubolazov, A. G. Ushenko, V. T. Bachynsky, A. P. Peresunko, and O. Ya. Vanchulyak, "On the Feasibilities of Using the Wavelet Analysis of Mueller Matrix Images of Biological Crystals," Advances in Optical Technologies, vol. 2010, Article ID 162832, March 2010



References Weight

Web of Science® Citations for all references: 3,161 TCR
SCOPUS® Citations for all references: 3,650 TCR

Web of Science® Average Citations per reference: 99 ACR
SCOPUS® Average Citations per reference: 114 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

Citations for references updated on 2018-09-21 05:02 in 182 seconds.




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