Trends in education, 2010 (vol. 3), issue 1
TVV 2010, 3(1):577-580
DIGITAL PARTICLE IMAGE VELOCIMETRY CORRELATION ALGORITHM AT FOUCAULT-HILBERT DOMAINS
- Katedra Technologii, Wydział Przyrodniczo Techniczny, Uniwersytet Opolski, 45-365 Opole, ul. Dmowskiego 7/9
The modern image acquisition and processing methods are widely used at scientific and industrial applications for solving of huge number of semantically different tasks. The general structures of information technologies used for decisions making processes (DMP) at these applications are, basically, similar including three fundamental stages: visualization, image analysis, identification procedural sets. The realization of these procedures determine mostly the operation quality of whole technological chain, semantic analysis and total effectiveness of DMP at systems. The recent developing of artificial intelligence and knowledge engineering theory based on conceptions of intelligent knowledge networks prove these thesis [1]. Otherwise, this emphasizes the importance of further developing and unification of low-level (physical, logical, systematic, networking layers) methods and procedural sets based on signal and image processing. The developed, during the second half of XX century, digital Fourier- and Hilbert-optics could be recognized as the informative and very effective methodology of modern information-measuring systems design [2,3]. The publications of this article's authors also consider the aspects of physical fields visualization, image analysis, segmentation (textures fragmentation) and identification of complex shape objects'(CSO) and textures' (CST) images as structural elements of dynamic scenes [4,5,6,7]. The continuation of such research activities, by authors' opinion, is well-founded and could provide the increasing of contextually instruments' quality.
Keywords: flow visualization, particle image velocimetry, Foucault-Hilbert method.
Published: July 1, 2010 Show citation
References
- AHAMED, SYED V., Intelligent Internet Knowledge Networks. Processing of concept and wisdom. Wiley-Interscience, John Wiley & Sons, Inc., Publication, 2007.
Go to original source... - VAN DER LUGT A., Ed., Optical Signal Processing, Wiley Series in Pure and Applied Optics, John Wiley, New York, NY, USA, 1992.
- OZAKTAS H. M., ZALEVSKY Z., KUTAY M. A., The Fractional Fourier Transform with Applications in Optics and Signal Processing, Wiley, New York, NY, USA, 2001. Go to original source...
- ALIEVA T., BASTIAANS M. J., CALVO M. L., Fractional Transforms in Optical Information Processing, EURASIP Journal on Applied Signal Processing, no.10, 2005, 1498-1519. Go to original source...
- SUDOŁ A., VLASENKO V., VLASENKO N., SEMENOV D., Modeling and verification of information technologies for MDHO-identification of objects and textures at dynamic scenes. Information Systems Architecture and Technology (ISAT), Information Systems and Computer Communication Network, Wroclaw, 2007, 49-60.
- VLASENKO V.A., VLASENKO N.K., SEMENOV D.O., Identification of Objects at Foucault-Hilbert Transform Domain: Methods for Complex Shape Signature Description, Praci UNDIRT (Proceedings of the Ukrainian Scientific Research Institute of Radio and Television), 2006, nr 3(47), 54 - 61.
- VLASENKO V.A., VLASENKO N.K., SEMENOV D.O., Integral-Geometric Approach to Identification at Foucault-Hilbert Transform Domain: Methods for Synthesis and Analysis of Object and Textures Signatures, Praci UNDIRT, 2006, nr 3(47), 64 - 70.
- ¦LEZIAK M., Two-phase flow in heat exchanger, Phd. Thesis, Technical University of Opole, Mechanical Faculty, 2005.
This is an open access article distributed under the terms of the Creative Commons Attribution-ShareAlike 4.0 International License (CC BY-SA 4.0), which permits use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.