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Information technology in medical diagnostics : proceedngs of the XIIIth Conference WD 2016, Lublin, Poland, 11-13 June 2016 and the XIIIth International Conference - Measurement and Control in Complex Systems, MCCS-2016, Vinnitsia, Ukraine 3-6 October 2016 /

"For many centuries, people have tried to learn about the state of their health. Initially, in the pre-technological period, they had to rely only on their senses. Then there were simple tools to help the human senses. The discovery of X-rays, which allowed people to look 6 nside" the body...

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Bibliographic Details
Corporate Authors: Conference WD Lublin, Poland; International Scientific Conference Measurement and Control in Complex Systems Vinnitsia, Ukraine
Group Author: Wójcik, Waldemar; Smolarz, Andrzej
Published: CRC Press/Balkema,
Publisher Address: Leiden, the Netherlands :
Publication Dates: [2017]
Literature type: Book
Language: English
Subjects:
Diagnosis > Technological innovations > Congresses
Information technology > Congresses
Summary: "For many centuries, people have tried to learn about the state of their health. Initially, in the pre-technological period, they had to rely only on their senses. Then there were simple tools to help the human senses. The discovery of X-rays, which allowed people to look 6 nside" the body, turned out to be a major breakthrough. Contemporary medical diagnostics is increasingly being assisted by information technology that allows, for example, thorough image tissue analysis or pathology differentiation. They also allow very early preventive diagnostics. Influenced by information technology, 6
Carrier Form: ix, 209 pages : illustrations, portraits ; 27 cm
Bibliography: Includes bibliographical references and index.
ISBN: 9781138299290
1138299294
9781351578943
1351578944
1351578952
9781351578950
Index Number: RC71
CLC: R44-532
Call Number: R44-532/I437/2016
Contents: Cover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; About the editors; CHAPTER 1: Recognition of textured objects using optimal inverse resonant filtration; 1 Introduction; 2 Object recognition problem statement as the problem of optimal filtration; 3 Harmonic model of textured image; 4 Design of optimal inverse resonant filter; 5 Creation of functions basis for eigen harmonic decomposition; 6 Implementation and experimental analysis of the IRF; 7 Conclusions; CHAPTER 2: Approximation of bidirectional reflectance distribution function for highly efficient shading.
1 Introduction2 Analysis of existing approaches to BRDF approximation and problem formulation; 3 Approximation of BRDF by the 3-degree polynomial; 4 Approximation of BRDF by using logarithmic function; 5 BRDF approximation models based on new cosine-degree functions with simple hardware implementation; 6 A method for accelerated computation of color intensities for scan-line fills of three-dimensional graphics objects; 7 Conclusions; CHAPTER 3: Modified method of parallel-hierarchical network teaching based on population coding; 1 Introduction; 2 The G-transformation.
3 Information about the frame parameters4 Estimation of efficiency; 5 Experiment; 6 Conclusions; CHAPTER 4: Methods and systems of 2D polarization multi-matrix tomography of birefringent biological tissues and fluids; 1 Introduction; 2 Materials and methods of 2D polarization Mueller-matrix tomography; 3 Metrological characteristics of measurement errors distributions in the system of Mueller-matrix mapping of biological layers; 4 Diagnostic possibilities of orientation and phase Mueller-matrix tomography of polycrystal networks of blood plasma; 5 Conclusions.
CHAPTER 5: Subpixel edge detection and localisation based on low-frequency filtering1 Introduction; 2 Methods; 3 Experiment; 4 Methods for edge detection based on low-frequency filtering and analysis of previous research; 5 Diagram of the edge detection method; 6 Conclusions; CHAPTER 6: Magnetocardiographic technology for human heart investigation; 1 Introduction; 2 Technology of magnetocardiographic study; 3 Principles and stages of magnetocardiosignal analysis; 4 Automatic analysis of the MCG; 5 Conclusions.
CHAPTER 7: Processing laser beam images using parallel-hierarchical FPGA-based transformations1 Introduction; 2 Theoretical foundations of organising parallel-hierarchical networks on the basis of functional sets; 3 Direct parallel-hierarchical transformation; 4 Implementation of parallel-hierarchical networks for processing laser beam spot images; 5 Results; 6 Conclusions; CHAPTER 8: The conjugated null space method of blind deconvolution; 1 Introduction; 2 The conjugated NS method of PSF estimation; 3 Deconvolution optimisation; 4 Method implementation and test examples; 5 Conclusion.

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