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E-raamat: Logarithmic Image Processing: Theory and Applications

Series edited by (Founder-President of the European Microscopy Society and Fellow, Microscopy and Optical Societies of America; member of the editorial boards of several microscopy journals and Serial Editor, Advances in Electron Optics, France)
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Logarithmic Image Processing: Theory and Applications, the latest volume in the series that merges two long-running serials, Advances in Electronics and Electron Physics and Advances in Optical and Electron Microscopy and features cutting-edge articles on recent developments in all areas of microscopy, digital image processing, and many related subjects in electron physics.

  • Merges two long-running serials, Advances in Electronics and Electron Physics and Advances in Optical and Electron Microscopy into a single volume
  • Contains the latest information on logarithmic image processing and its theory and applications
  • Features cutting-edge articles on recent developments in all areas of microscopy, digital image processing, and many related subjects in electron physics

Muu info

As the latest volume in the long-running serial that merges Advances in Electronics and Electron Physics and Advances in Optical and Electron Microscopy, this cutting-edge volume provides articles on recent developments in all areas of microscopy, digital image processing, and many related subjects in electron physics
Preface vii
Future Contributions ix
Acknowledgments xiii
Foreword: Short History of the LIP Model xv
Main Notations xxi
1 Gray-Level LIP Model. Notations, Recalls, and First Applications
1(26)
1 Basic Notations
1(2)
2 Definition of Logarithmic Laws on the Space of Images
3(7)
3 First Consequences of the Vector Space Structure
10(11)
4 About a Good Use of the LIP Model
21(4)
5 Transition to Next
Chapters
25(2)
Acknowledgment
25(1)
References
25(2)
2 Various Contrast Concepts
27(34)
1 Logarithmic Additive Contrast
29(16)
2 Logarithmic Multiplicative Contrast
45(7)
3 What About Color Images?
52(7)
4 Conclusion
59(2)
References
59(2)
3 Metrics Based on Logarithmic Laws
61(54)
1 Introduction
62(1)
2 Recalls on Some Existing Metrics
62(7)
3 Two Ways to Introduce Novel Metrics in the LIP Framework
69(9)
4 The Multiplicative Asplund's Metric dAS
78(10)
5 The Additive Asplund's Metric dAS
88(14)
6 Examples of Metrics for Color Images
102(5)
7 Other Notions Around Metrics
107(4)
8 Conclusion and Perspectives
111(4)
References
113(2)
4 Dynamic Range Expansion, Night Vision. Stabilization, Centering. Industrial and Biomedical Applications
115(50)
1 A "Killer" Property of the LIP Model: Negative Gray Levels and Negative Thickness of an Object May Be Interpreted as Light Intensifies
117(3)
2 Low-Light Images Enhancement Through LIP Scalar Multiplication
120(14)
3 Low-Light Images Enhancement Based on LIP Subtraction
134(8)
4 Stabilization and Centering
142(4)
5 Applications
146(9)
6 Local Lighting Correction
155(3)
7 Comparison of LIP Enhancement with Existing Methods
158(3)
8 Conclusion and Perspectives
161(4)
References
162(3)
5 Ability of the LIP Model to Simulate Variable Acquisition Conditions
165(20)
1 Lighting Variations: Source Intensity Variations
166(1)
2 Exposure Time Variation
166(11)
3 Variable Diaphragm Aperture
177(3)
4 Other Simulations
180(3)
5 High Dynamic Range Images
183(1)
6 Conclusion
184(1)
References
184(1)
6 Transfer of Classical Tools to the LIP Context
185(60)
1 Application to Segmentation Methods
186(40)
2 Logarithmic Wavelets
226(3)
3 Percolation
229(10)
4 LIP Top-Hat
239(1)
5 Funnel-Shaped Growing in the Sense of Darsonville
239(2)
6 Application to Semitransparent Media Acquired in Reflection
241(1)
7 Conclusion
241(4)
References
242(3)
7 General Conclusion
245(2)
Index 247(6)
Contents of Volumes 151--194 253
Peter Hawkes obtained his M.A. and Ph.D (and later, Sc.D.) from the University of Cambridge, where he subsequently held Fellowships of Peterhouse and of Churchill College. From 1959 1975, he worked in the electron microscope section of the Cavendish Laboratory in Cambridge, after which he joined the CNRS Laboratory of Electron Optics in Toulouse, of which he was Director in 1987. He was Founder-President of the European Microscopy Society and is a Fellow of the Microscopy and Optical Societies of America. He is a member of the editorial boards of several microscopy journals and serial editor of Advances in Electron Optics.
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