Coherent fields and images in remote sensing / Valery I. Mandrosov.
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| Author / Creator: | Mandrosov, Valery I. |
|---|---|
| Imprint: | Bellingham, Wash. : SPIE Press, c2004. |
| Description: | xxii, 219 p. : ill. ; 26 cm. |
| Language: | English |
| Series: | SPIE ; v. no. PM130 SPIE Press monograph ; PM130. |
| Subject: | |
| Format: | Print Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/5172736 |
Table of Contents:
- Preface
- Notation
- Explanation of Terms
- Chapter 1. Basic Concepts of the Statistical Theory of Light Scattering
- 1.1. Introduction
- 1.2. Random surfaces and fields scattered by them; the Kirchhoff method
- 1.3. Statistical characteristics of a field scattered by a stationary object of finite size
- 1.4. Statistical characteristics of fields scattered by a moving object
- 1.5. Conclusions
- Chapter 2. Statistical Description of Coherent Images
- 2.1. Introduction
- 2.2. Statistical properties of fields in coherent images
- 2.3. Statistical characteristics of coherent image intensity in nonflat rough objects
- 2.4. Methods of estimating and improving the quality of coherent images
- 2.5. Statistical characteristics of images of an object illuminated by quasi-monochromatic and polychromatic light
- 2.6. Coherent images of small-scale surface roughness
- 2.7. Speckle structure of the time spectrum of a coherent field scattered by a moving rough object
- 2.8. Conclusions
- 2.9. General conclusions to Chapters 1 and 2
- Chapter 3. Use of Coherent Fields and Images to Determine the Dynamic Parameters of Remote Objects
- 3.1. Introduction
- 3.2. Methods of determining the linear velocity of a remote rough object
- 3.3. Method of determining the angular velocity of a rotating object
- 3.4. Determining object surface deformation parameters
- 3.5. Combined method of determining the motion and deformation parameters of an object
- 3.6. Conclusions
- Chapter 4. Fourier Telescopy
- 4.1. Introduction
- 4.2. Statistical model of the received signal in Fourier telescopy and the Fourier-telescopic image
- 4.3. Fourier-telescopic panoramic microscope
- 4.4. Integral and local measures of the relationship between the Fourier-telescopic image of an object and its averaged undistorted image
- 4.5. Conclusions
- Chapter 5. Time Background Holography of Moving Objects
- 5.1. Introduction
- 5.2. General theory of time background holography
- 5.3. Using time background holography to detect a moving object
- 5.4. Application of time background holography to the fast detection of moving objects and determination of their parameters
- 5.5. Time background holography of moving objects placed close to the background surface; the principle of time averaging of coherent wavefields
- 5.6. Time background intensity holography
- 5.7. Conclusions
- Appendix 1. Statistical Characteristics of the Intensity Distribution in a Coherent Image
- Appendix 2. Statistical Characteristics of the Intensity Distribution in a Fourier-Telescopic Image and the Resolution of Fourier Telescopy
- Appendix 3. Phase Closure Algorithm in Fourier Telescopy
- Appendix 4. The Coherence of Fields Scattered by Sufficiently Large Rough Objects, and the Contrast of the Scattered Field Intensity Distribution
- Appendix 5. Physics of Speckle Pattern Formation in the Images of Rough Objects
- References
- Index
