Super-Resolved Imaging
Geometrical and Diffraction Approaches
(Sprache: Englisch)
In this brief we review several approaches that provide super resolved imaging, overcoming the geometrical limitation of the detector as well as the diffraction effects set by the F number of the imaging lens. In order to obtain the super resolved...
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In this brief we review several approaches that provide super resolved imaging, overcoming the geometrical limitation of the detector as well as the diffraction effects set by the F number of the imaging lens. In order to obtain the super resolved enhancement, we use spatially non-uniform and/or random transmission structures to encode the image or the aperture planes. The desired resolution enhanced images are obtained by post-processing decoding of the captured data.
Klappentext zu „Super-Resolved Imaging “
In this brief we review several approaches that provide super resolved imaging, overcoming the geometrical limitation of the detector as well as the diffraction effects set by the F number of the imaging lens. In order to obtain the super resolved enhancement, we use spatially non-uniform and/or random transmission structures to encode the image or the aperture planes. The desired resolution enhanced images are obtained by post-processing decoding of the captured data.
Inhaltsverzeichnis zu „Super-Resolved Imaging “
Preface.- Contents.- Chapter One.- 1.1 Fourier Optics.- 1.1.1 Free Space propagation: Fresnel & Fraunhofer integrals.- 1.1.2 Imaging system.- 1.2: Diffraction Resolution limitation.- 1.3: Geometrical Resolution limitation.- The effects of sampling by CCD (pixel shape & aliasing).- 1.4 Super-resolution explained by Degrees of freedom number.- 1.5 Inverse problem statement of super-resolution.- References.- Chapter 2.- 2.1 Single snap-shot double field optical zoom.- 2.1.1 Introduction.- 2.1.2 Theory.- 2.1.3. Simulation Investigation.- 2.2 Full Field of View Super-resolution Imaging based on Two Static Gratings and White Light Illumination.- 2.2.1 Introduction.- 2.2.2 Mathematical Analysis.- 2.2.3 Experimental Results.- 2.3 Super-resolution using gray level coding.- 2.3.1 Introduction.- 2.3.2 Theory.- 2.3.3 Experiment.- References.- Chapter 3.- 3.1 Geometrical Super Resolution Using Code Division Multiplexing.- 3.1.1 Introduction.- 3.1.2 Theoretical Analysis.- 3.1.3 Computer Simulations.- 3.1.4 Experimental Results.- 3.2 Diffraction Super Resolution Using Code Division Multiplexing.- 3.2.1 Introduction.- 3.2.2 Theoretical Analysis.- 3.2.3 Computer Simulations.- 3.2.4 Experimental Results.- References.- Chapter 4.- 4.1 Geometrical Super Resolved Imaging Using Non periodic Spatial Masking.- 4.1.1 Introduction.- 4.1.2 Theoretical Analysis.- 4.1.3 Experimental investigation.- 4.2 Random angular coding for super-resolved imaging.- 4.2.1 Introduction.- 4.2.2 Mathematical Derivation.- 4.2.3. Numerical Simulation of the System.- 4.2.4. Experimental results.- References.
Bibliographische Angaben
- 2011, XVI, 116 Seiten, 21 farbige Abbildungen, Maße: 15,5 x 23,5 cm, Kartoniert (TB), Englisch
- Herausgegeben: Zeev Zalevsky
- Verlag: Springer, Berlin
- ISBN-10: 1461408326
- ISBN-13: 9781461408321
- Erscheinungsdatum: 19.08.2011
Sprache:
Englisch
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