Description

Book Synopsis
Osche explores optical detection theory and the associated phenomenologies for laser system applications. Readers will learn how to apply these applications in imaging laser radar, DIAL and DISC lidar, laser remote wind sensing systems, laser pointing systems, rangefinders, and laser communications systems.

Table of Contents
Preface.

Chapter 1. Introduction and Background.

1.1. Overview of Laser Systems.

1.2. Review of Statistical Methods.

1.3. Decision-Making Processes.

1.4. Optical Detection Techniques.

References.

Chapter 2. Signal and Noise Analysis.

2.1. Introduction.

2.2. Review of Diffraction Theory.

2.3. Free-Space Propagation.

2.4. Truncated and Obscured Gaussian Beams.

2.5. Fourier Optics and the Array Theorem.

2.6. Antenna and Mixing Theorems.

2.7. Analysis of Coherent Detection Systems.

2.8. Analysis of Direct-Detection Systems.

2.9. Receiver and Clutter Noise.

2.10. Power Signal-to-Noise-Ratio.

References.

Chapter 3. Random Processes in Beam Propagation.

3.1. Introduction.

3.2. Review of Optical Coherence Theory.

3.3. Surface Scattering.

3.4. Propagation through Turbulent Media.

References.

Chapter 4. Single-Pulse Direct-Detection Statistics.

4.1. Introduction.

4.2. Single-Point Statistics of Fully Developed Speckle.

4.3. Summed Statistics of Fully Developed Speckle.

4.4. Poisson Signal in Poisson Noise.

4.5. Negative Binomial Signal in Poisson Noise.

4.6. Noncentral Negative Binomial Signal in Poisson Noise.

4.7. Parabolic-Cylinder Signal in Gaussian Noise.

4.8. Detection of Signals in APD Excess Noise.

4.9. Detection in Atmospheric Turbulence.

4.10. Detection in Atmospheric Clutter.

4.11. Polarization Diversity.

4.12. Multiple Uncorrelated Signals.

References.

Chapter 5. Single-Pulse Coherent Detection Statistics.

5.1. Introduction.

5.2. Constant-Amplitude Signal in Gaussian Noise.

5.3. Rayleigh Fluctuating Signal in Gaussian Noise.

5.4. One-Dominant-Plus-Rayleigh Signal in Gaussian Noise.

5.5. Rician Signal in Gaussian Noise.

5.6. Detection in Atmospheric Turbulence.

5.7. Coherent versus Noncoherent Performance.

References.

Chapter 6. Multiple-Pulse Detection.

6.1. Introduction.

6.2. Direct-Detection Systems.

6.3. Coherent Detection Systems.

6.4. Binary Integration.

References.

Appendix A. Advanced Mathematical Functions.

A.1. Dirac Delta and Unit Step Functions.

A.2. Gamma Function.

A.3. Confluent Hypergeometric Function.

A.4. Parabolic Cylinder Functions.

A.5. Toronto Function.

References.

Appendix B. Additional Derivations.

B.1. Gamma Distribution.

B.2. Burgess Variance Theorem.

References.

Index.

Optical Detection Theory for Laser Applications

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A Hardback by Gregory R. Osche

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    View other formats and editions of Optical Detection Theory for Laser Applications by Gregory R. Osche

    Publisher: John Wiley & Sons Inc
    Publication Date: 23/08/2002
    ISBN13: 9780471224112, 978-0471224112
    ISBN10: 0471224111
    Also in:
    Electronics and communications engineering Laser technology and holography

    Description

    Book Synopsis
    Osche explores optical detection theory and the associated phenomenologies for laser system applications. Readers will learn how to apply these applications in imaging laser radar, DIAL and DISC lidar, laser remote wind sensing systems, laser pointing systems, rangefinders, and laser communications systems.

    Table of Contents
    Preface.

    Chapter 1. Introduction and Background.

    1.1. Overview of Laser Systems.

    1.2. Review of Statistical Methods.

    1.3. Decision-Making Processes.

    1.4. Optical Detection Techniques.

    References.

    Chapter 2. Signal and Noise Analysis.

    2.1. Introduction.

    2.2. Review of Diffraction Theory.

    2.3. Free-Space Propagation.

    2.4. Truncated and Obscured Gaussian Beams.

    2.5. Fourier Optics and the Array Theorem.

    2.6. Antenna and Mixing Theorems.

    2.7. Analysis of Coherent Detection Systems.

    2.8. Analysis of Direct-Detection Systems.

    2.9. Receiver and Clutter Noise.

    2.10. Power Signal-to-Noise-Ratio.

    References.

    Chapter 3. Random Processes in Beam Propagation.

    3.1. Introduction.

    3.2. Review of Optical Coherence Theory.

    3.3. Surface Scattering.

    3.4. Propagation through Turbulent Media.

    References.

    Chapter 4. Single-Pulse Direct-Detection Statistics.

    4.1. Introduction.

    4.2. Single-Point Statistics of Fully Developed Speckle.

    4.3. Summed Statistics of Fully Developed Speckle.

    4.4. Poisson Signal in Poisson Noise.

    4.5. Negative Binomial Signal in Poisson Noise.

    4.6. Noncentral Negative Binomial Signal in Poisson Noise.

    4.7. Parabolic-Cylinder Signal in Gaussian Noise.

    4.8. Detection of Signals in APD Excess Noise.

    4.9. Detection in Atmospheric Turbulence.

    4.10. Detection in Atmospheric Clutter.

    4.11. Polarization Diversity.

    4.12. Multiple Uncorrelated Signals.

    References.

    Chapter 5. Single-Pulse Coherent Detection Statistics.

    5.1. Introduction.

    5.2. Constant-Amplitude Signal in Gaussian Noise.

    5.3. Rayleigh Fluctuating Signal in Gaussian Noise.

    5.4. One-Dominant-Plus-Rayleigh Signal in Gaussian Noise.

    5.5. Rician Signal in Gaussian Noise.

    5.6. Detection in Atmospheric Turbulence.

    5.7. Coherent versus Noncoherent Performance.

    References.

    Chapter 6. Multiple-Pulse Detection.

    6.1. Introduction.

    6.2. Direct-Detection Systems.

    6.3. Coherent Detection Systems.

    6.4. Binary Integration.

    References.

    Appendix A. Advanced Mathematical Functions.

    A.1. Dirac Delta and Unit Step Functions.

    A.2. Gamma Function.

    A.3. Confluent Hypergeometric Function.

    A.4. Parabolic Cylinder Functions.

    A.5. Toronto Function.

    References.

    Appendix B. Additional Derivations.

    B.1. Gamma Distribution.

    B.2. Burgess Variance Theorem.

    References.

    Index.

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