Optical Imaging Sensors and Systems for Homeland Security Applications (eBook, PDF)
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Optical and photonic systems and devices have significant potential for homeland security. "Optical Imaging Sensors and Systems for Homeland Security Applications" presents original and significant technical contributions from leaders of industry, government, and academia in the field of optical and photonic sensors, systems and devices for detection, identification, prevention, sensing, security, verification and anti-counterfeiting. The chapters have recent and technically significant results, ample illustrations, figures, and key references. This book is intended for engineers and…mehr
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Optical and photonic systems and devices have significant potential for homeland security. "Optical Imaging Sensors and Systems for Homeland Security Applications" presents original and significant technical contributions from leaders of industry, government, and academia in the field of optical and photonic sensors, systems and devices for detection, identification, prevention, sensing, security, verification and anti-counterfeiting. The chapters have recent and technically significant results, ample illustrations, figures, and key references. This book is intended for engineers and scientists in the relevant fields, graduate students, industry managers, university professors, government managers, and policy makers.
Produktdetails
- Produktdetails
- Verlag: Springer New York
- Erscheinungstermin: 16. Mai 2006
- Englisch
- ISBN-13: 9780387280011
- Artikelnr.: 37286409
- Verlag: Springer New York
- Erscheinungstermin: 16. Mai 2006
- Englisch
- ISBN-13: 9780387280011
- Artikelnr.: 37286409
Bahram Javidi, University of Connecticut, Storrs, CT, USA
Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications.- 3D Object Reconstruction and Recognition Techniques Based on Digital Holography.- Compression of Encrypted Digital Holograms Using Artificial Neural Networks.- Digital Holography: Recent Advancements and Prospective Improvements for Applications in Microscopy.- Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique.- 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data.- Distortion-tolerant 3D Volume Recognition Using X-ray Imaging.- 3D Imaging and Recognition of Microorganism Using Single-exposure Online (SEOL) Digital Holography.- Passive 3D Sensing and 3D Imaging Systems for Homeland Security.- Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes.- Real-time Remote Identification and Verification of Objects Using Optical ID Tags.- Surveillance and Image Recognition Algorithms for Homeland Security Applications.- An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles.- Information Processing Across Distributed and Netted Systems for Security and Surveillance.- Composite Correlation Filters and Neural Networks for Identification and Pose Estimation.- Evolutionary Sensor Fusion for Security.- The Use of Synthetic Data in Eye/Face Recognition.- Hyperspectral Target Detection Based on Kernels.- Detecting 3D Location and Shape of Distorted 3D Objects Using LADAR Trained Optimum Nonlinear Filters.- Optical Devices and Hardware for Homeland Security Applications.- Planar Microoptical Systems for Correlation and Security Applications.- Optical Waveguide-mode Resonant Biosensors.- Improved Optical Document Security Techniques Based on Volume Holography and Lippmann Photography.
Contributor List
Section 1: Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications
1. 3D Object Reconstruction and Recognition Techniques Based on Digital Holography; Yann Frauel, Enrique Tajahuerce, Osamu Matoba,
Albertina Castro, and Bahram Javidi
2. Compression of Encrypted Digital Holograms Using Artificial Neural Networks; Alison E. Shortt, Thomas J.. Naughton, Bahram Javidi
3. Digital Hoplography: Recent Advancements and Prospective Improvements for Applications in Microscopy; Pietro Ferraro, Sergio De Nicola, Giuseppe Coppola
4. Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique; Takanori Nomura
5. 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data; Sekwon Yeom, Bahram Javidi
6. Distortion-tolerant 3D Volume Recognition Using X-ray Imaging; Sekwon Yeom, Bahram Javidi, Young Jun Roh, and Hyung Suck Cho
7. 3D Imaging and Recognition of Microorganism usingSingle-exposure On-line (SEOL) Digital Holography; Bahram Javidi, Inkyu Moon, Seokwon Yeom and Edward Carapezza
Section II: Passive 3D Sensing and 3D Imaging Systems for Homeland Security
8. Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes; Yann Frauel, Osamu Matoba, Enrique Tajahuerce, and
Bahram Javidi
9. Real-time Remote Identification and Verification of Objects Using Optical ID Tags; Bahram Javidi
Section III: Surveillance and Image Recognition Algorithms for Homeland Security Applications
10. An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles; Firooz Sadjadi
11. Information Processing Across Distributed and Netted Systems for Security and Surveillance; Abhijit Mahalanobis, Mubarak Shah, Alan van Nevel
12. Composite Correlation Filters and Neural Networks for Identification and Pose Estimation; Albertina Castro, Yann Frauel, and Bahram Javidi
13. Evolutionary Sensor Fusion for Security; BirBhanu and Sohail Nadimi
14. The Use of Synthetic Data in Eye/Face Recognition; Behrooz Kamgar-Parsi, Behzad Kabmar-Parsi, Benjamin N. Waber
15. Hyperspectral Target Detection based on Kernels; Heesung Kwon and Nasser M. Nasrabadi
16. Detecting 3D Location and Shape of Distorted 3D Objects using LADAR Trained Optimum Nonlinear Filters; Seung-Hyun Hong and Bahram Javidi
Section IV: Optical Devices and Hardware for Homeland Security Applications
17. Planar Microoptical Systems for Correlation and Security Applications; Stefan Sinzinger, J. Jahns, J. Glueckstad, V. Daria
18. Optical Waveguide-mode Resonant Biosensors; D. Wawro, S. Tibuleac, and R. Magnusson
19. Improved Optical Document Security Techniques based on Volume Holography and Lippmann Photography; Hans I. Bjelkhagen
Index
Section 1: Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications
1. 3D Object Reconstruction and Recognition Techniques Based on Digital Holography; Yann Frauel, Enrique Tajahuerce, Osamu Matoba,
Albertina Castro, and Bahram Javidi
2. Compression of Encrypted Digital Holograms Using Artificial Neural Networks; Alison E. Shortt, Thomas J.. Naughton, Bahram Javidi
3. Digital Hoplography: Recent Advancements and Prospective Improvements for Applications in Microscopy; Pietro Ferraro, Sergio De Nicola, Giuseppe Coppola
4. Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique; Takanori Nomura
5. 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data; Sekwon Yeom, Bahram Javidi
6. Distortion-tolerant 3D Volume Recognition Using X-ray Imaging; Sekwon Yeom, Bahram Javidi, Young Jun Roh, and Hyung Suck Cho
7. 3D Imaging and Recognition of Microorganism usingSingle-exposure On-line (SEOL) Digital Holography; Bahram Javidi, Inkyu Moon, Seokwon Yeom and Edward Carapezza
Section II: Passive 3D Sensing and 3D Imaging Systems for Homeland Security
8. Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes; Yann Frauel, Osamu Matoba, Enrique Tajahuerce, and
Bahram Javidi
9. Real-time Remote Identification and Verification of Objects Using Optical ID Tags; Bahram Javidi
Section III: Surveillance and Image Recognition Algorithms for Homeland Security Applications
10. An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles; Firooz Sadjadi
11. Information Processing Across Distributed and Netted Systems for Security and Surveillance; Abhijit Mahalanobis, Mubarak Shah, Alan van Nevel
12. Composite Correlation Filters and Neural Networks for Identification and Pose Estimation; Albertina Castro, Yann Frauel, and Bahram Javidi
13. Evolutionary Sensor Fusion for Security; BirBhanu and Sohail Nadimi
14. The Use of Synthetic Data in Eye/Face Recognition; Behrooz Kamgar-Parsi, Behzad Kabmar-Parsi, Benjamin N. Waber
15. Hyperspectral Target Detection based on Kernels; Heesung Kwon and Nasser M. Nasrabadi
16. Detecting 3D Location and Shape of Distorted 3D Objects using LADAR Trained Optimum Nonlinear Filters; Seung-Hyun Hong and Bahram Javidi
Section IV: Optical Devices and Hardware for Homeland Security Applications
17. Planar Microoptical Systems for Correlation and Security Applications; Stefan Sinzinger, J. Jahns, J. Glueckstad, V. Daria
18. Optical Waveguide-mode Resonant Biosensors; D. Wawro, S. Tibuleac, and R. Magnusson
19. Improved Optical Document Security Techniques based on Volume Holography and Lippmann Photography; Hans I. Bjelkhagen
Index
Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications.- 3D Object Reconstruction and Recognition Techniques Based on Digital Holography.- Compression of Encrypted Digital Holograms Using Artificial Neural Networks.- Digital Holography: Recent Advancements and Prospective Improvements for Applications in Microscopy.- Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique.- 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data.- Distortion-tolerant 3D Volume Recognition Using X-ray Imaging.- 3D Imaging and Recognition of Microorganism Using Single-exposure Online (SEOL) Digital Holography.- Passive 3D Sensing and 3D Imaging Systems for Homeland Security.- Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes.- Real-time Remote Identification and Verification of Objects Using Optical ID Tags.- Surveillance and Image Recognition Algorithms for Homeland Security Applications.- An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles.- Information Processing Across Distributed and Netted Systems for Security and Surveillance.- Composite Correlation Filters and Neural Networks for Identification and Pose Estimation.- Evolutionary Sensor Fusion for Security.- The Use of Synthetic Data in Eye/Face Recognition.- Hyperspectral Target Detection Based on Kernels.- Detecting 3D Location and Shape of Distorted 3D Objects Using LADAR Trained Optimum Nonlinear Filters.- Optical Devices and Hardware for Homeland Security Applications.- Planar Microoptical Systems for Correlation and Security Applications.- Optical Waveguide-mode Resonant Biosensors.- Improved Optical Document Security Techniques Based on Volume Holography and Lippmann Photography.
Contributor List
Section 1: Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications
1. 3D Object Reconstruction and Recognition Techniques Based on Digital Holography; Yann Frauel, Enrique Tajahuerce, Osamu Matoba,
Albertina Castro, and Bahram Javidi
2. Compression of Encrypted Digital Holograms Using Artificial Neural Networks; Alison E. Shortt, Thomas J.. Naughton, Bahram Javidi
3. Digital Hoplography: Recent Advancements and Prospective Improvements for Applications in Microscopy; Pietro Ferraro, Sergio De Nicola, Giuseppe Coppola
4. Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique; Takanori Nomura
5. 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data; Sekwon Yeom, Bahram Javidi
6. Distortion-tolerant 3D Volume Recognition Using X-ray Imaging; Sekwon Yeom, Bahram Javidi, Young Jun Roh, and Hyung Suck Cho
7. 3D Imaging and Recognition of Microorganism usingSingle-exposure On-line (SEOL) Digital Holography; Bahram Javidi, Inkyu Moon, Seokwon Yeom and Edward Carapezza
Section II: Passive 3D Sensing and 3D Imaging Systems for Homeland Security
8. Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes; Yann Frauel, Osamu Matoba, Enrique Tajahuerce, and
Bahram Javidi
9. Real-time Remote Identification and Verification of Objects Using Optical ID Tags; Bahram Javidi
Section III: Surveillance and Image Recognition Algorithms for Homeland Security Applications
10. An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles; Firooz Sadjadi
11. Information Processing Across Distributed and Netted Systems for Security and Surveillance; Abhijit Mahalanobis, Mubarak Shah, Alan van Nevel
12. Composite Correlation Filters and Neural Networks for Identification and Pose Estimation; Albertina Castro, Yann Frauel, and Bahram Javidi
13. Evolutionary Sensor Fusion for Security; BirBhanu and Sohail Nadimi
14. The Use of Synthetic Data in Eye/Face Recognition; Behrooz Kamgar-Parsi, Behzad Kabmar-Parsi, Benjamin N. Waber
15. Hyperspectral Target Detection based on Kernels; Heesung Kwon and Nasser M. Nasrabadi
16. Detecting 3D Location and Shape of Distorted 3D Objects using LADAR Trained Optimum Nonlinear Filters; Seung-Hyun Hong and Bahram Javidi
Section IV: Optical Devices and Hardware for Homeland Security Applications
17. Planar Microoptical Systems for Correlation and Security Applications; Stefan Sinzinger, J. Jahns, J. Glueckstad, V. Daria
18. Optical Waveguide-mode Resonant Biosensors; D. Wawro, S. Tibuleac, and R. Magnusson
19. Improved Optical Document Security Techniques based on Volume Holography and Lippmann Photography; Hans I. Bjelkhagen
Index
Section 1: Active Optical 3D Sensing and 3D Imaging Systems for Homeland Security Applications
1. 3D Object Reconstruction and Recognition Techniques Based on Digital Holography; Yann Frauel, Enrique Tajahuerce, Osamu Matoba,
Albertina Castro, and Bahram Javidi
2. Compression of Encrypted Digital Holograms Using Artificial Neural Networks; Alison E. Shortt, Thomas J.. Naughton, Bahram Javidi
3. Digital Hoplography: Recent Advancements and Prospective Improvements for Applications in Microscopy; Pietro Ferraro, Sergio De Nicola, Giuseppe Coppola
4. Hybrid Optical Encryption of a 3D Object by Use of a Digital Holographic Technique; Takanori Nomura
5. 3D Object Recognition using Gabor Feature Extraction and PCA-FLD Projections of Holographically Sensed Data; Sekwon Yeom, Bahram Javidi
6. Distortion-tolerant 3D Volume Recognition Using X-ray Imaging; Sekwon Yeom, Bahram Javidi, Young Jun Roh, and Hyung Suck Cho
7. 3D Imaging and Recognition of Microorganism usingSingle-exposure On-line (SEOL) Digital Holography; Bahram Javidi, Inkyu Moon, Seokwon Yeom and Edward Carapezza
Section II: Passive 3D Sensing and 3D Imaging Systems for Homeland Security
8. Integral Imaging Applied to the Digital Reconstruction and Recognition of 3D Scenes; Yann Frauel, Osamu Matoba, Enrique Tajahuerce, and
Bahram Javidi
9. Real-time Remote Identification and Verification of Objects Using Optical ID Tags; Bahram Javidi
Section III: Surveillance and Image Recognition Algorithms for Homeland Security Applications
10. An Adaptive Technique for Minimizing Rate of Sensory Data Transmission in Unmanned Aerial Vehicles; Firooz Sadjadi
11. Information Processing Across Distributed and Netted Systems for Security and Surveillance; Abhijit Mahalanobis, Mubarak Shah, Alan van Nevel
12. Composite Correlation Filters and Neural Networks for Identification and Pose Estimation; Albertina Castro, Yann Frauel, and Bahram Javidi
13. Evolutionary Sensor Fusion for Security; BirBhanu and Sohail Nadimi
14. The Use of Synthetic Data in Eye/Face Recognition; Behrooz Kamgar-Parsi, Behzad Kabmar-Parsi, Benjamin N. Waber
15. Hyperspectral Target Detection based on Kernels; Heesung Kwon and Nasser M. Nasrabadi
16. Detecting 3D Location and Shape of Distorted 3D Objects using LADAR Trained Optimum Nonlinear Filters; Seung-Hyun Hong and Bahram Javidi
Section IV: Optical Devices and Hardware for Homeland Security Applications
17. Planar Microoptical Systems for Correlation and Security Applications; Stefan Sinzinger, J. Jahns, J. Glueckstad, V. Daria
18. Optical Waveguide-mode Resonant Biosensors; D. Wawro, S. Tibuleac, and R. Magnusson
19. Improved Optical Document Security Techniques based on Volume Holography and Lippmann Photography; Hans I. Bjelkhagen
Index