Optical Imaging Sensors and Systems for Homeland Security Applications

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.