Displays: Fundamentals & Applications, Second Edition

Introduction Displays: Bird's-Eye View Milestones of Display Technology Organization of the Book Fundamentals of Light Introduction Electromagnetic Radiation Principles of Light Generation Measuring Light Physics of Light Principles of Optics Introduction Wave Optics Lasers Geometric Optics Formation of Point Images Basics of Visual Perception Introduction The Human Visual System Colorimetry Depth Perception Motion Pictures Holographic Principles Introduction Holography: An Executive Summary Interference and Diffraction Holographic Optical Elements (HOE) Optical Holography Display Basics Introduction Fundamental Measures Color and Intensity Production Signal and Image Processing Electronics Assembly Spatial Light Modulation Introduction Transmissive Displays Reflective Displays Transflective Displays Emissive Displays High Dynamic Range Displays Bidirectional Displays Projection Displays Projector-Camera Systems Introduction Challenges of Nonoptimized Surfaces Geometric Registration Radiometric Compensation Correcting Complex Light Modulations Overcoming Technical Limitations Three-Dimensional Displays Introduction Three-Dimensional Displays: Basic Considerations Spatial Stereoscopic Displays Autostereoscopic Displays Light Field Displays Computer-Generated Holograms 3D Media Encoding Near-Eye Displays Introduction Eye Physiology Brightness and Power Consumption Display Technologies for Near-Eye Displays Examples of Near-Eye Displays Optical Design Laser Displays Focus and Accommodation Holographic Image Generation for Near-Eye Displays Optical Combiners Contact Lens Displays Adaptive Displays and Eye Tracking Image Integration Discussion and Outlook Introduction Next Steps in Display Technology A Short Reflection on Displays Brain-Computer Interfaces - The Ultimate Solution? Appendix: Image Processing for Displays