LED Lighting : Technology and Perception.

LED Lighting : Technology and Perception.

Promoting the design, application and evaluation of visually and electrically effective LED light sources and luminaires for general indoor lighting as well as outdoor and vehicle lighting, this book combines the knowledge of LED lighting technology with human perceptual aspects for lighting scienti...

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Bibliographic Details
Main Author: Khan, T. Q.
Other Authors: Bodrogi, P., Vinh, Q. T., Winkler, H.
Format: eBook
Language:English
Published: Hoboken : Wiley, 2014.
Subjects:
Light emitting diodes.
Light emitting diodes
Online Access:Click for online access
Table of Contents:
  • Related Titles; Title Page; Copyright; Foreword; Table of the Coauthors; Preface; Chapter 1: Introduction; Reference; Chapter 2: The Human Visual System and Its Modeling for Lighting Engineering; 2.1 Visual System Basics; 2.2 Radiometry and Photometry; 2.3 Colorimetry and Color Science; 2.4 LED Specific Spectral and Colorimetric Quantities; 2.5 Circadian Effect of Electromagnetic Radiation; References; Chapter 3: LED Components
  • Principles of Radiation Generation and Packaging; 3.1 Introduction to LED Technology; 3.2 Basic Knowledge on Color Semiconductor LEDs; 3.3 Color Semiconductor LEDs.
  • 3.4 Phosphor Systems and White Phosphor-Converted LEDs3.5 Green and Red Phosphor-Converted LEDs; References; Chapter 4: Measurement and Modeling of the LED Light Source; 4.1 LED Radiometry, Photometry, and Colorimetry; 4.2 Thermal and Electric Behavior of Color Semiconductor LEDs; 4.3 Thermal and Electric Behavior of White Phosphor-Converted LEDs; 4.4 Consequences for LED Selection Under Real Operation Conditions; 4.8 Measurement Methods to Determine the Thermal Characteristics of LED Devices; 4.9 Thermal and Optical Behavior of Blue LEDs, Silicon Systems, and Phosphor Systems.
  • 4.11 Lifetime Extrapolation4.12 LED Dimming Behavior; References; Chapter 5: Photopic Perceptual Aspects of LED Lighting; 5.1 Introduction to the Different Aspects of Light and Color Quality; 5.2 Color Rendering Indices: CRI, CRI2012; 5.3 Semantic Interpretation of Color Differences and Color Rendering Indices; 5.4 Object Specific Color Rendering Indices of Current White LED Light Sources; 5.5 Color Preference Assessment: Comparisons Between CRI, CRI2012, and CQS; 5.6 Brightness, Chromatic Lightness, and Color Rendering of White LEDs; 5.7 White Point Characteristics of LED Lighting.
  • 5.8 Chromaticity Binning of White LEDs5.9 Visual Experiments (Real Field Tests) on the Color Quality of White LEDs; 5.10 Circadian Stimulus, Color Temperature, and Color Rendering of White LEDs; 5.11 Flicker and Stroboscopic Perception of White LEDs under Photopic Conditions; References; Chapter 6: Mesopic Perceptual Aspects of LED Lighting; 6.1 Foundations and Models of Mesopic Brightness and Visual Performance; 6.2 Mesopic Brightness under LED Based and Conventional Automotive Front Lighting Light Sources; 6.3 Mesopic Visual Performance under LED Lighting Conditions.
  • 6.4 Visual Acuity in the Mesopic Range with Conventional Light Sources and White LEDs6.5 Detection and Conspicuity of Road Markings in the Mesopic Range; 6.6 Glare under Mesopic Conditions; 6.7 Bead String Artifact of PWM Controlled LED Rear Lights at Different Frequencies; 6.8 Summarizing Remarks to Chapter 6; References; Chapter 7: Optimization and Characterization of LED Luminaires for Indoor Lighting; 7.1 Indoor Lighting
  • Application Fields and Requirements; 7.2 Basic Aspects of LED-Indoor Luminaire Design; 7.3 Selection Criteria for LED Components and Units.

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