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Preface; Acknowledgements; Contents; Abbreviations; 1 The Challenge of Effective Daylighting; 1.1 Introduction; 1.2 Effective Daylighting as a Central Driver for Low-Energy, Low-Carbon Buildings; 1.3 Fenestration Design Impacts on Electric Load Shape and Demand Response; 1.4 Daylighting Impacts on Human Health, Well-Being and Performance; 1.5 Design for the Next Century; 1.6 Challenges of Time and Scale; 1.7 Defining Effective Daylighting; 1.8 An Agenda for Effective Daylighting; 1.8.1 From Compliance-Based to Performance-Based Design
1.8.2 From Static and Unresponsive to Context-Aware and Adaptive Systems1.8.3 From Theory to Feedback, Validation and Learning; References; 2 The Role of Metrics in Performance-Based Design; 2.1 Introduction; 2.2 Optimizing Energy in High-Performance Daylit Buildings; 2.2.1 From Daylight "Harvesting" to Daylight Autonomous Buildings; 2.3 From Static to Dynamic, Climate-Based Daylighting Metrics; 2.3.1 Climate-Based Daylighting Performance Metrics; 2.3.2 Limitations and Future Directions of Climate-Based Daylight Modeling; 2.4 Non-visual Effects of Light
2.4.1 Daylighting for Circadian Entrainment2.4.2 Field-Based Measurement Practices; 2.4.3 Developing Circadian Daylight Metrics and Performance Criteria; 2.4.4 Limitations and Future Directions of Circadian Daylighting; 2.5 Visual Comfort; 2.5.1 Glare; 2.5.2 Daylight Glare Metrics; 2.5.3 Application of Glare Metrics Using HDR Images; 2.5.4 Dynamic Glare Evaluation; 2.5.5 Frequency and Magnitude of Glare; 2.5.6 View-Direction Dependent Glare Evaluation; 2.5.7 Limitations and Future Directions of Visual Comfort Evaluation; 2.6 Visual Connection to the Outdoors
2.6.1 Window Size and Aperture Configuration2.6.2 Distance of Occupants from Windows; 2.6.3 Provision of Multiple Views; 2.6.4 View Content; 2.6.5 Visual Transparency and Openness Factor; 2.6.6 Visual Clarity; 2.6.7 Limitations and Future Directions Related to View; 2.7 Solar Control and Thermal Comfort; 2.7.1 Limitations and Future Directions of Solar/Thermal Comfort Evaluation; 2.8 Conclusions; References; 3 Innovative Daylighting Systems; 3.1 Introduction; 3.2 From Simple to Complex Fenestration Systems; 3.2.1 Optical Light Redirecting Systems (OLS); 3.2.1.1 Reflective OLS
3.2.1.2 Optically Refractive Films and Coatings3.2.2 Angular Selective Glazing Systems; 3.2.3 Ceramic Frits; 3.2.4 Building Integrated Photovoltaics (BIPV); 3.3 From Static to Dynamic Systems; 3.3.1 Granular Design; 3.3.2 Dynamic "Smart" Glazings; 3.3.3 Dynamic Light Redirecting Systems; 3.4 From Integrated to Interconnected Systems: Internet-of-Things-Enabled Perimeter Systems; 3.5 From Closed-Loop to Human-in-the-Loop Systems: Incorporating Human Factors Models and Feedback From Real Buildings in Use
1.8.2 From Static and Unresponsive to Context-Aware and Adaptive Systems1.8.3 From Theory to Feedback, Validation and Learning; References; 2 The Role of Metrics in Performance-Based Design; 2.1 Introduction; 2.2 Optimizing Energy in High-Performance Daylit Buildings; 2.2.1 From Daylight "Harvesting" to Daylight Autonomous Buildings; 2.3 From Static to Dynamic, Climate-Based Daylighting Metrics; 2.3.1 Climate-Based Daylighting Performance Metrics; 2.3.2 Limitations and Future Directions of Climate-Based Daylight Modeling; 2.4 Non-visual Effects of Light
2.4.1 Daylighting for Circadian Entrainment2.4.2 Field-Based Measurement Practices; 2.4.3 Developing Circadian Daylight Metrics and Performance Criteria; 2.4.4 Limitations and Future Directions of Circadian Daylighting; 2.5 Visual Comfort; 2.5.1 Glare; 2.5.2 Daylight Glare Metrics; 2.5.3 Application of Glare Metrics Using HDR Images; 2.5.4 Dynamic Glare Evaluation; 2.5.5 Frequency and Magnitude of Glare; 2.5.6 View-Direction Dependent Glare Evaluation; 2.5.7 Limitations and Future Directions of Visual Comfort Evaluation; 2.6 Visual Connection to the Outdoors
2.6.1 Window Size and Aperture Configuration2.6.2 Distance of Occupants from Windows; 2.6.3 Provision of Multiple Views; 2.6.4 View Content; 2.6.5 Visual Transparency and Openness Factor; 2.6.6 Visual Clarity; 2.6.7 Limitations and Future Directions Related to View; 2.7 Solar Control and Thermal Comfort; 2.7.1 Limitations and Future Directions of Solar/Thermal Comfort Evaluation; 2.8 Conclusions; References; 3 Innovative Daylighting Systems; 3.1 Introduction; 3.2 From Simple to Complex Fenestration Systems; 3.2.1 Optical Light Redirecting Systems (OLS); 3.2.1.1 Reflective OLS
3.2.1.2 Optically Refractive Films and Coatings3.2.2 Angular Selective Glazing Systems; 3.2.3 Ceramic Frits; 3.2.4 Building Integrated Photovoltaics (BIPV); 3.3 From Static to Dynamic Systems; 3.3.1 Granular Design; 3.3.2 Dynamic "Smart" Glazings; 3.3.3 Dynamic Light Redirecting Systems; 3.4 From Integrated to Interconnected Systems: Internet-of-Things-Enabled Perimeter Systems; 3.5 From Closed-Loop to Human-in-the-Loop Systems: Incorporating Human Factors Models and Feedback From Real Buildings in Use