Visual and non-visual effects of light: working environment and well-being [First edition] 2020023962, 9780367444198, 9780367529529, 9781003027249, 0367444194, 0367529521

The introduction of artificial lighting extends the time of wakefulness after dark and enables work at night, thus distu

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Visual and non-visual effects of light: working environment and well-being [First edition]
 2020023962, 9780367444198, 9780367529529, 9781003027249, 0367444194, 0367529521

Table of contents :
Cover......Page 1
Half Title......Page 2
Series Page......Page 3
Title Page......Page 4
Copyright Page......Page 5
Table of Contents......Page 6
Preface......Page 12
Acknowledgments......Page 14
Authors......Page 16
Series Editor......Page 18
1.2 Visual and Non-Visual Response to Light......Page 20
1.4 LED Lighting and Potential Health Hazard......Page 22
1.5 New Idea of Lighting Design – Human-Centric Lighting (HCL)......Page 23
1.6 What Is This Book About?......Page 24
2.1 Optics of the Eye – From the Pupil to the Retina......Page 26
2.2 Photoreceptors......Page 28
2.3.1 Synaptic Connections – Photoreceptor Cells – Bipolar Cells......Page 30
2.3.2 Synaptic Connections – Bipolar Cells – Horizontal Cells (Ribbon Synapse)......Page 31
2.3.4 Synaptic Connections – The Cone Synapse......Page 32
2.3.6 Synaptic Connections – From Rods and Cones to Ganglion Cells......Page 33
2.4 Calculation of Color at the Level of Ganglion Cells......Page 35
2.5 Higher Visual Processing......Page 36
2.6 The Role of Purinergic Signaling in the Retina......Page 38
2.8 Summary......Page 39
3.2 The Discovery, Function, and Diversity of Intrinsically Photosensitive Retinal Ganglion Cells (ipRGCs); Some Interactions with the Conventional Photoreceptors......Page 42
3.3 Brain Regions Innervated by ipRGCs......Page 44
3.4 Phototransduction by ipRGCs, Physiological Role of Melanopsin, Clinical Implications of Melanopsin Pathways......Page 46
3.5 The Neurobiology of Circadian Rhythms – Do We Need Light?......Page 48
3.6 The Alerting Effects of Light......Page 51
3.7 Summary......Page 52
4.1.2 Lighting Quality......Page 54
4.1.3.1 International/European Lighting Standards......Page 56
4.1.3.2 Standard for Building Design......Page 57
4.2 Lighting Intensity......Page 58
4.3.1 Luminance Distribution......Page 62
4.3.2 Discomfort Glare at Indoor Workplaces......Page 63
4.4 Color Aspects......Page 67
4.4.1 Correlated Color Temperature (CCT) and Illuminance Level......Page 68
4.4.2 Color Perception......Page 70
4.6 Summary......Page 71
5.2.1 The Weber Fraction......Page 72
5.3.1 Contrast Sensitivity Function......Page 74
5.3.2 Contrast Sensitivity and Suprathreshold Visibility......Page 76
5.4 Visual Acuity......Page 78
5.5 Relative Visual Performance (RVP)......Page 79
5.6 The Lateral Inhibition Phenomenon......Page 80
5.7 Flicker and Stroboscopic Effect as a Hazardous Problem of Performance......Page 82
5.7.1 Critical Fusion Frequency......Page 84
5.8.1 Artificial Light Sources......Page 85
5.8.3 Color Rendering Index Ra......Page 86
5.8.4 Color Fidelity Index Rf and Color Gamut Rg......Page 87
5.9 Light Sources and Their Impact on Well-Being and Visual Performance......Page 89
5.9.1 Classification of Solid-State Light Sources......Page 90
5.9.2.1 LED Advantages......Page 91
5.9.2.2 LED Disadvantages......Page 93
5.10 Summary......Page 94
6.2 α-Opic Metrics......Page 96
6.3 Circadian Light and Circadian Stimulus......Page 100
6.4 Equivalent Melanopic Lux......Page 105
6.5 Circadian Action Factor......Page 107
6.7 Universal Illuminance......Page 108
6.9 Circadian Potency......Page 110
6.10 Effective Watts and Melanopic-Photopic Ratios......Page 111
6.11 Summary......Page 113
7.1 Living in Biological Darkness......Page 114
7.3 Dynamic Lighting......Page 115
7.3.1 Daylight Oriented – Horizontal Illuminance Controlled......Page 116
7.3.2 Supporting Occupants’ Activity – Horizontal Illuminance Controlled......Page 117
7.3.3 Diurnal Synchronization – Vertical (at the Eye) Illuminance Controlled......Page 121
7.4 Lighting Design with Circadian Metrics......Page 124
7.4.1 Circadian Stimulus (CLA Model) in Lighting Design......Page 125
7.4.1.1 Examples of Dynamic Lighting Schedules......Page 126
7.4.2 Equivalent Melanopic Lux in Lighting Design......Page 128
7.4.3 Comparison of CS and EML......Page 129
7.5 Summary......Page 132
8.1.1 Shift Work Tolerance......Page 134
8.1.2 Shift Work Disorder......Page 136
8.2.1 Dealing with Conflicting Visual and Non-Visual Needs......Page 138
8.2.2.1 Short-Term (Rotating) Night Shift Work......Page 139
8.2.2.2 Rotating “Swing Shift” Night Work......Page 142
8.2.2.3 Long-Term (Permanent) Night Shift Work......Page 144
8.2.2.4 Circadian Stimulus in Designing Lighting for Shift Work......Page 145
8.2.3.2 Localized Luminaire......Page 146
8.2.3.3 General Lighting......Page 156
8.3 Summary......Page 158
9.1 The Philosophy of Human-Centric Lighting......Page 160
9.2 General Guidelines......Page 161
9.3.2 Principles Beyond the Standard Lighting Codes......Page 162
9.4.1 Circadian Lighting Guidelines......Page 163
9.4.2 Cognitive and Creative Performance vs Some Lighting Aspects......Page 164
9.5 Importance of Room Surface Reflectance and Color......Page 165
9.6.1 CCT vs Spectral Power Distribution (SPD)......Page 166
9.6.2 Cautious Exposure to Blue Light......Page 168
9.6.3 Circadian Lighting and Glare......Page 169
9.7 Estimated Benefits of Circadian Lighting for Employers......Page 170
9.8 Summary......Page 171
10.2.1 Flicker Assessment......Page 172
10.2.2 Stroboscopic Effect Assessment......Page 174
10.3 Spatial Distribution of Luminance in the Field of View (Luminance Map)......Page 176
10.4 Glare Assessment......Page 178
10.4.2 Simulation Assessment of Glare......Page 179
10.4.3 Objective Assessment of Glare at Indoor Workplaces......Page 180
10.4.4 Uncertainty of UGR Determination......Page 181
10.4.5 UGR Determination – the Problem of the Angular Size of Glare Sources......Page 182
10.5.1 Spectroradiometric Method......Page 183
10.5.2 Radiometric/Dosimetric Method......Page 184
10.6.1 Basic Assessment Methods......Page 186
10.6.2 Brain Activity Recognition: EEG and fMRI......Page 187
10.6.3 Light Impact on Alertness......Page 188
10.6.4 Signals from Which Electrodes Should Be Considered in the Alertness Assessment......Page 189
10.7 Summary......Page 190
References......Page 194
Index......Page 216

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Effects of Architectural and Urban Design Project Competitions on Built Environment and New Discourses Brought Thereby
Effects of Architectural and Urban Design Project Competitions on Built Environment and New Discourses Brought Thereby

Competition system is considered to be the most objective project selection method in a country’s architectural and urbanism organization and is a mechanism which promotes professional creativity. Both national and international competitions have a significant potential in terms of providing knowledge and accumulation to contemporary architecture history. It is stated by the studies conducted on design competitions that while competitions contribute to the architecture environment of the country where they are held, they also provide opportunity for monitoring the architecture and accordingly changing discourse of the environment. The aim of competitions is to obtain "the best project" for a building or building group or a specific area, designs of which are predetermined. Furthermore, it has been stated that competitions are one of the methods to obtain qualified buildings and environments in Turkey, there are problems in their being sufficiently developing, leading and raising awareness. The reasons why there are still a few qualified buildings (besides exceptions) have been stressed. Recommendations as to institutions organizing design competitions, creation of specifications for design competitions and establishment of jury in design competitions have been offered for eliminating issues in design competitions. JOURNAL OF CONTEMPORARY URBAN AFFAIRS (2019), 3(1), 109-120. https://doi.org/10.25034/ijcua.2018.4688

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