Abstract
Introduction to the concept of dynamic lighting design
The importance of dynamic light to support health and well-being has been more and more recognized [Hansen et al., 2017]. Humans has through many years of evolution adapted to the changing light of the sun, varying through the day, seasons and under various weather conditions, creating a multitude of light settings. Humans live in interaction with this dynamic light and consider it as a natural part of our world [Mathiasen, 2015]. Furthermore, it has by the recent discovery of intrinsically photosensitive retinal ganglion cells in 2002 [Berson et al., 2002] become apparent, that light, beside serving a purpose of enabling visual orientation, also are influencing the internal body clock, affecting sleep-wake cycle, immune responses, appetite, behaviour, mood, alertness and attention - depending on the duration, timing and quality of light [Schlangen, 2014]. But, as humans spend more than 90 % of the time inside a build environment [Klepeis et al., 2001] and the daylight intake in our buildings is not always optimal to meet the needs for dynamic light [Hansen et al., 2017], this research project points to the importance of considering the indoor lighting environment that support health and wellbeing as a total sum of electrical light and daylight in a dynamic interplay.
The importance of dynamic light to support health and well-being has been more and more recognized [Hansen et al., 2017]. Humans has through many years of evolution adapted to the changing light of the sun, varying through the day, seasons and under various weather conditions, creating a multitude of light settings. Humans live in interaction with this dynamic light and consider it as a natural part of our world [Mathiasen, 2015]. Furthermore, it has by the recent discovery of intrinsically photosensitive retinal ganglion cells in 2002 [Berson et al., 2002] become apparent, that light, beside serving a purpose of enabling visual orientation, also are influencing the internal body clock, affecting sleep-wake cycle, immune responses, appetite, behaviour, mood, alertness and attention - depending on the duration, timing and quality of light [Schlangen, 2014]. But, as humans spend more than 90 % of the time inside a build environment [Klepeis et al., 2001] and the daylight intake in our buildings is not always optimal to meet the needs for dynamic light [Hansen et al., 2017], this research project points to the importance of considering the indoor lighting environment that support health and wellbeing as a total sum of electrical light and daylight in a dynamic interplay.
Translated title of the contribution | Dynamisk lysdesign : En tværfaglig undersøgelse og operationalisering af dynamiske lysdesignkriterier, der understøtter sundhed og velvære |
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Original language | English |
Publication date | 3 May 2017 |
Number of pages | 1 |
Publication status | Published - 3 May 2017 |
Event | Velux Daylight Symposium - Cafe Moskau, Berlin, Germany Duration: 3 May 2017 → 4 May 2017 http://www.velux.com/article/2016/daylight-symposium-in-berlin |
Conference
Conference | Velux Daylight Symposium |
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Location | Cafe Moskau |
Country/Territory | Germany |
City | Berlin |
Period | 03/05/2017 → 04/05/2017 |
Internet address |