All 2 entries tagged Artificial Sky
No other Warwick Blogs use the tag Artificial Sky on entries | View entries tagged Artificial Sky at Technorati | There are no images tagged Artificial Sky on this blog
November 23, 2011
On Thursday 10th November I popped out for the day to visit The Sky Project at University College Dublin. I had a very long and interesting chat with the Head of the UCD Energy Research Group, Paul Kenny, about his research into capturing and mapping real dynamic sky luminance data.
I was also given a tour of their Artificial Sky; 4m diameter, 6 segment dome comprising 145 diffused luminaires following the Tregenza subdivision of the sky.
Any measured sky condition can be generated but they generally use 16 predefined CIE standard skies with the addition of a sun simulator. The sun is simulated with a theatrical lamp on a track running along the framework of the dome. The 'sun' runs along the track to simulate the solar altitude and the model turns on a heliodon to simulate the solar azimuth. The solar position with respect to the model can be simulated for any time of day/year based on solar time.
October 31, 2011
Writing about web page http://www.slideshare.net/C_White/artificial-sky-visit-ucl
On Thursday 27th October I visited The Bartlett at University College London to see their Artificial Sky. The purpose of the visit was to see the types of facility available and see how it relates to my own project which looks at recreating illumination scenarios to assess the readability of in vehicle displays.
The Bartlett simulates daylight for scale models of buildings to assess the impact of ambient and directional light on lighting design. This is to complement or replace the need for artificial lighting for energy efficiency or to design the lighting within a room for human comfort.
The Bartlett Artificial Sky is very impressive - a 5m diameter geodesic dome comprising 270 diffused luminaires. It take approx. 3hrs to calibrate each luminaire and in each case the solid angle needs to be calculated to work out the area of the sky each is responsible for.
Each luminaire is individually addressable by the control system and each setting is calculated based on the luminance distribution required, the solid angle and the performance of the lamp/luminaire.
Any sky condition can be generated but they generally used predefined CIE standard skies with the addition of a sun simulator.
The sun is simulated by a 50W halogen lamp reflected by a parabolic mirror which collimates the light into parallel beams. The 'sun' is on a rotatable track which can be programmed to create almost any solar position for time of day/year in the northern or southern hemisphere.
The visit has given me an appreciation for the complexity of such systems and the size that would be required to do assessments on full sized vehicles. It has also given me the opportunity to try to embed a document from SlideShare into this blog!