1 |
Kim, S., Alzoubi, H. and Ihm, P., 2009, Determining photosensor settings for iptimum energy saving of suspended lighting systems in a small double-skinned office, International Journal of Energy Research, Vol. 33, pp. 618-630.
DOI
ScienceOn
|
2 |
Rea, M., 2002, IESNA Handbook 9th editions, The Illuminating Engineering Society of North America, USA.
|
3 |
Kim, S. and Kim, J., 2007, The impact of daylight fluctuation on a daylight dimming control system in a small office, Energy and Buildings, Vol. 39, pp. 935-944.
DOI
ScienceOn
|
4 |
Li_Cor Inc., 2005, Li-Cor sensor instruction manual.
|
5 |
Campbell Scientific Inc. 2000, CR 23X Micro logger operator's manual.
|
6 |
Lutron Ltd., 2002, MW-LC2 Dimming control system mannual.
|
7 |
Neter, J., Kutner, M., Nachtsheim, S., and Wasserman., W., 1996, Applied liner statistical models, WBC McGraw-Hill New York.
|
8 |
Kim, S. and Yum, S., 2005, Optimum contorl of a photoelectric dimming system in a small office with a double skin envelope, Architectural Research, Vol. 7, pp. 47-54.
|
9 |
Lee, E., Selkowitz, S., Bazjanac, V., and Kholer, C., 2002, High performance commercial building facades, LBNL, USA.
|
10 |
Hawkes, D. and Forster, W., 2002, Energy efficient buildings:Architecture-engineering and environment, W. Norton and Company, Inc., New York, USA.
|
11 |
Kim, S. and Mistrick, R., 2001, Recommended daylight conditios for photosensor system calibration in a small office, Journal of IESNA, Vol. 30, pp. 176-188.
|
12 |
Kim, S. and Song, K., 2007, Determining photosensor conditions of a daylighting dimming control system using different double-skin envelope configurations, Indoor and Built Environment, Vol. 16, pp. 411-425.
DOI
ScienceOn
|