NeidaB.V., ManicciaD., and TweedA., An analysis of the energy and cost savings potential of occupancy sensors for commercial lighting systems. Journal of Illuminating Engineering Society, 2001. 30(2): p. 111–122.
2.
RichmanE.E., DittmerA.L., and KellerJ.M., Field analysisof occupancy sensor operation: parameters affecting lighting energy savings. Journal of the Illuminating Engineering Society, 1996. 25(1): p. 83–92.
3.
GuoX., TillerD. K., HenzeG.P., WaltersC.E., Analytical methods for application to sensor networks for lighting control. LEUKOS - Journal of Illuminating Engineering Society of North America, 2009. 5(4): p. 297–311.
4.
GalasiuA.D. and NewshamG.R.Energy Savings due to Occupancy Sensors and Personal Controls: A Pilot Field Study, in Lux Europa 2009, 11th European Lighting Conference. 2009. Istanbul, Turkey.
5.
U.S. Department of Energy, Energy savings for occupancy based control (OBC) of variable air volume (VAV) Systems, 2013, Pacific Northwest National Laboratory: Richland, WA.
ManicciaD., ., The Effects of Changing Occupancy Sensor Timeout Setting on Energy Savings, Lamp Cycling and Maintenance Costs. Journal of Illuminating Engineering Society, 2001. 30(2): p. 97–110.
