Content
Number of images - 5
Tables and charts - 3
 Light & Engineering 26 (3)

Light & Engineering 26 (3)

Volume 26
Date of publication 09/28/2018
Pages 37-43

PDF

Development of LED Light Sources in Landscape Lighting. L&E 26 (3) 2018
Articles authors:
Zhiqiao WANG

received his Master Degree from Wuhan University in 2012, and received his bachelor degree from Huazhong University of Science & Technology in 2004. Now, he is working as a lecturer in Yangtze University. His current research interests include digital art design, landscape design and interior design

Abstract
An LED light source, which is extensively used in landscape design, has played a good role in its application due to its characteristics and advantages. On the basis of cost­effectiveness analysis, green lighting energysaving technologies that use LED light sources in landscapes are analyzed, as well as the key factors that affect the cost­effectiveness of various stakeholders. Results show that the costeffectiveness analysis method is effective for evaluating the DSM technology. Moreover, the application of LED light source in landscape lighting has great feasibility. This study provides some theoretical reference for the promotion of green lighting energysaving technology.
References
1. Farahat A, Florea A, Lastra J L M, et al. Energy efficiency considerations for LED­based lighting of multipurpose outdoor environments. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2015. V3, #3, pp.599–608.
2. Leccese F. Remotecontrol system of high efficiency and intelligent street lighting using a ZigBee network of devices and sensors. IEEE transactions on power delivery, 2013. V28, #1, pp.21–28.
3. Xu, X., Xie, L., Li, H., & Qin, L. Learning the route choice behaviour of subway passengers from AFC data. Expert Systems with Applications, 2018. #95, pp. 324–332.
4. Basker D K, Cortes O A H, Brook M A, et al. 3D Nonlinear Inscription of Complex Microcomponents (3D NSCRIPT): Printing Functional Dielectric and Metallodielectric Polymer Structures with Nonlinear Waves of Blue LED Light. Advanced Materials Technologies, 2017. V2, #5, p.1600236.
5. Haiying Li, Xian Li, Xinyue Xu, Jun Liu, Bin Ran. Modeling departure time choice of metro passengers with a smart corrected mixed logit model – A case study in Beijing. Transport Policy. 2018, #69, pp.106–121.
6. Pimputkar S, Speck J S, DenBaars S P, et al. Prospects for LED lighting. Nature photonics, 2009. V3, #4, p. 180.
7. De Rossi F, Pontecorvo T, Brown T M. Characterization of photovoltaic devices for indoor light harvesting and customization of flexible dye solar cells to deliver superior efficiency under artificial lighting. Applied Energy, 2015. V156, pp.413–422.
8. Wang L, Wang X, Kohsei T, et al. Highly efficient narrowband green and red phosphors enabling wider colorgamut LED backlight for more brilliant displays. Optics Express, 2015. V23, #22, pp.28707–28717.
Keywords
Recommended articles