The goal of this work is to develop a smart light-emitting diode lighting system for industrial and domestic use with several advantages over conventional systems, namely energy saving, high reliability, and visual comfort of interior lighting. This is achieved by integrating a smart control module and a fault diagnosis and prognosis module within a conventional lighting system. The first module controls the lighting level in an energy-efficient way, keeping a desired light level where it is needed while regulating it to a minimum where not required; this is achieved by fully exploiting fuzzy logic and proportional-integrative-derivative controllers. The second module performs fault diagnosis on the light-emitting diode system and predicts when light-emitting diode maintenance should be performed; this is achieved by employing both hardware redundancy and signal-based approaches. Interaction between the two modules permits maintenance of a desired level of light even in the case of failures on one or more light-emitting diodes. The overall system has been experimentally validated in three different scenarios.
A Smart Lighting System for Visual Comfort and Energy Savings in Industrial and Domestic Use
Electric power components and systems ; 43 , 15 ; 1696
2015
Aufsatz (Zeitschrift)
Englisch
A smart LED luminaire for energy savings in pedestrian road lighting
Tema Archiv | 2015
|Energy savings control system for electric infrared comfort heating systems
Tema Archiv | 1976
|Smart lighting sparks significant savings, enhanced work environment for one Canadian firm
Online Contents | 2013
Smart lighting sparks significant savings, enhanced work environment for one Canadian firm
Online Contents | 2012