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Development of Lighting Control System for Smart Hotel Rooms

Volume 13, Number 6, October 2017 - Paper 12  - pp. 913-921
DOI: 10.23940/ijpe.17.06.p12.913921

Jiajia Feng, Yongjie Yang*, Hongming Shen, Zhitian Cai

School of Electronics and Information, Nantong University, Nantong 226019, China

(Submitted on July 25, 2017; Revised on August 30, 2017; Accepted on September 15, 2017)

(This paper was presented at the Third International Symposium on System and Software Reliability.)

Abstract:

In order to realize the scientific management of the light environment and achieve the purpose of saving energy and increasing efficiency for the hotel, this paper designs and implements an intelligent lighting control system for the room, manual control and automatic control of dual management for the room lighting [6]. The system uses the multi-layer distributed structure, combining organically with the embedded technology, Internet of things technology, sensor technology, CAN bus technology and so on, and the embedded ARM microprocessor is the core of the system, combining with the intelligent gateway module, I/O weak current digital input and output module, dimming module, illuminance sensor module and power module, and communicating with each other by the CAN bus, to realize the intelligent management of the room lighting. The Lighting Control System for Smart Hotel Rooms is facing up to the high star hotel, to improve the management level and service quality of the hotel, and save energy, scientific and intelligent management, and enhance the competitiveness for the hotel, it will be an important part of the Smart Hotel System which has a certain application value [14]. As a new and most promising light source, all kinds of lighting have attracted more and more attention for their energy saving, environmental protection and other advantages.

 

References: 20

    1. Apostol, Mihaela Simona. “Hotel Lighting Systems in the Context of Global Energy Crisis - An Approach in Perspective of Sustainable Development.” International Journal of Modern Physics E, vol.20, no.12, pp.84-84, 2012.
    2. Y Guo, Q Wu and H Wang, “Design and Implementation of Intelligent Headlamps Control System Based on CAN bus” International Conference on Systems and Informatics. IEEE, pp. 385-389, 2012.
    3. Na Gu, “Research and Design of Intelligent Lighting Control System Based on CAN bus.” Jiangsu University, 2007.
    4. F Guo and J Y Duan, “Design and Implementation of Intelligent Baby Room Monitoring System Based on the Internet of Things.” Applied Mechanics & Materials, vols. 513-517, pp. 2484-2486, 2014.
    5. Kasahara, Yoshihiro, M. Miki, and M. Yoshimi. "Preliminary Evaluation of the Intelligent Lighting System with Distributed Control Modules." International Conference on Intelligent Systems Design and Applications IEEE, pp.283-288, 2012.
    6. M Li and H J Lin, “Design and Implementation of Smart Home Control Systems Based on Wireless Sensor Networks and Power Line Communications.” IEEE Transactions on Industrial Electronics, vol. 62, no. 7, pp. 4430-4442, 2015.
    7. Y Liang ,etc. “A New TRIAC Dimmable LED Driver Control Method Achieves High-PF and Quality-of-Light. ” Applied Power Electronics Conference, 2012.
    8. K. H Loo, et al. “On the Color Stability of Phosphor-Converted White LEDs under DC, PWM, and Bilevel Drive.” IEEE Transactions on Power Electronics, vol.27, no.2, pp.974-984, 2012.
    9. M Miki, et al. “Construction of Illuminance Distribution Measurement System and Evaluation of Illuminance Convergence in Intelligent Lighting System.” vol.9, no.1, pp.2431-2434, 2010.
    10. Qu, Guoqing, F. Xiong, and J. Li. “Applications and Platform of Technology-driven Financial Innovation and Integration Patterns for LED Industrial Chain of Integrated Business.” 2015 information technology and mechatronics engineering conference, 2015.
    11. Siddiqui, Adeel A., et al. “ZigBee Based Energy Efficient outdoor Lighting Control System.” International Conference on Advanced Communication Technology IEEE, 2012.
    12. G Strazdins, Elsts A, Nesenbergs K and et al, “Wireless Sensor Network Operating System Design Rules Based on Real-World Deployment Survey.” Journal of Sensor & Actuator Networks, vol. 2, no.3, pp. 509-556, 2013.
    13. H Xu and Kim C W, “Design and Implementation of LED Lighting Control System Using Arduino Yun and Cloud in IoT.” vol. 11, no. 10, pp. 983-988, 2016.
    14. T Zhang and K B Jia, “Design and Implementation of IDC Engine Room Intelligent Management and Control System Based on Data Mining” International Conference on Computer Science and Service System, IEEE Computer Society, pp. 1366-1369, 2012.
    15. Junji Zhang, and Yanxia Shen. “New LED Dimming System Based on the MSP430.”Journal of Jiangnan University, 2014.
    16. Q Zheng. “The design and the Implementation of Communication Gateway between CAN Bus and Ethernet.” Advanced Information Technology, Electronic and Automation Control Conference IEEE, pp.862-866, 2016.
    17. J. Zhang, et al. “Primary side Feedforward Control for TRIAC Dimmable Light Emitting Diode Driver with Constant Power.” Iet Power Electronics, vol.6, no.3, pp.572-580, 2013.
    18. Zhang, Ruihong, and S. H. Chung. “A TRIAC-Dimmable LED Lamp Driver with Wide Dimming Range.” IEEE Transactions on Power Electronics, vol. 29, no.3, pp.1434-1446, 2013.
    19. J Zhang, H. Zeng, and T. Jiang. “A Primary-Side Control Scheme for High-Power-Factor LED Driver with TRIAC Dimming Capability.” IEEE Transactions on Power Electronics, vol.27, no.11, pp.4619-4629, 2012.
    20. Q Zhang, Q Qiu and X Chen, “Design and Implementation of A Smart Networking Control System for LED Lighting Based on CAN.” International Journal of Wireless & Mobile Computing, vol. 6, no. 6, pp. 529-534, 2013.

       

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