Implementation of a Wireless Sensor Network for Electric Light Bulb Management Using IPv6
DOI:
https://doi.org/10.29019/enfoque.v10n4.553Keywords:
Domotics, WSN, 6LoWPAN, TinyOS, IEEE 802 15.4.5Abstract
In this study the results of the implementation of the wireless sensor network prototype, to manage the luminaires in homes are presented, using Iris sensors nodes, designed to work with battery for long periods of time and with limited processing capabilities. The nodes use 6LoWPAN addresses. The address conversion to IPv6 is done by a gateway. The luminaires are managed using devices connected to IPv6 network, with Android operating system. The correct functioning of the prototype is demonstrated by validating the functionalities of the management system implemented.
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Ardiansyah, E.; Seungkyo, O., y Fahmi, A. (2013). Battery-Less 6LoWPAN-Based Wireless Home Automation by Use of Energy Harvesting. International Journal of Distributed Sensor Networks.
Domínguez, F.; Touhafi, A., y Tiete, J. (2012). Coexistence with WiFi for a Home Automation ZigBee Product. 19th Symposium on Communications and Vehicular Technology in the Benelux (SCVT), 1-6. Eindhoven: IEEE.
Han, N.; Wu, Y, y Tang, Y. (2010). Research of KNX Device Node and Development Based on the Bus Interface Module. 29th Chinese Control Conference (CCC), 4346-4350.
Hoang, D. y Sindhu, S. (2016). A Wireless Sensor and Actuator Network (WSAN) Framework for Personalized Thermal Comfort in Office Buildings. International Conference on Sustainable Energy Technologies. Vietnam: IEEE.
Huang, L.; Xiao, L.; Liu, J., et al. (2016). LED Intelligent Lighting System Based on 6LoWPAN. International Conference on Computer Science & Education. Nagoya: IEEE.
Huang, Z. y Yuan, F. (2015). Implementation of 6LoWPAN and Its Application in Smart Lighting. Journal of Computer and Communications, 3, 80-85.
IEEE. (2011). Part 15.4: Low-Rate Wireless Personal Area. New York: IEEE Computer Society.
MEMSIC. (2010). Powerful Sensing Solutions. MEMSIC. Recuperado de http://www.memsic.com/userfiles/files/datasheets/wsn/6020-0091-04_a_mib520cb-t.pdf
MEMSIC. (2012). Document Part Number: 6020-0124-01 Rev A. MEMSIC. Recuperado de www.mensic.com: http://www.memsic.com/userfiles/files/Datasheets/WSN/ IRIS_ Datasheet.pdf
Park, T., y Hong, S. (2010). A New Proposal of Network Management System for BACnet and Its Reference Model. 8th IEEE International Conference on Industrial Informatics (INDIN), 28-33. Osaka: IEEE.
Perandones, M. (2014). Energy-saving Smart Street Lighting System based on 6LoWPAN. Proceedings of the First International Conference on IoT in Urban Space, 93-95
Rand, P. (2018). Wireless Lighting Control: The Bright Road Ahead. , Strategic marketing. Recuperado de https://m.eet.com/media/1118195/ ti%20paper.pdf
Sicos K.. (2013). MSGReader. GitHub. Obtenido de https://github.com/ Sicos1977/ MSGReader
Sikder, A.; Acar, A., y Aksu, H. (2018). IoT-enabled Smart Lighting Systems for Smart Cities. 8th Annual Computing and Communication Workshop and Conference. Las Vegas: IEEE.
Singh, M. (2016). Wireless Sensor Networks: A Survey. Journal of Scientific & Engineering Research, 7(4), 710-716.
Sohraby, K.; Minoli, D., y Znati, T. (2007). Wireless Sensor Networks, Technology, Protocols, and Applications. New Jersey, Estados Unidos: John Wiley & Sons.
Son, H. y Quyet, C. (2015). Design, Implementation, and Evaluation of 6LoWPAN for Home and Building Automation in the Internet of Things. 12th ACS/IEEE International Conference on Computer Systems and Applications. Morocco: IEEE.
TinyOS. (2009). BaseStation. GitHub. Recuperado el de github: https://github.com/tinyos/tinyos-main/tree/master/apps/BaseStation
TinyOS. (2010).Mote PC serial communication and SerialForwarder. TinyOs-Stanford http://tinyos.stanford.edu. Recuperado el de http://tinyos.stanford.edu/tinyos-wiki/index.php/Mote_PC_serial_communication_and_SerialForwarder_(TOS_2.1.1_and_later
Wohlers, I.; Andonov, R., y Gunnar, K. (2013). DALIX: Optimal DALI Protein Structure Alignment. IEEE/ACM Transactions on Computational Biology and Bioinformatics, 10(1), 26-36.
Zhang, Q. y Li, P. (2017). Design and Implementation of an Intelligent Street Lamp Network Node Based on 6LoWPAN Technology. International Conference on Computer, Electronics and Communication Engineering. Sanya: IEEE.
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Published
2019-12-02
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Computer Science, ICTs
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How to Cite
Implementation of a Wireless Sensor Network for Electric Light Bulb Management Using IPv6. (2019). Enfoque UTE, 10(4), pp. 45 - 56. https://doi.org/10.29019/enfoque.v10n4.553
