Real Time Home Automation System using WSN with Power Optimization

Ushaa Eswaran*, R.Rajith**
* Principal, SMK Fomra Institute of Technology, Chennai, Tamilnadu, India.
** Assistant Professor, SMK Fomra Institute of Technology, Chennai, Tamilnadu, India.
Periodicity:May - July'2016
DOI : https://doi.org/10.26634/jic.4.3.7062

Abstract

The uniqueness of this system is the execution of controlling mechanism of the equipment in an altered way. The hardware based system is used to monitor and control the system for household appliances has been designed in this paper. The appropriate control mechanism is implemented by the reliable action of TRAIC with OPTO-isolated drivers. Here, the loads are connected in parallel to share the power. The system also has the ability to monitor the tamper action by having essential voltage and current sensor. The load trips if any of the above action is sensed. The recycling time will monitor the load and terminate the unwanted load from sharing. This design is a human-friendly technical solution for tracking and controlling the household appliances.

Keywords

Home Automation, Wireless Sensor Network, TRIAC with OPTO-Isolator, Tamper Action.

How to Cite this Article?

Eswaran, U., and Rajith, R. (2016). Real Time Home Automation System using WSN with Power Optimization. i-manager’s Journal on Instrumentation and Control Engineering, 4(3), 7-12. https://doi.org/10.26634/jic.4.3.7062

References

[1]. Nagender Kumar Suryadevara, Subhas Chandra Mukhopadhyay, Sean Dieter Tebje Kelly, and Satinder Pal Singh Gill, (2014). “WSN-Based Smart Sensors and Actuator for Power Management in Intelligent Buildings”. IEEE/ASME Transactions on Mechatronics, Vol. 20, No. 2, pp. 564-571.
[2]. N. Sriskanthan, F. Tan and A. Karande, (2002). “Bluetooth Based Home Automation System”. Journal of Microprocessors and Microsystems, Vol. 26, No. 6, pp. 281-289.
[3]. Masahiro Inoue, Toshiyasu Higuma, Yoshiaki Ito, Noriyuki Kushiro,and Hitoshi Kubota, (2003). “Network Architecture for Home Energy Management System”. IEEE Transactions on Consumer Electronics, Vol. 49, No. 3, pp. 606-613.
[4]. J. Misic and V. B. Misic, (2010). “Bridge Performance in a Multitier Wireless Network for Healthcare Monitoring”. IEEE Wireless Communications, Vol. 17, No. 1, pp. 90-95.
[5]. M. Erol-Kantarci and H. T. Mouftah, (2011). “Wireless Sensor Networks for Cost Efficient Residential Energy Management in the Smart Grid”. IEEE Transactions on Smart Grid, Vol. 2, No. 2, pp. 314-325.
[6]. PR Newswire, (2012). ZigBee Alliance Examining Japan's New Smart Home Recommendations (accessed on 8 Aug., 2012). Retrieved from: http://www.prnews wire.com/news-releases/zigbee-alliance-forms-groupexamining- japans-new-smart-home-recommendations- 164569436.html
[7]. Ahmad Faruqui and Doug Mitarotonda, (2011). “The Costs and Benefits of Smart Meters for Residential Customers”. IEEE White Paper
[8]. L. Li, H. Xiaoguang, H. Jian, and H. Ketai, (2011). “Design of New architecture of AMR System in Smart Grid”. In Proceedings of IEEE Conference on Industrial Electronics Applications, pp. 2025-2029.
[9]. E. Andrey and J. Morelli, (2010). “Design of a Smart Meter Techno-economic Model for Electric Utilities in Ontario”. In Proceedings of IEEE- Electric Power Energy Conference, pp. 1–7.
[10]. D. Man Han and J. Hyun Lim, (2010). “Smart Home Energy Management System using IEEE 802.15.4 and Zigbee”. IEEE Transactions on Consumer Electronics, Vol. 56, No. 3, pp. 1403–1410.
[11]. V. N. Kamat, (2011). “Enabling an Electrical Revolution using Smart Apparent Energy Meters & Tariffs”. In Proceedings of Annual IEEE India Conference, pp. 1–4.
[12]. F. Benzi, N. Anglani, E. Bassi, and L. Frosini, (2011). “Electricity Smart Meters Interfacing the Households”. IEEE Transactions on Industrial Electronics, Vol. 58, No. 10, pp. 4487-4494.
[13]. I. Kunold, M. Kuller, J. Bauer, and N. Karaoglan, (2011). “A System Concept of an Energy Information System in Flats using Wireless Technologies and Smart th Metering Devices”. In Proceedings of IEEE 6 International Conference on Intelligent Data Acquisition Advanced Computer Systems, pp. 812-816.
[14]. Philips Semiconductors. Triacs-BT 138 Series, (accessed on 8 Jan. 2012). [Online]. Retrieved from http://docs-asia.electrocomponents.com/webdocs /0b4b/0900766b80b4bf38.pdf
[15]. J. Han, C. S. Choi, and I. Lee, (2011). “More Efficient Home Energy Management System based on Zigbee Communication and Infrared Remote Controls”. IEEE Transactions on Consumer Electronics, Vol. 57, No. 1, pp. 85-89.
[16]. K. Gill, S. H. Yang, F. Yao, and X. Lu, (2009). “A ZigBeebased Home Automation System”. IEEE Transactions on Consumer Electronics, Vol. 55, No. 2, pp. 422-430.
[17]. M. S. Pan, L. W. Yeh, Y. A. Chen, Y. H. Lin, and Y. C. Tseng, (2008). “A WSN based Intelligent Light Control System Considering user Activities and Profiles”. IEEE Sensors Journal, Vol. 8, No. 10, pp. 1710-1721.
[18]. G. Song, Z. Wei, W. Zhang, and A. Song, (2007). “A Hybrid Sensor Network System for Home Monitoring Applications”. IEEE Transactions on Consumer Electronics, Vol. 53, No. 4, pp. 1434-1439.
[19]. C. Suh and Y. B. Ko, (2008). “Design and Implementation of Intelligent Home Control Systems based on Active Sensor Networks”. IEEE Transactions on Consumer Electronics, Vol. 54, No. 3, pp. 1177–1184.
If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Single Article

North Americas,UK,
Middle East,Europe
India Rest of world
USD EUR INR USD-ROW
Online 15 15

Options for accessing this content:
  • If you would like institutional access to this content, please recommend the title to your librarian.
    Library Recommendation Form
  • If you already have i-manager's user account: Login above and proceed to purchase the article.
  • New Users: Please register, then proceed to purchase the article.