A Market Research on Current Energy Metering System and Future Opportunities

Author(s)

R.Govindarajan , S.Meikandasivam , D.Vijayakumar ,

Download Full PDF Pages: 66-73 | Views: 665 | Downloads: 212 | DOI: 10.5281/zenodo.4922350

Volume 9 - March 2020 (03)

Abstract

Energy meter is an important device that is used to measure power. It is almost used everywhere like houses, industries, factories etc., to know about their power consumption. Over a decade many modifications and developments has been taken place in the construction and operation of the energy meters. From the above, this paper presents the development of various energy meters and their applications. Different types of energy meters along with the innovation in this field are being discussed in this paper.

Keywords

Energy meters, power consumption, digital electronic energy meters. 

References

                    i.            M. Simonov, G. Chicco, G. Zanetto “Event-Driven Energy Metering: Principles and Applications”, IEEE Tran. on Industry Applications, Vol. 53, No. 4, 2017, pp. 3217-3227.

      ii.            A.S. Morris, R. Langari, “Measurement and Instrumentation: Theory and Application”, Elsevier.

    iii.            R. B. Northrop, “Introduction to Instrumentation and Measurements” CRC press.

     iv.            D. Femine, D. Gallo, C. Landi, M. Luiso, “Advanced Instrument For Field Calibration of Electrical Energy Meters”, IEEE Trans. on Instrumentation and Measurement, 2009, Vol. 58, pp. 618-625.

       v.            B. M. S. Ali, “Smart Grids: Opportunities, Developments, and Trends”, Springer Science & Business Media, 2013.

     vi.            The development of the induction-type energy meter, C. Adamson Students' Quarterly Journal, 1952, Vol. 22, pp. 163-168.

   vii.            F. Adamo, F. Attivissimo, G. Cavone, A. Di Nisio, M. Spadavecchia, “Channel Characterization of an Open Source Energy Meter”, IEEE Trans. on Instrumentation and Measurement, 2014, Vol. 63, pp. 1106-1115.

 viii.            M.G. Lee, Y.K. Park, K.K. Jung, J.J. Yoo, “Design of smart energy monitoring system for green IT life”, International Journal of Computer and Information Engineering, June, 2012.

     ix.            Liu Yanfei, Wang Cheng, Qiao Xiaojun, Zhang Yunhe, Yu chengbo,"An Improved Design of ZigBee Wireless Sensor Network", IEEE proceedings of ICCST, 2009.

       x.            Yang Li, Ji Maorong, Gao Zhenru, Zhang Weiping, Guo Tao, "Design of Home Automation System Based on ZigBee Wireless Sensor Network", Proceedings of ICISE, 2009.

     xi.            G. Song, F. Ding, W. Zhang, and A. Song, “A wireless power outlet system for smart homes,” IEEE Transactions on Consumer Electronics, vol. 54, no. 4, pp. 1688-1691, November 2008.

   xii.            Vaishnavi S Gunje, Pratibha S Yalagi “ Smart Home Automation: A Literature Review” International Journal of Computer Application, 2016.

 xiii.            Neha Malik, Yogita Bodwade (2017) “Literature Review on Home Automation System” International Journal of Advanced Research in Computer and Communication Engineering, Vol. 6, Issue 3, pp.733-737, 2017.

 xiv.            G. Ciuciu, R. Meersman, T. Dillon, “Social Network of Smart Metered Homes and SMEs for Grid-based Renewable Energy Exchange”, IEEE International Conference on Digital Ecosystems and Technologies, pp.1-6, 2012.

   xv.            L. Labib, M. Billah, G. M. Rana, N. Sadat, G. Kibria, R. Islam, “Design and implementation of low-cost universal smart energy meter with demand side load management”, IET Generation, Transmission & Distribution, Vol. 11, No. 16, 2017, pp. 3938-3945.

 xvi.            S. Jaiswal, M. S. Ballal, “FDST-based PQ event detection and energy metering implementation on FPGA-in-the-loop and NI-LabVIEW”, IET Science, Measurement & Technology, Vol. 11, 2017, pp. 453-463.

Cite this Article: