Abstract
At present, secondary distribution network is controlled manually in most of the places. The limitation of the system is that there is no feedback on the operation. Maintenance staff has to physically check the correct operation. The system has an isolator / changeover switch at the incomer end and a contactor for switching the power. There are no protections against overloads and short circuit faults. There is no metering facility in the system and the revenue calculations are done manually. In this paper a control system is designed for remote operation of LV feeders for continuous monitoring and load shedding with GSM interface with central control station SCADA with two way communication using SMS messages. In this paper a prototype model is developed by integrating SCADA control with GSM technology using the logic Twidosoft v.3 for continuous monitoring and obtaining parameters from the field and remote control of LV feeders. The proposed scheme is intended to give better and more control options, performance, safety to equipment & people and help in reducing downtime by way of suggesting preventive maintenance automatically by the system. Offered system includes the metering functions, so that the meter readings can be downloaded from remote Central Control Station using the same GSM Modem and GSM Network. Automatic re-switching by remote control to enable supplies to be restored quickly to all consumers is a current feature of this scheme. In this project various hardware equipments are configured using IFIX software. Many screens are created for sending and receiving reports. A program is written in MATLAB Editor for determining the channel capacity of GSM network and then the optimum message transfer rate is calculated for this type of application. The scheme has been successfully tested and the analytical discussions and results are presented for the same.
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References
Zheng, R., Hou, J.C., Sha, L.: Performance Analysis of Power Management Policies in Wireless Networks. IEEE Transactions on Wireless Communications 5(6) (June 2006)
Tynan, R., Marsh, D., o’Kane, D., O’ Hare, G.M.P.: Agents for Wireless Sensor Network Power Managemen. In: IEEE International Conference on Parallel Processing Workshop (2005)
Tomsovic, K., Bakken, D.E., Venkatasubramanian, V., Bose, A.: Designing the Next Generation of Real-Time Control, Communication, and Computations for Large Power Systems. Proceedings of the IEEE 93, 965–979 (2005)
Bill, J.C.W., Mishra, R., Rastogi, N., Zhu, D., Mosse, D., Melhem, R.: Energy Aware Scheduling for Distributed Real Time Systems. In: IEEE Symposium (2003)
Aggelou, G.N., Tafazolli, R.: On The Relaying Capability of Next -Generation GSM Cellular Network. IEEE Personal Communication, 40–47 (February 2003)
Yumiba, H., Yamamoto, K., Yabusaki, M.: The Design Policy for a GSM-based IMT-2000 network. IEEE Wireless communications, 7–14 (February 2003)
Li, H.Y., Crossly, P.A.: Optimum Message Transfer Rate for Distribution Feeder Protection Operating Over Switched Telephone Network. IEEE Transactions on Power Delivery 17(2), 353–358 (2002)
Cooper, D., Jeans, T.: Narrow band, Low Data Rate Communications on TheLow Voltage Mains in the CENELE Frequencies –Noise and Attenuation. IEEE Transactions on Powere Delivery 17(3), 724–729 (2002)
Aggélou, G.N., Tafazolli, R.: On the Relaying Capability of Next-Generation GSM Cellular Networks. IEEE Personal Communications, 40–47 (February 2001)
Takahashi, E.S.C.: Application Aware Scheduling for power Management, pp. 247–253. IEEE Press, Los Alamitos (2000)
Dey, S., Raghunathan, A., Jha, N.K., Wakabyashi, K.: Controller Based Power Management for Control Flow Intensive designs. IEEE Transactions on computer aided design of integrated circuits and system 18(10), 1496–1508 (1999)
Bruce, A.G.: Reliability analysis of electric utility SCADA Systems. IEEE Transactions on Power Systems 13(3), 844–849 (1998)
Reyrolle, P.V.: Integration and other developments in distribution protection: an eskom perspective. In: Developments in Power System Protection, March 25-27, pp. 256–260 (1997); UK Conference Publication No. 434
Neorpel, A.,R., Lukander, P., Chang, L.F., Verma, V.K., Lipper, H.: Supporting PACs on a GSM MSC. IEEE Communication Magazine (1996)
Laitinen, M., Rantala, J.: Integration of Intelligent Network Services into Future GSM Network. IEEE Communications Magazine, 76–86 (June 1995)
Propst, J.E.: Calculating Electrical Risk and Reliability. IEEE Transactions on Industry Applications 31(5), 1197–1208 (1995)
Priscol, F.D., Muratore, F.: Study on the integration Between GSM Cellular Network and a Satellite System. IEEE Conference (1993)
Cory, B.J.: Computer a ids in power system engineering. Computer-Aided Engineering Journal, 217–225 (December 1988)
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Naz, K., Khatoon, S., Ibraheem (2011). GSM Based Power Management. In: Aluru, S., et al. Contemporary Computing. IC3 2011. Communications in Computer and Information Science, vol 168. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-22606-9_45
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DOI: https://doi.org/10.1007/978-3-642-22606-9_45
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