Home > CSC-OpenAccess Library > Manuscript Information
EXPLORE PUBLICATIONS BY COUNTRIES |
EUROPE | |
MIDDLE EAST | |
ASIA | |
AFRICA | |
............................. | |
United States of America | |
United Kingdom | |
Canada | |
Australia | |
Italy | |
France | |
Brazil | |
Germany | |
Malaysia | |
Turkey | |
China | |
Taiwan | |
Japan | |
Saudi Arabia | |
Jordan | |
Egypt | |
United Arab Emirates | |
India | |
Nigeria |
Remote Data Acquisition Using Wireless -Scada System
Aditya Goel, Ravi Shankar Mishra
Pages - 58 - 64 | Revised - 20-02-2009 | Published - 15-03-2009
Published in International Journal of Engineering (IJE)
MORE INFORMATION
KEYWORDS
Wireless SCADA, GPRS, Data Acquisition
ABSTRACT
Supervisory Control and Data Acquisition (SCADA) is a field of constant devel¬opment and research. This project investigates on creating an extremely low cost device which can be adapted to many different SCADA applications via some very basic program¬ming, and plugging in the relevant peripherals. Much of the price in some expensive SCADA applications is a result of using specialized communication infrastructure. The application of infrastructure, in the proposed scheme the cost will come down. Additionally the generic nature of the device will be assured.
Wireless SCADA deals with the creation of an inexpensive, yet adaptable and easy to use SCADA device and infrastructure using the mobile telephone network, in particular, the General Packet Radio Service (GPRS). The hardware components making up the device are relatively unsophisticated, yet the custom written software makes it re-programmable over the air, and able to provide a given SCADA application with the ability to send and receive control and data signals at any non predetermined time.
GPRS is a packet-based radio service that enables “al¬ways on” connections, eliminating repetitive and time-consuming dial-up connections. It will also provide real throughput in excess of 40 Kbps, about the same speed as an excellent landline analog modem connection.
1 | Rani, V. A., & Sneha, J. A. Boiler Application Using Wireless Bridge between PLC and SCADA. |
2 | Hossain 2nd, M. A., & Chowdury 3rd, A. R. Process Control Using Microcontroller. |
3 | Pani, S., & Rajawat, A. (2014). A Review on DWDM and MIMO-OFDM comparison. International Journal of Engineering Science & Advanced Technology, 4(1), 10-17. |
4 | Lakshminarayana, R. (2014). Design and implementation of web based embedded system for mst radar transmitters remote monitor and controller. |
5 | Narayana, R. L., & Raju, K. N. A Review on Web based Embedded System for Remote Monitor and Controller. |
6 | Thamarai, P., & Amudhevalli, R. (2014). Energy Monitoring System USING PLC & SCADAS. Energy, 3(2). |
7 | Gao, J., Liu, J., Rajan, B., Nori, R., Fu, B., Xiao, Y., ... & Philip Chen, C. L. (2014). SCADA communication and security issues. Security and Communication Networks, 7(1), 175-194. |
8 | Sharma, T. K., & Parihar, P. S. (2014). Network Based Data Acquisition and Logging System using PIC Microcontroller. International Journal of Engineering (IJE), 8(2), 22. |
9 | ALI, I. A., & NKGupta, E. R. (2014). Enhancing SCADA System for Water Treatment Plant in Tikrit City of Iraq. |
10 | Gajipara, N. D., & Ahire, P. L. (2014). Design of SCADA for Real Time System with LabVIEW and Microcontroller. |
11 | Shao, Y., Wang, S., Tan, Z., Luo, Y., & Lai, Y. (2014). Seamless integration of RZ-DQPSK-DWDM optical links with MISO-OFDM-QPSK system for fourth generation wide-area coverage mobile communication. Microwave and Optical Technology Letters, 56(4), 797-801. |
12 | Ghani, A., Ruddin, M., Raman, S. H., Jusoh, W., Ezwane, W. N. S., Hanafiah, M., ... & Baharudin, Z. A. (2013). A Low Cost Wireless Data Acquisition System for Distribution Automation System. |
13 | Ghani, A., Ruddin, M., Hanafiah, M., Ariff, M., Raman, S. H., Jusoh, W., ... & Baharudin, Z. A. (2013). Development of a novel fault management in distribution system using distribution automation system in conjunction with GSM communication. International Journal of Smart Grid and Clean Energy, 2(3), 229-335. |
14 | Musa, S., Shahzad, A., & Aborujilah, A. (2013, January). Simulation base implementation for placement of security services in real time environment. In Proceedings of the 7th International Conference on Ubiquitous Information Management and Communication (p. 31). ACM. |
15 | Buccafurri, F., Comi, A., Lax, G., & Rosaci, D. (2013). A Trust-Based Approach for Detecting Compromised Nodes in SCADA Systems. In Multiagent System Technologies (pp. 222-235). Springer Berlin Heidelberg. |
16 | Ugwoke, F. N. (2013). SmartGreen: A Novel Green Computing Architecture for Environmental Data Acquisition in IT/Automation DataCenter. African Journal of Computing & ICT, 6(5). |
17 | Saptadi, A. H. (2013).Sebuah tinjauan terhadap teknologi akuisisi data dan pemantauan jarak jauh. In Prosiding Seminar Nasional Sains Dan Teknologi Fakultas Teknik (Vol. 1, No. 1). |
18 | Nunoo, S., & Mahama, E. K. (2013). Investigation into Remote Monitoring of Power Transformers using SCADA. International Journal of Energy Engineering, 3(6), 213. |
19 | Manaz, M., & Liyanage, K. M. (2013, December). Delay analysis of small IP packets in GPRS RLC layer. In Industrial and Information Systems (ICIIS), 2013 8th IEEE International Conference on (pp. 489-494). IEEE. |
20 | Lakshmi, P. (2013). Service oriented architectural models for power system transient stability analysis. |
21 | Avhad, M., Divekar, V., Golatkar, H., & Joshi, S. (2013, December). Microcontroller based automation system using industry standard SCADA. In India Conference (INDICON), 2013 Annual IEEE (pp. 1-6). IEEE. |
22 | BRENIUC, L., & HABA, C. G. gps and gsm system for the development of car tracking application. |
23 | Khera, N., & Balguvhar, S. Development of a simple microcontroller based real-time data acquisition and alert system in labview tm environment. |
24 | Panigrahy, R. K., Mahalik, N. P., Mishra, R. K., & Patnaik, S. (2012). Steel plant production line automation strategy using advanced distributed control and convergent technology. International Journal of Automation and Control, 6(2), 157-173. |
25 | Ionel, R., Vasiu, G., & Mischie, S. (2012). GPRS based data acquisition and analysis system with mobile phone control. Measurement, 45(6), 1462-1470. |
26 | Pandya, V., & Shukla, D. (2012). vGSM Modem Based Data Acquisition System. International Journal of Computational Engineering Research. |
27 | Siddique, A. H., Barkat, B., & Poshtan, M. (2012, November). Experimental setup of wide area monitoring using Zigbee IEEE 802.15. 4 technology and RF FM technique. In Sustainable Technologies (WCST), 2012 World Congress on (pp. 44-48). IEEE. |
28 | Suakanto, S., Supangkat, S. H., Saragih, R., & Nugroho, T. A. (2012, April). Environmental and disaster sensing using cloud computing infrastructure. In Cloud Computing and Social Networking (ICCCSN), 2012 International Conference on (pp. 1-6). IEEE. |
29 | Y. Shao, Y. Wang and N. Chi, “Seamless Integration of RZ-DPSK-DWDM Optical Links with MIMO-OFDM System for 4th Generation Wide-Area Coverage Mobile Communication”, Engineering Future Wireless Networks and Information Systems Lecture Notes in Electrical Engineering, Vol. 143, pp. 361-367, 2012. |
30 | R.K. Mugelan, M.G.N. Alsath and V. Yokesh, “Fault Tolerant Wireless Sensor Network for Remote Data Acquisition”, in Proceedings of Electronics, Communication and Computing Technologies (ICECCT), 2011 International Conference, Pauls Nagar, 12-13 Sept. 2011, pp. 69 – 72. |
31 | R. Kirubashankar, K. Krishnamurthy, J. Indra and B.Vignesh, “Design and Implementation of Web Based Remote Supervisory Control and Information System”, International Journal of Soft Computing and Engineering (IJSCE), 1(4), pp. 43-51, September 2011. |
32 | Suresh, K. D., Kirubashankar, R., & Krishnamurthy, K. (2011, June). Research of Internet based supervisory control and information system. In Recent Trends in Information Technology (ICRTIT), 2011 International Conference on (pp. 1180-1185). IEEE. |
33 | Khera, M. N., & Balguvhar, S. Design of microcontroller based wireless SCADA system for real time data. Uacee International Journal Of Advances In Electronics Engineering, 2(1). |
34 | Ahmad, M., Shafique, M., & Baloch, M. H. Smart SCADA Implementation for Small Industry. |
35 | S. Nema , A. Goel and R.P. Singh, “Integrated DWDM and MIMO-OFDM System for 4G High Capacity Mobile Communication System”, Signal Processing: An International Journal (SPIJ), 3(5), pp. 132 – 143, November 2009. |
36 | A. Goel and A. Sharma, “Performance Analysis of Mobile Ad-hoc Network using AODV Protocol”, International Journal of Computer Science and Security (IJCSS), 3(5), pp. 334 – 343, November 2009. |
Bement, Arden “Keynote Address at the NSF Workshop on Critical Infrastructure Protection for SCADA & IT,” October 20, 2003, http://www.nist.gov/speeches/bement_102003.htm . | |
Carlson, Rolf E. and Jeffrey E. Dagle, Shabbir A. Shamsuddin, Robert P. Evans, “A Summary of Control System Security Standards Activities in the Energy Sector,” Department of Energy Office of Electricity Delivery and Energy Reliability,66 National SCADA Test Bed, October 2005, http://www.sandia.gov/scada/documents/CISSWG_Report_1_Final.pdf | |
Dagle, J.E.; Widergren, S.E.; Johnson, J.M.” Enhancing the security of supervisory control and data acquisition (SCADA) systems: the lifeblood of modern energy infrastructures” Power Engineering Society Winter Meeting, 2002. IEEE Volume 1, Issue , 2002 Page(s): 635 vol.1 | |
Das, AN, Lewis, FL, Popa, DO, 2006, “Data-logging and Supervisory Control in Wireless Sensor Networks,” Proceeding of the Seventh ACIS International Conference on Software Engineering, Artificial Intelligence, networking, and Parallel/Distributed Computing (SNPD’06), Volume 00, ISBN:0-7695-2611-X, pp 330- 338 | |
Gumbo, S, Muyingi, H, “Development of a web based interface for remote monitoring of a Long-distance power transmission overhead line”, SATNAC 2007, Sugar Beach Resort, Mauritius,ISBN 978 0 620 39351 5 | |
Hildick-Smith, Andrew, “Security for Critical Infrastructure SCADA Systems,” (SANS Reading Room, GSEC Practical Assignment, Version 1.4c, Option 1, February 2005), http://www.sans.org/reading_room/whitepapers/warfare/1644.php | |
http://www.embedtronics.com. online details of frame format of NOKIA | |
I. F. Akyildiz, W. Su, Y. Sankarasubramaniam, and E. Cayirci, "A Survey on Sensor Networks," IEEE Communications Magazine, Vol. 40, No. 8, pp. 102-114, August 2002; receives the IEEE Communications Society 2003 Best Tutorial Paper Award, April 2003. | |
J.E. Dagle (SM), S.E. Widergren (SM), and J.M. Johnson (M)” Enhancing the Security of Supervisory Control and Data Acquisition (SCADA) Systems: The Lifeblood of Modern Energy Infrastructures” Power Engineering Society Winter Meeting, 2002. IEEE Volume 1, Issue, 2002 Page(s): 635 vol.1 | |
McClanahan, R.H.,” The Benefits of Networked SCADA Systems Utilizing IP Enabled Networks", Proc. Of IEEE Rural Electric Power Conference 5-7 May 2002 Pages: C5 - C5_7 | |
Sandip C.Patel, Pritimoy Sanyal ” Securing SCADA System” Information Management & Computer Security Journal Volume: 16 Issue: 4 Page: 398 – 414 Year: 2008 | |
Stephen Beasley, Mr Choon Ng Dr Dario Toncich and Dr Andrew Dennison “Remote Diagnostics for Data Acquisition Systems” white paper by Industrial Research Institute Swinburne Available online at www.swinburne.edu.au/feis/iris/pdf/profiles/StephenBeasley.pdf | |
Sungmo Jung, Jae-gu Song, Seoksoo Kim, “Design on SCADA Test-bed and Security Device,” International Journal of Multimedia and Ubiquitous Engineering, Vol. 3, No. 4, October, 2008 | |
Surve, V, 2006, “A wireless Communication Device for Short Messages”, Masters Thesis,Available: www.certec.lth.se/doc/awireless.pdf. | |
Taylor, K; “Mobile Monitoring and Control Infrastructure”, CSIRO Available online at http://mobile.act.cmis.csiro.au | |
Technical Information Bulletin 04-1, Supervisory Control and Data Acquisition (SCADA) Systems, NCS TIB 04-1, Oct. 2004 | |
Dr. Aditya Goel
MANIT (Deemed Univrsity ) Bhopal - India
adityagoel2@rediffmail.com
Mr. Ravi Shankar Mishra
MANIT - India
|
|
|
|
View all special issues >> | |
|
|