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Architecture of GSM based WSN for Greenhouse Monitoring System in Ambient Intelligence Environment

by S. Pandikumar, S. P. Kabilan, S. Ambethkar
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 63 - Number 6
Year of Publication: 2013
Authors: S. Pandikumar, S. P. Kabilan, S. Ambethkar
10.5120/10467-5187

S. Pandikumar, S. P. Kabilan, S. Ambethkar . Architecture of GSM based WSN for Greenhouse Monitoring System in Ambient Intelligence Environment. International Journal of Computer Applications. 63, 6 ( February 2013), 1-5. DOI=10.5120/10467-5187

@article{ 10.5120/10467-5187,
author = { S. Pandikumar, S. P. Kabilan, S. Ambethkar },
title = { Architecture of GSM based WSN for Greenhouse Monitoring System in Ambient Intelligence Environment },
journal = { International Journal of Computer Applications },
issue_date = { February 2013 },
volume = { 63 },
number = { 6 },
month = { February },
year = { 2013 },
issn = { 0975-8887 },
pages = { 1-5 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume63/number6/10467-5187/ },
doi = { 10.5120/10467-5187 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T21:13:24.653620+05:30
%A S. Pandikumar
%A S. P. Kabilan
%A S. Ambethkar
%T Architecture of GSM based WSN for Greenhouse Monitoring System in Ambient Intelligence Environment
%J International Journal of Computer Applications
%@ 0975-8887
%V 63
%N 6
%P 1-5
%D 2013
%I Foundation of Computer Science (FCS), NY, USA
Abstract

Greenhouse monitoring is an essential one for variable climate changes. GSM technologies have been rapidly developing wireless technology during recent years. Starting from telecommunication and industrial controls, it is now being applied in environmental monitoring and agriculture. The old wired greenhouse network would make the measurement system expensive and vulnerable. Moreover, the cabled measurement points are difficult to relocate once they are installed. This paper propose modern greenhouse measurement system using ambient intelligence, the GSM-SMS and sensors are used to sense climate parameters and transmit data through wireless communication.

References
  1. Juan Carlos Augusto, 2010. "Ambient Intelligence: Basic Concepts and Applications", Technical Document, University of Ulster, Jordanstown, UK.
  2. Y. Zhou, X. Yang, X. Guo, M. Zhou, and L. Wang, "A design of green-house monitoring & control system based on ZigBee wireless sensor network," inProc. Int. Conf. WiCom, Sep. 21–25, 2007, pp. 2563–2567.
  3. L. Gonda and C. E. Cugnasca, "A proposal of greenhouse control using wireless sensor networks," inProc. 4th World Congr. Conf. Comput. Agric. Nat. Resour. , Orlando, FL, Jul. 24–26, 2006.
  4. B. van Tuijl, E. van Os, and E. van Henten, "Wireless sensor networks: State of the art and future perspective," inProc. Int. Symp. High Technol. Greenhouse Syst. Manage. (Greensys), 2007, pp. 547–554.
  5. zhang Qian, yang Xiang-long, zhou Yi-ming, WANG Li-ren, guo xi-shan, 2007. "A wireless solution for greenhouse monitoring and control system based on ZigBee technology", Journal of Zhejiang University science A.
  6. Ahonen, T. 2008. "Greenhouse Monitoring with Wireless Sensor Network", Mechtronic and Embedded Systems and Applications, MESA 2008. IEEE/ASME International Conference, Beijing, pp 403 – 408.
  7. Orazio Mirabella and Michele Brischetto, 2011. "A Hybrid Wired/Wireless Networking Infrastructure for Greenhouse Management", IEEE transactions on instrumentation and measurement, vol. 60, no. 2, pp 398-407.
  8. S. U. Zagade, R. S. Kawitkar, 2012. "Wireless Sensor Network for Greenhouse", International Journal of Science and Technology, Volume 2 No. 3, March. Pp 130-133.
  9. Andrzej Pawlowski, Jose Luis Guzman, Francisco Rodríguez, Manuel Berenguel, José Sánchez and Sebastián Dormido, 2009. "Simulation of Greenhouse Climate Monitoring and Control with Wireless Sensor Network and Event-Based Control", Sensors,pp 232-252.
  10. Mohammad Javad Manashti, Houshang Ghamarnia, Soheila Amirian, Ramin Mohammad Nezhad, 2012. "Design GSM-SMS based system for old structured greenhouses with monitoring and logging network sensors", International Research Journal of Applied and BasicSciences. Vol. , 3 (7), 1497-1507.
  11. Earl Oliver, 2011. "Characterizing the Transport Behaviour of the Short Message Service", MobiSys'10, June 15–18, San Francisco.
  12. "GSM Technical Specification", ETSI Technical Document, GSM 04. 11 Version 5. 1. 0. March 1996.
  13. Nilesh Agarwal, Leena Chandran-Wadia and Varsha Apte, 2010. "Capacity Analysis of the GSM Short Message Service" Technical Document, Indian Institute of Technology Bombay.
  14. Zohar Naor, 2004. "An efficient short messages transmissionin cellular networks". In Proceedings of INFOCOM, pages 640–649.
  15. Shahin Charkhandeh, M. G. Petovello, R. Watson and G. Lachapelle, 2006. "Implementation and Testing of a Real Time Software-Based GPSReceiver forx86 Processors", The Institute of Navigation National Technical Meeting (ION NTM 2006) January, pp. 18-20.
  16. S. Pandikumar, 2012. "A Model for GSM Based Intelligence PC Monitoring System", International Journal of Advanced Computer Science and Technology, Volume 2, Number 2 (2012), pp. 85-88.
  17. N. Kularatna, and B. H. Sudantha, 2008. "An environmental air pollution monitoring system based on the IEEE 1451 standard for low cost requirements," IEEE Sensors Journal, 8, (4), pp. 415 – 422.
  18. Anuj Kumar, I. P. Singh, and S. K. Sud, 2009. "Indoor Air Quality Estimation by Using Smart Sensing System", Proceedings of the International MultiConference of Engineers and Computer Scientists, Vol II, March 18 - 20, Hong Kong.
  19. Luo, H. Q. , Zhang, X. , Liu, E. , Qiao, X. J. , Zhang, Y. H. , 2006. The design of wireless sensor in greenhouse environment measurement. Sensor World, 12(5):45-48.
  20. Earl Oliver, 2010. "Characterizing the Transport Behaviour of the Short Message Service", MobiSys'10, June 15–18, San Francisco.
  21. Hesong Huang, Hongning Bian and Shuchuan Zhu, 2011. "A Greenhouse Remote Monitoring System Based on GSM", International Conference on Information Management, Innovation Management and Industrial Engineering, Vol 2, pp 357-360.
  22. J. C. Augusto, 2007. Ambient intelligence: the confluence of ubiquitous/pervasive computing and artificial intelligence. Intelligent Computing Everywhere, pages 213–234. Springer London.
  23. Juan Carlos Augusto, 2010. "Past, Present and Future of Ambient Intelligence and Smart Environments", Agents and Artificial Intelligence. Vol 67, pp 3-15.
  24. J. Fraden, 2004. "In: Handbook of Modern Sensors," Third Eds. , Springer.
  25. G. Peersman, S. Cvetkovic, P. Griffiths, and H. Spear, 2000. "The global sys-tem for mobile communications short message service," IEEE Personal Communications.
Index Terms

Computer Science
Information Sciences

Keywords

Greenhouse GSM Wireless Sensor Network Environmental Ambient Intelligence CO2 Emission

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