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Autor
Bennis I. (UniversitUniversit´e de Reims Champagne-Ardennee Mohammed V,), Fouchal H. (Universit´e de Reims Champagne-Ardenne), Zytoune O. (Universite Mohammed,Universite Ibn Tofail), Aboutajdine D. (Universite Mohammed)
Tytuł
Drip Irrigation System using Wireless Sensor Networks
Źródło
Annals of Computer Science and Information Systems, 2015, vol. 5, s. 1297-1302, rys.,tab., bibliogr. 20 poz.
Słowa kluczowe
Nawadnianie, Woda, Rolnictwo
Irrigation, Water, Agriculture
Uwagi
summ.
Abstrakt
Abstract-Nowadays, adopting an optimized irrigation system has become a necessity due to the lack of the world water resource. Moreover, many researchers have treated this issue to improve the irrigation system by coupling the novel technologies from the information and communication field with the agricultural practices. The Wireless Sensor and Actuators Networks (WSANs) present a great example of this fusion. In this paper, we present a model architecture for a drip irrigation system using the WSANs. Our model includes the soil moisture, temperature and pressure sensors to monitor the irrigation operations. Specifically, we take into account the case where a system malfunction occurs, as when the pipes burst or the emitters block. Also, we differentiate two main traffic levels for the information transmitted by the WSAN, and we use an adequate priority-based routing protocol to achieve high QoS performance. Simulations conducted over the NS-2 simulator show promising results in terms of delay and Packet Delivery Ratio (PDR), mainly for the priority traffic.(original abstract)
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Bibliografia
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  1. Alberto Camilli, Carlos E. Cugnasca, Antonio M. Saraiva, Andr´e R. Hirakawa, and Pedro L.P. Corrˆea. From wireless sensors to field mapping: Anatomy of an application for precision agriculture. Computers and Electronics in Agriculture, 58(1):25 - 36, 2007. Precision Agriculture in Latin America.
  2. Ning Wang, Naiqian Zhang, and Maohua Wang. Wireless sensors in agriculture and food industry?recent development and future perspective. Computers and Electronics in Agriculture, 50(1):1 - 14, 2006.
  3. J.A. L´opez Riquelme, F. Soto, J. Suard´ıaz, P. S´anchez, A. Iborra, and J.A. Vera. Wireless sensor networks for precision horticulture in southern spain. Computers and Electronics in Agriculture, 68(1):25 - 35, 2009.
  4. Xiaoqing Yu, Pute Wu, and Zenglin Zhang. Design and test of nodes for field information acquisition based on wusn. In Baoxiang Liu and Chunlai Chai, editors, Information Computing and Applications, volume 7030 of Lecture Notes in Computer Science, pages 561-568. Springer Berlin Heidelberg, 2011.
  5. Minghua Shang, Guoying Tian, Leilei Qin, Jia Zhao, Huaijun Ruan, and Fengyun Wang. Greenhouse wireless monitoring system based on the zigbee. In Daoliang Li and Yingyi Chen, editors, Computer and Computing Technologies in Agriculture VI, volume 392 of IFIP Advances in Information and Communication Technology, pages 109- 117. Springer Berlin Heidelberg, 2013.
  6. M. Nesa Sudha, M.L. Valarmathi, and Anni Susan Babu. Energy efficient data transmission in automatic irrigation system using wireless sensor networks. Computers and Electronics in Agriculture, 78(2):215 - 221, 2011.
  7. Antonio-Javier Garcia-Sanchez, Felipe Garcia-Sanchez, and Joan Garcia-Haro. Wireless sensor network deployment for integrating videosurveillance and data-monitoring in precision agriculture over distributed crops. Computers and Electronics in Agriculture, 75(2):288 - 303, 2011.
  8. Ismail Bennis, Hacene Fouchal, Ouadoudi Zytoune, and Driss Aboutajdine. Carrier sense aware multipath geographic routing protocol. Wireless Communications and Mobile Computing, pages n/a-n/a, 2015.
  9. M. Nesa Sudha, M.L. Valarmathi, and Anni Susan Babu. Energy efficient data transmission in automatic irrigation system using wireless sensor networks. Computers and Electronics in Agriculture, 78(2):215 - 221, 2011.
  10. J. Gutierrez, J.F. Villa-Medina, A. Nieto-Garibay, and M.A. Porta- Gandara. Automated irrigation system using a wireless sensor network and gprs module. Instrumentation and Measurement, IEEE Transactions on, 63(1):166-176, Jan 2014.
  11. Million Mafuta, Marco Zennaro, Antoine B. Bagula, Graham W. Ault, Harry Sam Harrison Gombachika, and Timothy Chadza. Successful deployment of a wireless sensor network for precision agriculture in malawi. IJDSN, 2013, 2013.
  12. H. Ali. Practices of Irrigation & On-farm Water Management: Volume 2. Practices of Irrigation & On-farm Water Management. Springer, 2011.
  13. AlisonC. McCarthy, NigelH. Hancock, and StevenR. Raine. Advanced process control of irrigation: the current state and an analysis to aid future development. Irrigation Science, 31(3):183-192, 2013.
  14. J.J. Haller, S.P. Glaudel, and G.J. Volz. System and method of operating a solenoid valve at minimum power levels, September 26 2013. US Patent App. 13/900,683.
  15. I. Mampentzidou, E. Karapistoli, and A.A. Economides. Basic guidelines for deploying wireless sensor networks in agriculture. In Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), 2012 4th International Congress on, pages 864-869, Oct 2012.
  16. Wei An, Song Ci, Haiyan Luo, Dalei Wu, Viacheslav Adamchuk, Hamid Sharif, Xueyi Wang, and Hui Tang. Effective sensor deployment based on field information coverage in precision agriculture. Wireless Communications and Mobile Computing, pages n/a-n/a, 2013.
  17. Lu Wang, Kaishun Wu, and M. Hamdi. Combating hidden and exposed terminal problems in wireless networks. Wireless Communications, IEEE Transactions on, 11(11):4204-4213, November 2012.
  18. Lei Shu, Yan Zhang, LaurenceT. Yang, Yu Wang, Manfred Hauswirth, and Naixue Xiong. Tpgf: geographic routing in wireless multimedia sensor networks. Telecommunication Systems, 44(1-2):79-95, 2010.
  19. VINT. The network simulator ns-2.34, 2012.
  20. memsic. Micaz datasheet. http://www.memsic.com/userfiles/files/ Datasheets/WSN/micaz datasheet-t.pdf.
Cytowane przez
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ISSN
2300-5963
Język
eng
URI / DOI
http://dx.doi.org/10.15439/2015F299
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