Smart irrigation using WSN based on IOT

  • Authors

    • VP Krishna Anne
    • Kuricheti R V Siva Naga Durg
    • Rama Krishna Muddineni
    • Surya Gowtham Peri
    2018-03-19
    https://doi.org/10.14419/ijet.v7i2.8.10435
  • temp sensor, humidity, GPRS.
  • Abstract

    To set right the usage of water for crops of agriculture an automated irrigation system has been implemented. A moisture soil sensor; and a temperature measure sensor which is called as network of the distributed wireless is used at base of the plant. Along with these, we implemented a gateway unit. which gathers information and regulate it and by activating the triggers actuators, it can send and receive the transmits data to and from the web application. I proposed the algorithm which having the temperature and soil moisture threshold values that embedded in a gate way based on micro controller. It implemented panels of the photovoltaic; and having a duplex communication link; and works with the interface i.e. cellular-Internet which offers that data inspection & irrigation timing. All this can be programmed by using a web page. Implemented automated Crop water saving system tested for 136 days in sage crop field. It can be saved 90% water compared to others. The main 3 advantages of this automated system make it place successfully in any place for 18 months. As it is energy self-rule, cost less, so it can be efficiently useful in limited water geographical lands.

  • References

    1. [1] W. A. Jury and H. J. Vaux, “The emerging global water crisis: Managingscarcity and conflict between water users,†Adv. Agronomy, vol. 95,pp. 1–76, Sep. 2007.

      [2] X. Wang, W. Yang, A. Wheaton, N. Cooley, and B. Moran, “Efficientregistration of optical and IR images for automatic plant water stressassessment,†Computer. Electron. Agriculture., vol. 74, no. 2, pp. 230–237,Nov. 2010.

      [3] G. Yuan, Y. Luo, X. Sun, and D. Tang, “Evaluation of a crop waterstress index for detecting water stress in winter wheat in the North ChinaPlain,†Agriculture Water Management., vol. 64, no. 1, pp. 29–40, Jan. 2004.

      [4] S. B. Idso, R. D. Jackson, P. J. Pinter, Jr., R. J. Reginato, andJ. L. Hatfield, “Normalizing the stress-degree-day parameter for environmentalvariability,†Agricult. Meteorol., vol. 24, pp. 45–55, Jan. 1981.

      [5] Y. Erdem, L. Arin, T. Erdem, S. Polat, M. Deveci, H. Okursoy, andH. T. Gültas, “Crop water stress index for assessing irrigation schedulingof drip irrigated broccoli (Brassica oleracea L. var. italica),†Agricult.Water Manag., vol. 98, no. 1, pp. 148–156, Dec. 2010.

      [6] K. S. Nemali and M. W. Van Iersel, “An automated system for controllingdrought stress and irrigation in potted plants,†Sci. Horticult.,vol. 110, no. 3, pp. 292–297, Nov. 2006.

      [7] S. A. O’Shaughnessy and S. R. Evett, “Canopy temperature based systemeffectively schedules and controls center pivot irrigation of cotton,â€Agricult. Water Manag., vol. 97, no. 9, pp. 1310–1316, Apr. 2010.

      [8] R. G. Allen, L. S. Pereira, D. Raes, and M. Smith, CropEvapotranspiration-Guidelines for Computing Crop WaterRequirements—FAO Irrigation and Drainage Paper 56. Rome, Italy:FAO, 1998.

      [9] S. L. Davis and M. D. Dukes, “Irrigation scheduling performance byevapotranspiration-based controllers,†Agriculture. Water Management., vol. 98,no. 1, pp. 19–28, Dec. 2010.

      [10] K. W. Migliaccio, B. Schaffer, J. H. Crane, and F. S. Davies, “Plantresponse to evapotranspiration and soil water sensor irrigation schedulingmethods for papaya production in south Florida,†Agriculture. WaterManagement., vol. 97, no. 10, pp. 1452–1460, Oct. 2010.

      [11] Dr. Seetaiah Kilaru, Hari Kishore K, Sravani T, Anvesh Chowdary L, Balaji T “Review and Analysis of Promising Technologies with Respect to fifth Generation Networksâ€, 2014 First International Conference on Networks & Soft Computing, ISSN:978-1-4799-3486-7/14,pp.270-273,August 2014.

      [12] Meka Bharadwaj, Hari Kishore "Enhanced Launch-Off-Capture Testing Using BIST Designs†Journal of Engineering and Applied Sciences, ISSN No: 1816-949X, Vol No.12, Issue No.3, page: 636-643, April 2017.

      [13] P Bala Gopal, K Hari Kishore, R.R Kalyan Venkatesh, P Harinath Mandalapu “An FPGA Implementation of On Chip UART Testing with BIST Techniquesâ€, International Journal of Applied Engineering Research, ISSN 0973-4562, Volume 10, Number 14 , pp. 34047-34051, August 2015.

      [14] T. Padmapriya, V.Saminadan, “Performance Improvement in long term Evolution-advanced network using multiple imput multiple output techniqueâ€, Journal of Advanced Research in Dynamical and Control Systems, Vol. 9, Sp-6, pp: 990-1010, 2017.

      [15] S.V.Manikanthan and D.Sugandhi “ Interference Alignment Techniques For Mimo Multicell Based On Relay Interference Broadcast Channel †International Journal of Emerging Technology in Computer Science & Electronics (IJETCSE) ISSN: 0976-1353 Volume- 7 ,Issue 1 –MARCH 2014.

      [16] Dr. Seetaiah Kilaru, Hari Kishore K, Sravani T, Anvesh Chowdary L, Balaji T “Review and Analysis of Promising Technologies with Respect to fifth Generation Networksâ€, 2014 First International Conference on Networks & Soft Computing, ISSN:978-1-4799-3486-7/14,pp.270-273, August 2014.

  • Downloads

  • How to Cite

    Krishna Anne, V., R V Siva Naga Durg, K., Krishna Muddineni, R., & Gowtham Peri, S. (2018). Smart irrigation using WSN based on IOT. International Journal of Engineering & Technology, 7(2.8), 331-334. https://doi.org/10.14419/ijet.v7i2.8.10435

    Received date: 2018-03-21

    Accepted date: 2018-03-21

    Published date: 2018-03-19