International Journal of Computer Science & Network Security

국제컴퓨터통신보호논문지학회 (International Journal of Computer Science & Network Security)
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Designing a Remote Electronic Irrigation and Soil Fertility Managing System Using Mobile and Soil Moisture Measuring Sensor

  • 투고 : 2022.12.05
  • 발행 : 2022.12.30
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초록

Electronic measuring devices have an important role in agricultural projects and in various fields. Electronic measuring devices play a vital role in controlling and saving soil information. They are designed to measure the temperature, acidity and moisture of the soil. In this paper, a new methodology to manage irrigation and soil fertility using an electronic system is proposed. This is designed to operate the electronic irrigation and adds inorganic fertilizers automatically. This paper also explains the concept of remote management and control of agricultural projects using electronic soil measurement devices. The proposed methodology is aimed at managing the electronic irrigation process, reading the moisture percentage, elements of soil and controlling the addition of inorganic fertilizers. The system also helps in sending alert messages to the user when an error occurs in measuring the percentage of soil moisture specified for crop and a warning message when change happens to the fertility of soil as many workers find difficulty in daily checking of soil and operating agricultural machines such as irrigation machine and soil fertilizing machine, especially in large projects.

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참고문헌

  1. D. Rapong'o, "The Role Of Information Technology In Agriculture," 17 October 2017. [Online]. Available: https://www.linkedin.com/pulse/role-information-technologyagriculture-dennis-rapong-o. [Accessed 2020].
  2. S. M. P. C. S. Keyur K Patel, "Internet of Things-IOT: Definition, Characteristics, Architecture, Enabling Technologies, Application & Future Challenges," International Journal of Engineering Science and Computing, vol. 6, no. 5, 2016.
  3. N. A. a. L. C. Christopher Johns (Research Manager, "Soil Structure and the Physical Fertility of Soil," 17 December 2015. [Online]. Available: https://www.futuredirections.org.au/publication/soil-structure-and-the-physical-fertility-of-soil/. [Accessed 2020].
  4. L. Matchavariani, "Soil-Forming Factors," in The Soils of Georgia, Springer, Cham, 2019, pp. 19-50.
  5. H. I. Mohamed, "Egypt'S Water Resources Management Under Pressure Of Development," in First Eng. Conference for young, 2007.
  6. D. Neina, "The Role of Soil pH in Plant Nutrition and Soil Remediation," Applied and Environmental Soil Science, vol. 2019, p. 9, 3 November 2019. https://doi.org/10.1155/2019/5794869
  7. S. Savci, "Investigation of Effect of Chemical Fertilizers on Environment," in International Conference on Environmental Science and Development, Hong Kong, 2012.
  8. A. J. E, "Soil Moisture," NASA, 15 June 2015. [Online].
  9. H. K. Xumin Zhang, "Investigating Homeowners' Preferences for Smart Irrigation Technology Features," Water, vol. 11, no. 10, 25 September 2019.
  10. B. J.-S. S.R.BarkunanV, Smart sensor for automatic drip irrigation system for paddy cultivation, vol. 73, January 2019, pp. 180-193.
  11. M. A. J. M. Z. A. R. a. M. H. J. T. A. Izzuddin, "Smart Irrigation Using Fuzzy Logic Method," ARPN Journal of Engineering and Applied Sciences, vol. 13, no. 2, January 2018.
  12. S. M. R. M. R. D. E. K. Favour Adenugba, "Smart irrigation system for environmental sustainability in Africa: An Internet of Everything (IoE) approach," Mathematical Biosciences and Engineering (MBE), vol. 16, no. 5, pp. 5491-5503, 13 June 2019.
  13. I. S. B. M. A. N. B. R. M. Safdar Munir, "Design and Implementation of an IoT System for Smart Energy Consumption and Smart Irrigation in Tunnel Farming," Energies, vol. 11, p. 18, 6 December 2018. https://doi.org/10.3390/en11010186
  14. A. H. M. A. B. M. I. Muhammad Khaorshed Alam, "Smart Tunnel Farming Model: An Inculcation of Cloud Computing with Cortex for Reliable Agricultural Production," International Journal of Sensor Networks and Data Communications, vol. 7, no. 4, January 2018.
  15. R. M. M. Walker, "A web site for interpreting drinking water quality analyses," February 2003.
  16. S. A. W. N. M. Dara M. Park, "Assessing Irrigation Water Quality for pH, Salts, & Alkalinity," Journal of Extension (JOE), vol. 52, no. 6, December 2014.
  17. M. Ganis, "Agile Methods: Fact or Fiction," International Business Machines, vol. 12, 2010.
  18. C. W. D. B. Kai Petersen, "The Waterfall Model in Large-Scale Development," in International Conference on Product-Focused Software Process Improvement, 2009.
  19. S. K. Pushkar Dubey, "Software Development Life Cycle (Sdlc) Analytical Comparison And Survey On Traditional And Agile Methodology," Abhinav National Monthly Refereed Journal Of Research In Science & Technology, vol. 2, 6 August 2013.
  20. A. O. O. G. A. Olugbenga Ogidan, "Smart Irrigation System: A Water Management Procedure," Agricultural Sciences, vol. 10, no. 1, pp. 25-31, January 2019.
  21. A. L. T. A. F. Mutiu A. Adegboye, "Automatic Fertilized-Irrigation Control And Management System," Science & Technology Libraries, vol. 2, no. 2, October 2017.
  22. D. W. R.S. Ayers, Water quality for agriculture, vol. 29, 1994.
  23. M. S. M. M. A. N. M. S. M. M. imran Sarwar Bajwa, "Design and Implementation of an IoT System for Smart Energy Consumption and Smart Irrigation in Tunnel Farming," Energies, vol. 11, p. 3427, December 2018. https://doi.org/10.3390/en11123427
  24. S. M. J. F. Eric Conrad, Eleventh Hour CISSP, 2 ed., 2014, p. 216.
  25. D. Podar, "Plant Growth and Cultivation," Methods in molecular biology, pp. 23-45, January 2013.
  26. Duncombe, R. Mobile Phones for Agricultural and Rural Development: A Literature Review and Suggestions for Future Research. Eur J Dev Res, 28, 213-235 (2016). https://doi.org/10.1057/ejdr.2014.60
  27. Suporn Pongnumkul, Pimwadee Chaovalit, Navaporn Surasvadi,"Applications of Smartphone-Based Sensors in Agriculture: A Systematic Review of Research", Journal of Sensors, vol. 2015, Article ID 195308, 18 pages, 2015.
  28. Inwood, S.E.E. and Dale, V.H., State of apps targeting management for sustainability of agricultural landscapes. A review. Agronomy for sustainable development, 39(1), p.8, 2019. https://doi.org/10.1007/s13593-018-0549-8
  29. Gnauer, C., Pichler, H., Tauber, M. et al. Towards a secure and self-adapting smart indoor farming framework. Elektrotech. Inftech, 136, 341-344 (2019). https://doi.org/10.1007/s00502-019-00745-0
  30. Qualls, R.J.; Scott, J.M.; DeOreo, W.B. Soil moisture sensors for urban landscape irrigation: Effectiveness and reliability. J. Am. Water Res. Assoc. 2001, 37, 547-559. https://doi.org/10.1111/j.1752-1688.2001.tb05492.x
  31. Vasanth, A.; Grabow, G.L.; Bowman, D.; Huffman, R.L.; Miller, G.L. Evaluation of evapotranspirationbased and soilmoisture-based irrigation control in turf. Biol. Agric. Eng. 2008, doi:10.1061/40976(316)117.
  32. Rawal, S. IOT based Smart Irrigation System. Int. J. Comput. Appl. 2017, 159, doi: 10.5120/ijca2017913001.