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Year 2017, Volume: 4 Issue: 2, 99 - 103, 28.12.2017
https://doi.org/10.17350/HJSE19030000055

Abstract

References

  • Weng Q. Advances in environmental remote sensing: sensors, algorithms, and applications (remote sensing applications series). CRC Press Taylor & Francis Group; (2011).
  • Committee on the earth system science for decisions about human welfare: contributions of remote sensing, contributions of land remote sensing for decisions about food security and human health, workshop report. Washington: National Academies Press, (2007).
  • Pierce FJ, Clay D. GIS applications in agriculture. CRC PressTaylor & Francis Group; (2007).
  • El-Kader SMA, Basma M. Mohammad El-Basioni. Precision farming solution in Egypt using the wireless sensor network technology. Egyptian Informatics Journal 14(3) (2013) 221- 233.
  • Broeders J, Croux D, Peeters M, Beyens T, Duchateau S, Cleij TJ, Wagner P, Thoelen R, De Ceuninck W. Mobile application for impedance-based biomimetic sensor readout. IEEE Sensors Journal 13(7) (2013) 2659-2665.
  • Ishigaki Y, Matsumoto Y, Ichimaya R, Tanaka K. Development of mobile radiation monitoring system utilizing smartphone and its field tests in Fukushima. IEEE Sensors Journal 13(10) (2013) 3520-3526.
  • Lee J, Reyes BA, McManus DD, Maitas O, Chon KH. Atrial fibrillation detection using an iPhone 4S. IEEE Transactions on Biomedical.Engineering 60(1) (2013) 203-206.
  • Koukomidis E, Martonosi M, Peh LS. Leveraging smartphone cameras for collaborative road advisories. IEEE Transactions on Mobile Computing 11(5) (2012) 707-723.
  • Qin C, Bao X, Choudhury RR, Nelakuditi S. TagSense: Leveraging smartphones for automatic image tagging. IEEE Transactions on Mobile Computing 13(1) (2014) 61-74.
  • Car NJ, Christen EW, Hornbuckle JW, Moore GA. Using a mobile phone short messaging service (SMS) for irrigation scheduling in Australia—Farmers’ participation and utility evaluation. Computers and Electronics in Agriculture 84 (2012) 132-143.
  • Sallabi F, Fadel M, Hussein A, Jaffar A, El Khatib H. Design and implementation of an electronic mobile poultry production documentation system. Computers and Electronics in Agriculture 76(1) (2011) 28-37.
  • Arroqui M, Mateos C, Machado C, Zunino A. RESTful Web services improve the efficiency of data transfer of a whole-farm Simulator accessed by Android smartphones. Computers and Electronics in Agriculture 87 (2012) 14-18.
  • Montoya FG, Gomez J, Cama A, Zapata-Sierra A, Martinez F, De La Cruz JL, Manzano-Agugliaro F. A monitoring system for intensive agriculture based on mesh networks and the Android system. Computers and Electronics in Agriculture 99 (2013) 14-20.
  • M. Sait TAHMISCIOGLU “T.C. Orman ve su isleri bakanlıgı devlet su isleri genel müdürlügü, Türkiye’ de bitki su tüketimi çalısmaları”, Etüt, Planlama ve Tahsisler Dairesi Baskanlıgı, Mart, (2015).

A Monitoring and Control System Integrated with Smart Phones for The Efficient Use of Underground Water Resources in Agricultural Product Growing

Year 2017, Volume: 4 Issue: 2, 99 - 103, 28.12.2017
https://doi.org/10.17350/HJSE19030000055

Abstract

M onitoring and control system is very important for crop development process in agriculture zones. A structure which is carried out based on the type of the product with the knowledge of temperature and humidity values of the agricultural land can contribute to the efficient use of underground water resources. Additionally, it can also contribute to the establishment of the administration of the land besides the economical contributions to the farmer. In this study, the values obtained by heat and humidity sensors which are placed in different locations of agricultural field are transmitted to a database by using a central operation unit. The water requirement based on the product is determined according to that database. Those values are transferred to the smart phones by using a Wi-Fi connection. A real time monitoring system is established on the smart phone. The energy supply of the system is obtained by solar cells. The design offers several advantages such as saving of the water, time and energy with the efficient use of underground water resources. Thus, by using clean energy, the design constitutes an environmental friendly system

References

  • Weng Q. Advances in environmental remote sensing: sensors, algorithms, and applications (remote sensing applications series). CRC Press Taylor & Francis Group; (2011).
  • Committee on the earth system science for decisions about human welfare: contributions of remote sensing, contributions of land remote sensing for decisions about food security and human health, workshop report. Washington: National Academies Press, (2007).
  • Pierce FJ, Clay D. GIS applications in agriculture. CRC PressTaylor & Francis Group; (2007).
  • El-Kader SMA, Basma M. Mohammad El-Basioni. Precision farming solution in Egypt using the wireless sensor network technology. Egyptian Informatics Journal 14(3) (2013) 221- 233.
  • Broeders J, Croux D, Peeters M, Beyens T, Duchateau S, Cleij TJ, Wagner P, Thoelen R, De Ceuninck W. Mobile application for impedance-based biomimetic sensor readout. IEEE Sensors Journal 13(7) (2013) 2659-2665.
  • Ishigaki Y, Matsumoto Y, Ichimaya R, Tanaka K. Development of mobile radiation monitoring system utilizing smartphone and its field tests in Fukushima. IEEE Sensors Journal 13(10) (2013) 3520-3526.
  • Lee J, Reyes BA, McManus DD, Maitas O, Chon KH. Atrial fibrillation detection using an iPhone 4S. IEEE Transactions on Biomedical.Engineering 60(1) (2013) 203-206.
  • Koukomidis E, Martonosi M, Peh LS. Leveraging smartphone cameras for collaborative road advisories. IEEE Transactions on Mobile Computing 11(5) (2012) 707-723.
  • Qin C, Bao X, Choudhury RR, Nelakuditi S. TagSense: Leveraging smartphones for automatic image tagging. IEEE Transactions on Mobile Computing 13(1) (2014) 61-74.
  • Car NJ, Christen EW, Hornbuckle JW, Moore GA. Using a mobile phone short messaging service (SMS) for irrigation scheduling in Australia—Farmers’ participation and utility evaluation. Computers and Electronics in Agriculture 84 (2012) 132-143.
  • Sallabi F, Fadel M, Hussein A, Jaffar A, El Khatib H. Design and implementation of an electronic mobile poultry production documentation system. Computers and Electronics in Agriculture 76(1) (2011) 28-37.
  • Arroqui M, Mateos C, Machado C, Zunino A. RESTful Web services improve the efficiency of data transfer of a whole-farm Simulator accessed by Android smartphones. Computers and Electronics in Agriculture 87 (2012) 14-18.
  • Montoya FG, Gomez J, Cama A, Zapata-Sierra A, Martinez F, De La Cruz JL, Manzano-Agugliaro F. A monitoring system for intensive agriculture based on mesh networks and the Android system. Computers and Electronics in Agriculture 99 (2013) 14-20.
  • M. Sait TAHMISCIOGLU “T.C. Orman ve su isleri bakanlıgı devlet su isleri genel müdürlügü, Türkiye’ de bitki su tüketimi çalısmaları”, Etüt, Planlama ve Tahsisler Dairesi Baskanlıgı, Mart, (2015).
There are 14 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Mehmet Fatih Isik This is me

Mustafa Resit Haboglu This is me

Ercan Isik This is me

Publication Date December 28, 2017
Published in Issue Year 2017 Volume: 4 Issue: 2

Cite

Vancouver Isik MF, Haboglu MR, Isik E. A Monitoring and Control System Integrated with Smart Phones for The Efficient Use of Underground Water Resources in Agricultural Product Growing. Hittite J Sci Eng. 2017;4(2):99-103.

Hittite Journal of Science and Engineering is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY NC).