Determination of Soil Moisture using Various Sensors for Irrigation Water Management

  • Anurag Upadhyay Research Scholar, MCA Thakur Institute of Management Studies, Career Development & Research (TIMSCDR) Mumbai, India

Abstract

This analysis examination associate degree analyzes prototyping an organized activity and dealing of assorted soil wet sensors. It provides recommendations on a way to upgrade web of Things (IoT) based mostly soil wet identification system for irrigation frameworks. The empiric examination used 2 sensors to differentiate the soil wet fronts that area unit Resistive Soil wet and electrical phenomenon Soil wet. The results of this study indicate IoT based mostly soil wet detection is a good method that has reliable front information which will be accustomed adapt and improve irrigation and exactitude farming ways.


Confirmation of the positive impact of this prototyping is presented during this study.


How to cite this article:
Upadhyay A. Determination of Soil Moisture using Various Sensors for Irrigation Water Management. J Adv Res Instru Control Engg 2021; 8(1&2): 6-11.

References

[1] G. Eason, B. Noble, and I. N. Sneddon, “On certain integrals of Lipschitz- Hankel type involving products of Bessel functions,” Phil. Trans. Roy. Soc. London, vol. A247, pp. 529–551, April 1955. (references)
[2] M. Saleh, I. H. Elhajj, D. Asmar, I. Bashour, and S. Kidess, “Experimental evaluation of low-cost resistive soil moisture sensors,” 2016 IEEE Int. Multidiscip. Conf. Eng. Technol. IMCET 2016, pp. 179–184, 2016.
[3] D. Spelman, K.-D. Kinzli, and T. Kunberger, “Calibration of the 10HS
[4] Soil Moisture Sensor for Southwest Florida Agricultural Soils,” J. Irrig. Drain. Eng., vol. 139, no. 12, pp. 965–971, 2013.
[5] H. Eller and A. Denoth, “A capacitive soil moisture sensor,” J. Hydrol., vol. 185, no. 1–4, pp. 137–146, 1996.
[6] L. Zotarelli and M. D. Dukes, “Physiological and yield response of green bell pepper to soil moisture sensor controlled drip irrigation,” Proc. World Environ. Water Resour. Congr. 2009 - World Environ. Water Resour. Congr. 2009 Gt. Rivers, vol. 342, no. Locascio2005, pp. 3949–3958, 2009.
[7] G. Kargas and K. X. Soulis, “Performance Analysis and Calibration of a New Low-Cost Capacitance Soil Moisture Sensor,” J. Irrig. Drain. Eng., vol. 138, no. 7, pp. 632–641, 2012.
[8] B. Cardenas-Lailhacar and M. D. Dukes, “Effect of temperature and salinity on the precision and accuracy of landscape irrigation soil moisture sensor systems,” J. Irrig. Drain. Eng., vol. 141, no. 7, p. 4014076, 2014.
[9] K. X. Soulis, S. Elmaloglou, and N. Dercas, “Investigating the effects of soil moisture sensors positioning and accuracy on soil moisture based drip irrigation scheduling systems,” Agric. Water Manag., vol. 148, pp. 258–268, 2015.
[10] M. J. W. Schubert et al., “Capacitive Sensor Technology for Soil Moisture Monitoring Networks,” vol. 1, pp. 190–193, 2017.
Published
2021-08-10
How to Cite
UPADHYAY, Anurag. Determination of Soil Moisture using Various Sensors for Irrigation Water Management. Journal of Advanced Research in Instrumentation and Control Engineering, [S.l.], v. 8, n. 1 & 2, p. 6-11, aug. 2021. ISSN 2456-1398. Available at: <http://thejournalshouse.com/index.php/instrumentation-control-engg-adr/article/view/237>. Date accessed: 22 dec. 2024.
Citation Formats
Issue
Vol 8 No 1 & 2 (2021): Journal of Advanced Research in Instrumentation and Control Engineering(ISSN: 2456-1398)
Section
Articles