gsm and wireless sensor network with embedded based smart automated irrigation system

Bhuvaneswari Dakshinamurthy,

Published in International Journal of Advanced Research in Electronics, Communication & Instrumentation Engineering and Development

ISSN: 2347 -7210          Impact Factor:1.9         Volume:3         Issue:1         Year: 05 July,2016         Pages:102-110

International Journal of Advanced Research in Electronics, Communication & Instrumentation Engineering and Development

Abstract

ABSTRACT-An Android application which pushes the rancher to ON/OFF the engine without his physical vicinity in the field. This paper has continuous detecting and control of a watering system framework. At the point when the state of water in the horticultural homestead is unusual then the framework consequently switches OFF. light of the dirt dampness, through hand-off the pumping engine will be consequently switch on or off which spares the water and then again the plant can get most suitable water level which expands the profitability of the yield. Utilizing GSM ( Global System for Mobile communication) innovation which is utilized to educate the client about the definite state of the field. This data is passed onto the client demand as SMS (Short Message Service). This framework gives uniform and required water level for the agrarian ranch and it maintains a strategic distance from water wastage. An android telephone that controls the Irrigation framework, which could give the offices in light of the fact that to keep up uniform natural conditions. This empowers clients to exploit the all inclusive sent GSM systems with its low SMS administration expense to utilize cell telephones and basic SMS charges to deal with the watering system framework. It is feasible for clients to utilize SMS to screen straightforwardly the states of their farmland, plan the water requirements for harvests, naturally water control, furthermore set control operational conditions as per the water needs of products. In this paper, keen detecting utilizing JAVA with PC control

Kewords

Keywords:GSM, Android, Irrigation frame work

Reference

[1]Chetan Dwarkani. M,Ganesh Ram.R ,Jagannathan.S , R.Priyatharshini “Smart Farming System using sensors for agricultural Task automation” 2015 IEEE International Conference on Technology Innovation in ICT for Agriculture and rural development(TIAR 2015) pages :49-53. [2] Rupanagudi, SudhirRao ; Ranjani B.S. ; Nagaraj, Prathik ; Bhat, Varsha G ; Thippeswamy G“A novel cloud computing based smart farming system for early detection of borer insects in tomatoes” Communication, Information & Computing Technology (ICCICT), 2015 International Conference on DOI:10.1109/ICCICT.2015.7045722 Publication Year: 2015 , Page(s): 1-6 [3] Kaewmard, Nattapol; Saiyod, Saiyan “Sensor data collection and irrigation control on vegetable crop using smart phone and wireless sensor networks for smart farm”, IEEE Conference on Wireless sensors (ICWiSE), DOI: 10.1109/ICWISE.2014.7042670, Page(s): 106 – 112, 2014 . [4] Taylor, K. ; Griffith, C. ; Lefort, L. ; Gaire, R. ; Compton, M. ; Wark, T. ; Lamb, D. ; Falzon, G. ; Trotter, “Farming the Web of Things”M.Intelligent Systems, IEEE Volume: 28 , Issue: 6 DOI: 10.1109/MIS.2013.102 Publication Year: 2013 , Page(s): 12 – 19. [5] Migdall, S. ; Klug, P. ; Denis, A. ; Bach, H. “The additional value of hyper spectral data for smart farming” Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International DOI: 10.1109/IGARSS.2012.6351937 Publication Year: 2012 , Page(s): 7329 - 7332 [6] Gautam, I., and Reddy, S. R. N.,” Innovative GSM-Bluetooth based remote controlled embedded system for irrigation”, International Journal of Computer Applications, vol. 47, no. 8, 2012. [7] I. Singh and M. Bansal, “Monitoring Water Level in Agriculture using Sensor Networks”, International Journal of Soft Computing and Engineering, pp. 202–204, November 2011. [8] Angel, G.; Brindha, A. “Real-time monitoring of GPS-tracking multifunctional vehicle path control and data acquisition based on Zigbee multi-hop mesh network” Recent Advancements in Electrical, Electronics and Control Engineering (ICONRAEeCE), 2011 International Conference on DOI: 10.1109/ICONRAEeCE.2011.6129739 Publication Year: 2011, Page(s): 398 – 400. [9] S. L. Davis and M. D. Dukes, “Irrigation scheduling performance by evapotranspiration-based controllers,” Agricult. Water Manag., vol. 98, no. 1, pp. 19–28, Dec. 2010. [10]Watthanawisuth, N.; Tongrod, N.; Kerdcharoen, T. ; Tuantranont, A. “Real-time monitoring of GPS-tracking tractor based on Zigbee multi-hop mesh network” Electrical Engineering/Electronics Computer Telecommunications and Information Technology (ECTI-CON), 2010 International Conference on Publication Year: 2010, Page(s): 580 – 583. [11]HaiqingYang; Yong He “Wireless Sensor Network for Orchard Soil and Climate Monitoring” Computer Science and Information Engineering, 2009 WRI World Congress on Volume: 1 DOI: 10.1109/CSIE.2009.779 Publication Year: 2009, Page(s): 58- 62 [12]. Kim, R. G. Evans, and W. M. Iversen, “Remote sensing and control of an irrigation system using a distributed wireless sensor network,” IEEE Trans. In strum. Meas., vol. 57, no. 7, pp. 1379– 1387, Jul. 2008. [13] W. A. Jury and H. J. Vaux, “The emerging global water crisis: Managing scarcity and conflict between water users,” Adv. Agronomy, vol. 95, pp. 1–76, Sep. 2007. [14] Kar, G.a.V., H.N., “Climatic water balance, probable rainfall, rice crop water requirements and cold periods in AER 12.0 in India”, Agricultural Water Management, vol. 72, no. 1, pp. 15-32, 2005. [15] G. Yuan, Y. Luo, X. Sun, and D. Tang, “Evaluation of a crop water stress index for detecting water stress in winter wheat in the North China Plain,” Agricult. Water Manag., vol. 64, no. 1, pp. 29–40, Jan. 2004. [16] Zhang, F., Yang, M., and Ying, H., The application of GSM communication in agricultural automation, Journal of Technology for Agriculture, vol. 1, no. 1, 2004. [17] P. Doll, S. Siebert, Global modelling of irrigation water requirements. Water Resources Research, vol. 38, no. 4, 2002. . .