Agricultural Environmental Monitoring: A WSN Perspective

Mushtaque Ahmed Rahu, Pardeep Kumar, Sarand Karim, Azeem Ayaz Mirani

Abstract


In this article, we develop a system based on WSN platform to measure the data of crop parameters for the agriculturists aimed to enhance the quality and quality of the crops. The proposed system will minimize the exhaustive field visits of the farmers. This system will facilitate the precision agriculture by measuring three most key parameters (temperature, humidity and light) of the crops. The proposed system consists of IRIS motes MDA100CB data board, and MIB520 USB interface board. These are considered as sink and sensor nodes respectively. TinyOS is used to develop the code for WSN nodes, and GUI device is composed in Microsoft Visual Studio-2008 for displaying the measured data and stored in data base accordingly. ZigBee IEEE 802.15.4 and direct topology are utilized for the correspondence of sensor nodes with the base station.

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References


Singh, B and Harender, D. (2015), Intelligent Monitoring & Controlling of Agricultural Field Parameters Using Zigbee, International Journal in IT and Engineering, ISSN: 2321-1776, Vol.03 Issue-01.

Chaudhari, M.S, Jaiswal, R, Birade, C. and Bhapkar, V. (2015), Wireless Sensor Network as a Tool for Supporting Agriculture in the Precision Irrigation System International Journal of Advanced Research in Computer and Communication Engineering Vol. 4, Issue 2.

Shivaraj, B., and Natarj Urs U.D., (2015), Wireless Sensor Networks for Environmental Monitoring: A Theoretical Review Journal of electronics and computer science, ISSN- 3967-0867.

Zhang, Z., Yu, X., Wu, P. and Han, W. (2015), Survey on Water-saving Agricultural Internet of Things based on Wireless Sensor Network International Journal of Control and Automation Vol. 8, No. 4, pp. 229-240.

M Monisha, TG Dhanalakshmi. (2015), A Review on Precision Agriculture and Its Farming Methods Research Journal of Pharmaceutical, Biological and Chemical Sciences, RJPBCS 6(3), ISSN: 0975-8585, Page No. 1142.

Korake, PM and Bhanarkar, MK. (2015), Humidity and Temperature Measurement WSN node for Grapes Environmental Condition Monitoring European Journal of Advances in Engineering and Technology, ISSN: 2394 - 658X, 2(5): page No/72-76.

Lachure, S, Bhagat, A and Lachure, J. (2015), Review on Precision Agriculture using Wireless Sensor Network International Journal of Applied Engineering Research, ISSN 0973-4562 Vol. 10 No.20.

Bansode, S, Raut, C, Meshram, P and V.R, P. (2015), An Automatic Identification of Agriculture Pest Insects and Pesticide Controlling International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE), ISSN 2349-7815 , Vol. 2, Issue 2, pp:21-28.

Xu, G, Shen, W and Wang, X. (2014), Applications of Wireless Sensor Networks in Marine Environment Monitoring: A Survey ISSN 1424-8220.

Kumar, K.A, Lingam, P.G and Rao, K.M. (2014), Wireless Sensor Based Remote Monitoring System For Fluoride Affected Areas Using GPRS and GIS, International Journal of Computer and Technology (IJCTT) volume 7 number 4, ISSN: 2231-2803, pp: 178-182.

Chaitanya, N.K, Kumar, G.A and Kumari, P.A. (2013), Zigbee based Wireless Sensing Platform for Monitoring Agriculture Environment International Journal of Computer Applications (0975 8887), Volume 83 No.11.

Mishra, D.P and Kumar, R. (2013), Wireless sensor network design for paddy Crop monitoring of chhattisgarh International Journal of Advanced Engineering Research and Studies, E-ISSN22498974, 107-111.

Satyanarayana, G.V and Mazaruddin, SD. (2013), Wireless Sensor Based Remote Monitoring System for Agriculture Using ZigBee and GPS, Conference On Advances in Communication and Control Systems (CAC2S 2013) pp: 110-114.

Vijayalakshmi, A and Ranjan, P.V. (2013), Code Strategy Algorithm For Online Power Quality Monitoring Of Electrical Equipment Using WSN Under Tiny-Os Environment, Journal of Theoretical and Applied Information Technology, Vol. 57 No.3, pp:465-473.

Awasthi, A and Reddy, S.R.N. (2013), Monitoring for Precision Agriculture Using Wireless Sensor Network-A Review, Global Journal of Computer Science and Technology Network, Web & Security Volume 13 Issue 7 Version 1.0.

YU, X, WU, P, Wang, N, Han, W and Zhang, Z. (2012), Survey on Wireless Sensor Networks Agricultural Environment Information Monitoring, Journal of Computational Information Systems 8: 19, pp: 79197926.

Murillo, F.A, Pena, M and M, D. (2012), Applications of WSN in Health and Agriculture, IEEE Communications Conference (COLCOM) Columbian, pp: 1-6.

Mampentzidou, I., Karapistoli, E., and Economides, A.A., (2012), Basic guidelines for deploying wireless sensor networks in agriculture, in Ultra-Modern Telecommunications and Control Systems and Workshops (ICUMT), 2012 4th International Congress on. IEEE, 2012, pp. 864869.

Liakos, T.A, Perlepes, V, Fountas, L and T, S.G. (2011), Wireless Sensor Network for Precision Agriculture, IEEE Panhellenic Conference on Informatics, pp: 397-402.

Jiber, Y, Hamid, H and Ahmed, K. (2011), Precision agriculture monitoring framework based on WSN. In IWCMC, pages 2015-2020. IEEE

Valente, J, Sanz, D, Baarientos, A, Cerro, J.D, Ribeiro, A and Rossi, C. (2011), An Air-Ground Wireless Sensor Network for Crop Monitoring, ISSN 1424-8220, pp: 6088-6108.

[22] Li, S., Cui, J. and Li, Z. (2011), Wireless Sensor Network for Precise Agriculture Monitoring, Fourth International Conference on Intelligent Computation Technology and Automation, pp: 307-310.

Atmga8 Microcontroller Datasheet, http://www.atmel.com/Images/Atmel-2486-8-bit-AVR-microcontroller-ATmega8 L datasheet.pdf

MIB520CB Datasheet,http://www.memsic.com/support/documents/wireless sensor-networks /category/7-datasheets.html?download=144%3Amib520cb

IRIS Mote Datasheet, http://www.dinesgroup.org/projects/images/pdf files /iris datasheet.pdf

MDA100CBDatasheet,http://www.memsic.com/support/documentation/wireless-sensor-networks/category/7datasheets.html?download=141%Amda 100

DHT11 Sensor Datasheet, Temperature and Humidity Module, http://www.micropik.com/PDF/dht11.pdf/

Tiny OS, an open-source operating system for wireless embedded sensor networks, http://www.tinyos.net/

Technical Guide. Agriculture 2.0 document version: v4.0 02/2013. Libelium communications Distribuidas S.L. http://www.libelium.com, 2013.

Jawad, H, M., Nordin, R., Gharghan, S, K., et al. (2017), “Energy-efficient wireless sensor networks for precision agriculture: A review” Sensors 2017, 17, 1781; doi:10.3390/s17081781. www.mdpi.com/journal/sensors.

Rubala,J,I.,Anitha, D., (2017), “Agriculture field monitoring using wireless sensor networks to improving crop production” International Journal of Engineering Science and Computing. Volume 7 Issue No.3.

Jaladi, A,R., Khithani, K., Pawar,P., et al. (2017), “Environmental Monitoring Using Wireless Sensor Networks(WSN) based on IOT” International Research Journal of Engineering and Technology (IRJET), e-ISSN: 2395 -0056, p-ISSN: 2395-0072, Volume: 04 Issue: 01.

Ali, A., Ming, Y., Chakraborty,S., Iram, S., (2017) “A Comprehensive Survey on Real-Time Applications

of WSN” www.mdpi.com/journal/futureinternet.


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