WIRELESS SENSORS APPLICATION FOR CONTROLLING OF CROP FIELD PARAMETERS

Authors

  • Joshi P P M E Student, Department of Electronics and Telecommunication Engineering, PCT’s College of Engineering, Osmanabad, Maharashtra, India-413501
  • Kanade S S Professor, Department of Electronics and Telecommunication Engineering, TPCT’s College of Engineering, Osmanabad, Maharashtra, India-413501
  • Joshi S P Asso.Prof. Department of Mechanical Engineering., JSPM’s ICOER, Wagholi, Pune. Maharashtra, India – 412207

Keywords:

Wireless sensor networks, Precision agriculture, Crop monitoring, Environment monitoring, Communication technologies

Abstract

Present day Soil monitoring systems make use of PC based servers and it is needed to interface the appliances to these PCs for the purpose of monitoring and controlling the governed parameters. Among the different technologies for crop monitoring, Wireless Sensor Networks (WSNs) are recognized as a powerful one to collect and process data in the agricultural domain with low-cost and low-energy consumption. Agriculture and farming is one of the industries which have recently diverted their attention to WSN, seeking this cost effective technology to improve its production and enhance agriculture yield standard. The proposed system is hardware as well as software based which will automatically control the parameters of the soil. Further the system is expected to determine the environmental value and then after classifying, it needs to decide which action to be performed for controlling. The action to be performed for controlling the environment depends on the threshold value.

References

Oliveira, L. M., & Rodrigues, J. J. Wireless Sensor Networks: A Survey on Environmental Monitoring. JCM, 6(2), 2011, pp.143-151.

Wang, N., Zhang, N., & Wang, M. Wireless sensors in agriculture and food industry- Recent development and future perspective. Computers and electronics in agriculture, 50(1), 2006, pp.1-14.

Srbinovska, M., Gavrovski, C., Dimcev, V., Krkoleva, A., & Borozan, V. Environmental parameters monitoring in precision agriculture using wireless sensor networks. Journal of Cleaner Production, 88(1), 2015, pp.297-307.

Akyildiz, I. F., Su, W., Sankarasubramaniam, Y., & Cayirci, E. A survey on sensor networks. IEEE Communications magazine, 40(8), 2002, pp.102-114.

Abbasi, A. Z., Islam, N., & Shaikh, Z. A. A review of wireless sensors and networks applications in agriculture. Computer Standards & Interfaces, 3(2), 2014, pp.263-270.

Kim, Y. D., Yang, Y. M., Kang, W. S., & Kim, D. K. On the design of beacon based wireless sensor network for agricultural emergency monitoring systems. Computer standards & interfaces, 36(2), 2014, pp.288-299.

Keshtgary, M., & Deljoo, A. An efficient wireless sensor network for precision agriculture. Canadian Journal on Multimedia and Wireless Networks, 3(1), 2012, pp.1-5.

Benghanem, M.: RETRACTED. A low cost wireless data acquisition system for weather station monitoring. Renewable Energy, 35(4), 2010, pp.862-872.

Manikandan, K., & Rajaram, S. Automatic Monitoring System for a Precision Agriculture Based on Wireless Sensor Networks. International Journal of Science, Engineering and Computer Technology, 6(6), 2016, pp.208.

Ferentinos, K. P., Katsoulas, N., Tzounis, A., Bartzanas, T., & Kittas, C. Wireless sensor networks for greenhouse climate and plant condition assessment. Biosystems Engineering, 153(1), 2017, pp.70-8.

Bogue, R. Sensors key to advances in precision agriculture. Sensor Review. 37(1), 2017, pp.1.

Anisi, M. H., Abdul-Salaam, G., & Abdullah, A. H. A survey of wireless sensor network approaches and their energy consumption for monitoring farm fields in precision agriculture. Precision Agriculture, 16(2), 2015, pp.216-238.

Mulla, D. J. Twenty five years of remote sensing in precision agriculture: Key advances and remaining knowledge gaps. Biosystems engineering, 114(4), 2013, pp.358-371.

Awasthi, A., & Reddy, S. R. N. Monitoring for precision agriculture using wireless sensor network-a review. Global Journal of Computer Science and Technology, 13(7), 2013, pp.1.

Sakthipriya, N. An effective method for crop monitoring using wireless sensor network. Middle-East Journal of Scientific Research, 20(9), 2014, pp.1127-1132.

El-Kader, S. M. A., & El-Basioni, B. M. M. Precision farming solution in Egypt using the wireless sensor network technology. Egyptian Informatics Journal, 14(3), 2013, pp.221-233.

Brinis, N., & Saidane, L. A. Context Aware Wireless Sensor Network Suitable for Precision Agriculture. Wireless Sensor Network, 8(1), 2016, pp.1.

Zografos, A. Wireless Sensor-based Agricultural Monitoring System (2014).

Silva, A. R., & Vuran, M. C. Integration of center pivot systems with wireless underground sensor networks for autonomous precision agriculture. In Proceedings of the 1st ACM/IEEE International Conference on Cyber-Physical Systems, 2010, pp.79-88.

Kang, I., & Poovendran, R. Maximizing static network lifetime of wireless broadcast ad hoc networks. In Communications, IEEE International Conference on, 2003, pp.2256-2261.

Pereira, D. P., Dias, W. R. A., de Lima Braga, M., da Silva Barreto, R., Figueiredo, C. M. S., & Brilhante, V. Model to integration of RFID into wireless sensor network for tracking and monitoring animals. In Computational Science and Engineering. 11th IEEE International Conference on, pp.125-131.

Fazackerley, S., & Lawrence, R. Reducing turfgrass water consumption using sensor nodes and an adaptive irrigation controller. In Sensors Applications Symposium (SAS), 2010, pp.90-94.

Additional Files

Published

15-06-2017

How to Cite

Joshi P P, Kanade S S, & Joshi S P. (2017). WIRELESS SENSORS APPLICATION FOR CONTROLLING OF CROP FIELD PARAMETERS. International Education and Research Journal (IERJ), 3(6). Retrieved from https://ierj.in/journal/index.php/ierj/article/view/1098