Research and Applications: Emerging Technologies (e-ISSn:3048-4766)

This study looks at how distant sensor association (WSN) applications in cultivating are analyzed in the continuous educational composition. In exactness agribusiness (PA), various limits including soil type and temperature vary decidedly from one region to the following; consequently, any water framework structure ought to be versatile to acclimate to such assortments. Ready to move water framework controllers are ordinarily expensive and not practical in supervising meager water resources. Specifically, the paper describes an IMS which was set up in Manja Township, city of Blantyre. Deployment of IMS in rural areas of developing countries like Malawi is a challenge as grid power is scarce. The chief outcomes from the watchword co-occasion batching moreover, the positive examination frame that WSN is a key enabling impact for exactness cultivation. WSN research moreover bases on the gig of various advances, for instance, the Internet of Things, disseminated processing, man-made thinking, and computerized raised vehicles in supporting a couple of cultivation works out, including splendid water framework and soil the leaders.

Chen, N., Zhang, X., & Wang, C. (2015). Integrated open geospatial web service enabled cyber-physical information infrastructure for precision agriculture monitoring. Computers and Electronics in Agriculture, 111, 78-91.

Misra, S., Krishna, P. V., Saritha, V., Agarwal, H., Shu, L., & Obaidat, M. S. (2013). Efficient medium access control for cyber–physical systems with heterogeneous networks. IEEE systems journal, 9(1), 22-30.

Goumopoulos, C., O’Flynn, B., & Kameas, A. (2014). Automated zone-specific irrigation with wireless sensor/actuator network and adaptable decision support. Computers and electronics in agriculture, 105, 20-33.

Amaral, J. P., Oliveira, L. M., Rodrigues, J. J., Han, G., & Shu, L. (2014, June). Policy and network-based intrusion detection system for IPv6-enabled wireless sensor networks. In 2014 IEEE international conference on communications (ICC) (pp. 1796-1801). IEEE.

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Ullah, S., Rodrigues, J. J., Khan, F. A., Verikoukis, C., & Zhu, Z. (2014). Protocols and architectures for next-generation wireless sensor networks. International Journal of Distributed Sensor Networks, 10(12), 705470.

Misra, S., Krishna, P. V., Kalaiselvan, K., Saritha, V., & Obaidat, M. S. (2014). Learning automata-based QoS framework for cloud IaaS. IEEE Transactions on Network and Service Management, 11(1), 15-24.

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

Balendonck, J., Hemming, J., Van Tuijl, B. A. J., Incrocci, L., Pardossi, A., & Marzialetti, P. (2008). Sensors and wireless sensor networks for irrigation management under deficit conditions (FLOW-AID).

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