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A Smart Sensor Grid to Enhance Irrigation Techniques in Jordan Using a Novel Event-Based Routing Protocol

Due to rapid changes in climatic conditions worldwide, environmental monitoring has become one of the greatest concerns in the last few years. With the advancement in wireless sensing technology, it is now possible to monitor and track fine-grained changes in harsh outdoor environments. Wireless sen...

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Published in:	Multimodal technologies and interaction 2017-06, Vol.1 (2), p.9
Main Authors:	Rantisi, Maher, Mapp, Glenford, Gemikonakli, Orhan
Format:	Article
Language:	English
Subjects:	Algorithms Automatic meter reading Climate change Communication Data transmission Design Environmental monitoring International conferences Irrigation Literature reviews Nodes Power management Protocol (computers) Rain rainfall reactivity reliability Remote sensors Researchers Science Sensors Smart grid Smart sensors Soil moisture Spatial data Traffic Water resources Wireless networks Wireless sensor networks
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creator	Rantisi, Maher Mapp, Glenford Gemikonakli, Orhan
description	Due to rapid changes in climatic conditions worldwide, environmental monitoring has become one of the greatest concerns in the last few years. With the advancement in wireless sensing technology, it is now possible to monitor and track fine-grained changes in harsh outdoor environments. Wireless sensor networks (WSN) provide very high quality and accurate analysis for monitoring of both spatial and temporal data, thus providing the opportunity to monitor harsh outdoor environments. However, to deploy and maintain a WSN in such harsh environments is a great challenge for researchers and scientists. Several routing protocols exist for data dissemination and power management but they suffer from various disadvantages. In our case study, there are very limited water resources in the Middle East, hence soil moisture measurements must be taken into account to manage irrigation and аgriculturаl projects. In order to meet these challenges, a Smart Grid that supports a robust, reactive, event-based routing protocol is developed using Ad hoc On-Demand Multipath Distance Vector (AOMDV) as a starting point. A prototype WSN network of 5 nodes is built and a detailed simulation of 30 nodes is also developed to test the scalability of the new system.
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subjects	Algorithms Automatic meter reading Climate change Communication Data transmission Design Environmental monitoring International conferences Irrigation Literature reviews Nodes Power management Protocol (computers) Rain rainfall reactivity reliability Remote sensors Researchers Science Sensors Smart grid Smart sensors Soil moisture Spatial data Traffic Water resources Wireless networks Wireless sensor networks
title	A Smart Sensor Grid to Enhance Irrigation Techniques in Jordan Using a Novel Event-Based Routing Protocol
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