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COMMUNICATION DISTANCE OF JENNIC WIRELESS NODES IN THE SMALL AREA
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References24
Murthy C., S. and Manoj, BS. Ad hoc Wireless Networks: Architectures and Protocols. Upper Saddle River: Pren tice-Hall, 857 p. ISBN 01-314-7023-X, 2004.
Asín, A., Gascón, D. 50 Sensor Applications for Smarter World. Libelium. Spain, 2015.
Liu J., H. et al. An Air Quality Monitoring System for Urban Areas Based on the Technology of Wireless Sensor Networks. International Journal on Smart Sensing and Intelligent Systems. (5)1: 191-214, 2012.
Jennic JN 5148 EK010 Evaluation Kit: User Guide. NXP Laboratories. Netherlands, 2011.
Jennic JN -UG-3041 JeNet User Guide. NXP Laboratories. Netherlands, 2011.
Bielsa, A. Smart Agriculture project in Galicia to monitor vineyards with Waspmote. Libelium, Spain, 2012.
Damas, M. et al. HidroBus® system: fieldbus for integrated management of extensive areas of irrigated land. Microprocessors and Microsystems, 25:3, 177 – 184, 2001.
Yunseop, K. et al. Remote Sensing and Control of an Irrigation System Using a Distributed Wireless Sensor Network. Instrumentation and Measurement, IEEE Transactions on , 5 7:7, 1379-1387, 2008.
El-Kader S., M., A. et al. Precision farming solution in Egypt using the wireless sensor network technology. Egyptian Informatics Journal, 14:3, 221-233, 2013.
Majone, B. et al., Wireless sensor network deployment for monitoring soil moisture dznamics at the field scale. Procedia Environmental Sciences, 19, 426- 435, 2013. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific GeoConferences SGEM2015
di Palma, D. et al. Distributed Monitoring Systems for Agriculture based on Wireless Sensor Network Technology. International Journal on Advances in Networks and Services. 3:1-2, 18 -28, 2010.
Bogena H., R. et al. Potential of Wireless Sensor Networks for Measuring Soil Water Content Variability. Vadose Zone Journal. (9)4: 1002–1013, 2013. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Murthy C., S. and Manoj, BS. Ad hoc Wireless Networks: Architectures and Protocols. Upper Saddle River: Pren tice-Hall, 857 p. ISBN 01-314-7023-X, 2004.
Asín, A., Gascón, D. 50 Sensor Applications for Smarter World. Libelium. Spain, 2015.
Liu J., H. et al. An Air Quality Monitoring System for Urban Areas Based on the Technology of Wireless Sensor Networks. International Journal on Smart Sensing and Intelligent Systems. (5)1: 191-214, 2012.
Jennic JN 5148 EK010 Evaluation Kit: User Guide. NXP Laboratories. Netherlands, 2011.
Jennic JN -UG-3041 JeNet User Guide. NXP Laboratories. Netherlands, 2011.
Bielsa, A. Smart Agriculture project in Galicia to monitor vineyards with Waspmote. Libelium, Spain, 2012.
Damas, M. et al. HidroBus® system: fieldbus for integrated management of extensive areas of irrigated land. Microprocessors and Microsystems, 25:3, 177 – 184, 2001.
Yunseop, K. et al. Remote Sensing and Control of an Irrigation System Using a Distributed Wireless Sensor Network. Instrumentation and Measurement, IEEE Transactions on , 5 7:7, 1379-1387, 2008.
El-Kader S., M., A. et al. Precision farming solution in Egypt using the wireless sensor network technology. Egyptian Informatics Journal, 14:3, 221-233, 2013.
Majone, B. et al., Wireless sensor network deployment for monitoring soil moisture dznamics at the field scale. Procedia Environmental Sciences, 19, 426- 435, 2013. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific GeoConferences SGEM2015
di Palma, D. et al. Distributed Monitoring Systems for Agriculture based on Wireless Sensor Network Technology. International Journal on Advances in Networks and Services. 3:1-2, 18 -28, 2010.
Bogena H., R. et al. Potential of Wireless Sensor Networks for Measuring Soil Water Content Variability. Vadose Zone Journal. (9)4: 1002–1013, 2013. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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