Advancing Rational Exploitation of Water Irrigation Using 5G-IoT Capabilities: The AREThOU5A Project. Boursianis, A., D., Papadopoulou, M., S., Damantoulakis, P., Karampatea, A., Doanis, P., Geourgoulas, D., Skoufa, A., Valavanis, D., Apostolidis, C., Babas, D., G., Baltzis, K., B., Kaifas, T., N., Siozios, K., Siskos, S., Samaras, T., Siakavara, K., Nikolaidis, S., Goudos, S., K., Liopa-Tsakalidi, A., Barouchas, P., Kasimis, I., Kalamaras, G., Merkouris, D., Perrakis, G., Tsirogiannis, C., Gotsis, A., & Maliatsos, K. In 2019 IEEE 29th International Symposium on Power and Timing Modeling, Optimization and Simulation, PATMOS 2019, pages 127-132, 2019. doi abstract bibtex Water scarcity and desertification are considered to be among the greatest challenges of humanity over the coming decades. Worldwide, agriculture accounts to 69% of total water usage, while industry accounts for 23%, and urban use to 8%. In Greece, a rural development model and poor farming practices have resulted in an overwhelming 83% of total water consumption to be directed to farming uses. Furthermore, excessive use of water in agriculture combined with existing pesticides and fertilizers usage levels creates exponential problems in the water cycle in Greece. Taking into account the above challenges, the AREThOU5A Project aims to exploit the state-of-the-art technologies and, in particular, the emerging developments in the field of Internet of Things (IoT) as a means to promote rational use of water resources in agriculture. In particular, AREThOU5A Project aims at accelerating penetration of low-power wide-access (LPWA) technologies through a series of research and innovation actions focusing on the design, development, operation and commercial exploitation of relevant hardware/software IoT applications. Preliminary results of the AREThOU5A Project are depicted and future remarks are outlined.
@inproceedings{
title = {Advancing Rational Exploitation of Water Irrigation Using 5G-IoT Capabilities: The AREThOU5A Project},
type = {inproceedings},
year = {2019},
keywords = {Internet of Things,Low-power wide-access technology,RF energy harvesting,Smart Agriculture},
pages = {127-132},
id = {53ca9c71-16e3-3b0b-b916-4fe3bb33a9ab},
created = {2020-02-29T16:57:45.444Z},
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last_modified = {2023-02-11T18:54:05.276Z},
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citation_key = {Boursianis2019},
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abstract = {Water scarcity and desertification are considered to be among the greatest challenges of humanity over the coming decades. Worldwide, agriculture accounts to 69% of total water usage, while industry accounts for 23%, and urban use to 8%. In Greece, a rural development model and poor farming practices have resulted in an overwhelming 83% of total water consumption to be directed to farming uses. Furthermore, excessive use of water in agriculture combined with existing pesticides and fertilizers usage levels creates exponential problems in the water cycle in Greece. Taking into account the above challenges, the AREThOU5A Project aims to exploit the state-of-the-art technologies and, in particular, the emerging developments in the field of Internet of Things (IoT) as a means to promote rational use of water resources in agriculture. In particular, AREThOU5A Project aims at accelerating penetration of low-power wide-access (LPWA) technologies through a series of research and innovation actions focusing on the design, development, operation and commercial exploitation of relevant hardware/software IoT applications. Preliminary results of the AREThOU5A Project are depicted and future remarks are outlined.},
bibtype = {inproceedings},
author = {Boursianis, A. D. and Papadopoulou, M. S. and Damantoulakis, P. and Karampatea, A. and Doanis, P. and Geourgoulas, D. and Skoufa, A. and Valavanis, D. and Apostolidis, C. and Babas, D. G. and Baltzis, K. B. and Kaifas, T. N. and Siozios, K. and Siskos, S. and Samaras, T. and Siakavara, K. and Nikolaidis, S. and Goudos, S. K. and Liopa-Tsakalidi, A. and Barouchas, P. and Kasimis, I. and Kalamaras, G. and Merkouris, D. and Perrakis, G. and Tsirogiannis, C. and Gotsis, A. and Maliatsos, K.},
doi = {10.1109/PATMOS.2019.8862146},
booktitle = {2019 IEEE 29th International Symposium on Power and Timing Modeling, Optimization and Simulation, PATMOS 2019}
}
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