Prototype Wireless Sensor Network for Real-Time Measurements in Hydroponics Cultivation. Theopoulos, A., Boursianis, A., Koukounaras, A., & Samaras, T. 2018 7th International Conference on Modern Circuits and Systems Technologies (MOCAST), IEEE, 5, 2018.
Prototype Wireless Sensor Network for Real-Time Measurements in Hydroponics Cultivation [link]Website  doi  abstract   bibtex   
This paper presents a prototype wireless sensor network (WSN) for real-time measurements in hydroponics cultivation. The proposed system exploits the advantages of wireless sensor networks (low cost, high reliability, scalability) and delivers a turn-key solution in soilless indoor growing systems. It consists of wireless sensor transmitter nodes (WSTNs) and a wireless sensor receiver node (WSRN). The sensors are deployed in a pre-determined manner (structured WSN); however, the deployment of the WSTNs can easily change. The infrastructure of the prototype wireless sensor network is achieved with Enhanced ShockBurst Protocol. A customized-driven application for the process of the real-time measurements is also presented. Preliminary results validate the systems operation and accuracy compared to a calibrated handheld system.
@article{
 title = {Prototype Wireless Sensor Network for Real-Time Measurements in Hydroponics Cultivation},
 type = {article},
 year = {2018},
 keywords = {Precision agriculture,rockwool substrate,soilless growing system,wireless sensor network},
 pages = {1-4},
 websites = {https://ieeexplore.ieee.org/document/8376576/},
 month = {5},
 publisher = {IEEE},
 id = {941edea2-a243-3b33-a91f-1774da8f79e4},
 created = {2019-11-03T16:19:41.290Z},
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 profile_id = {92581d97-724a-345d-9f14-9035bd05a74d},
 last_modified = {2019-11-03T16:31:01.710Z},
 read = {false},
 starred = {false},
 authored = {true},
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 abstract = {This paper presents a prototype wireless sensor network (WSN) for real-time measurements in hydroponics cultivation. The proposed system exploits the advantages of wireless sensor networks (low cost, high reliability, scalability) and delivers a turn-key solution in soilless indoor growing systems. It consists of wireless sensor transmitter nodes (WSTNs) and a wireless sensor receiver node (WSRN). The sensors are deployed in a pre-determined manner (structured WSN); however, the deployment of the WSTNs can easily change. The infrastructure of the prototype wireless sensor network is achieved with Enhanced ShockBurst Protocol. A customized-driven application for the process of the real-time measurements is also presented. Preliminary results validate the systems operation and accuracy compared to a calibrated handheld system.},
 bibtype = {article},
 author = {Theopoulos, Argyris and Boursianis, Achilles and Koukounaras, Athanasios and Samaras, Theodoros},
 doi = {10.1109/MOCAST.2018.8376576},
 journal = {2018 7th International Conference on Modern Circuits and Systems Technologies (MOCAST)}
}
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