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Simple irrigation control system used in small-scale retention

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Warianty tytułu
PL
Prosty system sterowania nawadnianiem stosowany w małej retencji
Języki publikacji
EN
Abstrakty
EN
The article presents the concept of the device and a description of the prototype used to ensure optimal soil moisture by controlling irrigation. A broad analysis of published research in this field is presented. In the absence of a simple and inexpensive system that would provide optimal conditions for plant growth, the authors propose a solution that is able to fill the existing gap. The assumptions and requirements for the entire system and its individual elements were defined. The article contains a description of the construction of the prototype of the control device and describes the individual elements, indicating the purposefulness of the solutions used. The article ends with conclusions and tasks adopted for further development work.
PL
W artykule przedstawiono koncepcję urządzenia oraz opis prototypu zastosowanego do zapewnienia optymalnej wilgotności gleby poprzez sterowanie nawadnianiem. Przedstawiono szeroką analizę opublikowanych badań z tego zakresu. Wobec braku prostego i niedrogiego systemu, który zapewniałby optymalne warunki wzrostu roślin, autorzy proponują rozwiązanie, które jest w stanie wypełnić istniejącą lukę. Zdefiniowano założenia i wymagania dla całego systemu oraz jego poszczególnych elementów. Artykuł zawiera opis budowy prototypu urządzenia sterującego oraz opisuje poszczególne elementy, wskazując na celowość zastosowanych rozwiązań. Artykuł kończą wnioski i zadania przyjęte do dalszych prac rozwojowych.
Rocznik
Strony
1--8
Opis fizyczny
Bibliogr. 38 poz., rys., wykr.
Twórcy
  • Wojskowa Akademia Techniczna, Instytut Systemów Elektronicznych, ul. S. Kaliskiego 2, 00-908 Warszawa
  • Politechnika Warszawska, Instytut Elektrotechniki Teoretycznej i Systemów Informacyjno Pomiarowych, ul. Koszykowa 75, 00-660 Warszawa
  • Wojskowa Akademia Techniczna, Instytut Systemów Elektronicznych, ul. S. Kaliskiego 2, 00-908 Warszawa
Bibliografia
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  • [4] Pérez-Blanco C.D., Hrast-Essenfelder A., Perry Ch.. Irrigation Technology and Water Conservation: A Review of the Theory and Evidence, The University of Chicago Press Journals 2020, Volume 14, Issue 2, p.173-369.
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  • [7] Dessalegn H.T., Bolding A., Fraiture C., Livestock A., and Small-Scale irrigation Scheme Interactions as a Key Source for Sedimentation during the Irrigation Season: Four Case Studies from South-West Shoa, Ethiopia. Sustainability 2021, 13, 5745. https://doi.org/10.3390/su13105745.
  • [8] Rizqi FA et al, Empirical modelling of wetting patterns in a controlled drip irrigation system for sandy loam soils, 2019 IOP Conf. Ser.: Earth Environ. Sci. 365 012016. DOI 10.1088/1755- 1315/365/1/012016.
  • [9] Ogidan, Olugbenga Kayode, Amusan, Akinwumi Abimbola, Temikotan, Kehinde, Olusesan , Nkanga, Iniubong Essien. Optimal solar power for control of smart irrigation system, IOP conference series. Materials Science and Engineering, 2021, Vol.1088. DOI 10.1088/1757-899X/1088/1/012070.
  • [10] Favour Adenugba F., Misra A. Maskeliūnas R., Damaševičius R. Kazanavičius E., Smart irrigation system for environmental sustainability in Africa: An Internet of Everything (IoE) approach. Special Issue: Neural Computation and Applications for Sustainable Energy Systems. Mathematical Biosciences and Engineering, 2019, Volume 16, Issue 5: 5490-5503. doi: 10.3934/mbe.2019273.
  • [11] Al-Ghobari H., Fawzi S M., El Marazky M., Zakaria Dewidar A., Automated irrigation systems for wheat and tomato crops in arid regions. African Journals Online 2017. http://dx.doi.org/10.4314/wsa.v43i2.18 Available on website http://www.wrc.org.za ISSN 1816-7950 (Online) = Water SA Vol. 43 No. 2.
  • [12] Warasan W., Irrigation Control System for Drip Irrigated Tomato in Greenhouse using Timer-based Control Method and Crop Water Requirement. Journal of Science and Technology Mahasarakham University 2019, Vol.38 (2), p.187-196 ISSN: 1686-9664.
  • [13] Irwin M. R., Design of automatic control system on trickle irrigation for tomato cultivation. IOP conference series. Earth and environmental science, 2022, Vol.1038. DOI 10.1088/1755-1315/1038/1/012055.
  • [14] Chávez J.L., Pierce F.J., Elliott T.V. et al., A remote irrigation monitoring and control system (RIMCS) for continuous move systems. Part B: field testing and results. Precision Agric 11, 11–26 (2010). https://doi.org/10.1007/s11119-009-9110-8.
  • [15] Kurakula Arun Kumar, Karthikeyan Jayaraman, Irrigation control system-data gathering in WSN using IOT. International Journal of Communication Systems Publisher John Wiley & Sons, Ltd ISSN1074-5351. https://doi.org/10.1002/dac.4563.
  • [16] Li-Wei Liu, Hasmadi M., Wang Y-M.; Lin W-S., Internet of Things based Smart Irrigation Control System for Paddy Field. AGRIVITA Journal of Agricultural Science 2021. Vol 43, No 2. DOI: http://doi.org/10.17503/agrivita.v43i2.2936.
  • [17] Mohammed M., Riad K., Alqahtani N., Efficient IoT-Based Control for a Smart Subsurface Irrigation System to Enhance Irrigation Management of Date Palm. Sensors 2021, 21, 3942. https:// doi.org/10.3390/s21123942.
  • [18] Kaptein N.D., Savage M.J., Light M.E., An irrigation control system with a web-based interface for the management of Eucalyptus planting stock in a nursery. Southern Forests: a Journal of Forest Science. 81:1, 31-37, DOI: 10.2989/20702620.2018.1479922.
  • [19] Cong W., Chen K., Rong L., Univ Hangzhou Dianzi. Automatic farmland irrigation control system. Patent. CN20211193544, 2021.
  • [20] Gansu Taixin Tech Development Co Ltd; Li Huigang. Agricultural irrigation control system. Patent. CN212208063 (U), 2020.
  • [21] Cong W., Kai K., Rong L., Automatic farmland irrigation control system. Patent. Univ Hangzhou Dianzi, CN113940182 (A), 2022.
  • [22] Weisu S., Yanze S., Shandong Muyu Tianhe Wisdom Agriculture co Ltd. Wireless irrigation control system. Patent. CN111657122 (A), 2020.
  • [23] Abba S., Namkusong J., Lee J-A., Crespo M. L., Design and Performance Evaluation of a Low-Cost Autonomous Sensor Interface for a Smart IoT-Based Irrigation Monitoring and Control System. Sensors 2019, 19, 3643; doi:10.3390/s19173643.
  • [24] Saini S., Dheresh S., Malhi S.S., Tiwari A., Goyal A., Automatic irrigation control system using Internet of Things (IoT). Journal of Discrete Mathematical Sciences and Cryptography. 25:4, 879-889. DOI: 10.1080/09720529.2022.2068597.
  • [25] Duan X., Wang Y., Duan J., Design of small irrigation control system. IOP Conf. Series: Materials Science and Engineering 394 (2018) 052032 doi:10.1088/1757-899X/394/5/052032.
  • [26] Tai H., Wen N., Daoliang L.. A Wireless Low Power Valve Controller for Drip Irrigation Control Systems. Sensors & transducers. 2014, Vol.26 (Special Issue), p.7.
  • [27] Tang J., Zhou Z., Li L., Shao L., Design of wireless control system for crop precision irrigation. Desalination and water treatment 2018, Vol.121, p.65-72.
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  • [29] Kim J., Evans R. G., Iversen W. M., Remote Sensing and Control of an Irrigation System Using a Distributed Wireless Sensor Network. IEEE Transactions on instrumentation and measurement 2008, Vol. 57, No. 7, pp 1379 – 1384.
  • [30] Liu Z., Xu Q.,, An Automatic Irrigation Control System for Soilless Culture of Lettuce. Water 2018, 10, 1692; doi:10.3390/w10111692.
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  • [35] Giles H., Meteorological Measurements and Instrumentation. John Wiley & Sons, Incorporated, 2015, ISBN: 1118745795.
  • [36] Wójcik K. Field vegetable irrigation, WiOM, 2019.
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Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bbc9e770-3446-4233-b471-c53c561a13df
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