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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

165 related items for PubMed ID: 36560160

  • 1.
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  • 2. A wireless soil moisture sensor powered by solar energy.
    Jiang M, Lv M, Deng Z, Zhai G.
    PLoS One; 2017; 12(9):e0184125. PubMed ID: 28886067
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  • 6. Estimation of Soil Moisture from Optical and Thermal Remote Sensing: A Review.
    Zhang D, Zhou G.
    Sensors (Basel); 2016 Aug 17; 16(8):. PubMed ID: 27548168
    [Abstract] [Full Text] [Related]

  • 7. Research on Quantitative Evaluation of Remote Sensing and Statistics Based on Wireless Sensors and Farmland Soil Nutrient Variability.
    Ji W, Liu Y.
    Comput Intell Neurosci; 2022 Aug 17; 2022():3646264. PubMed ID: 35096040
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  • 8. A wireless sensor network-based ubiquitous paprika growth management system.
    Hwang J, Shin C, Yoe H.
    Sensors (Basel); 2010 Aug 17; 10(12):11566-89. PubMed ID: 22163543
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  • 9. Machine learning based estimation of field-scale daily, high resolution, multi-depth soil moisture for the Western and Midwestern United States.
    Xia Y, Watts JD, Machmuller MB, Sanderman J.
    PeerJ; 2022 Aug 17; 10():e14275. PubMed ID: 36353602
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  • 10. Soil Sensors and Plant Wearables for Smart and Precision Agriculture.
    Yin H, Cao Y, Marelli B, Zeng X, Mason AJ, Cao C.
    Adv Mater; 2021 May 17; 33(20):e2007764. PubMed ID: 33829545
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  • 11. Optimal Deployment of WSN Nodes for Crop Monitoring Based on Geostatistical Interpolations.
    Gutierrez EA, Mondragon IF, Colorado JD, Mendez Ch D.
    Plants (Basel); 2022 Jun 21; 11(13):. PubMed ID: 35807587
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  • 12. An Extended Kriging Method to Interpolate Near-Surface Soil Moisture Data Measured by Wireless Sensor Networks.
    Zhang J, Li X, Yang R, Liu Q, Zhao L, Dou B.
    Sensors (Basel); 2017 Jun 15; 17(6):. PubMed ID: 28617351
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  • 13. Multiparameter optimization system with DCNN in precision agriculture for advanced irrigation planning and scheduling based on soil moisture estimation.
    Kumar P, Udayakumar A, Anbarasa Kumar A, Senthamarai Kannan K, Krishnan N.
    Environ Monit Assess; 2022 Oct 22; 195(1):13. PubMed ID: 36271063
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  • 14. Study on the context-aware middleware for ubiquitous greenhouses using wireless sensor networks.
    Hwang J, Yoe H.
    Sensors (Basel); 2011 Oct 22; 11(5):4539-61. PubMed ID: 22163861
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  • 15. Energy-Efficient Wireless Communication Strategy for Precision Agriculture Irrigation Control.
    Lozoya C, Favela-Contreras A, Aguilar-Gonzalez A, Félix-Herrán LC, Orona L.
    Sensors (Basel); 2021 Aug 18; 21(16):. PubMed ID: 34450983
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  • 16. Leveraging LoRaWAN Technology for Precision Agriculture in Greenhouses.
    Singh RK, Aernouts M, De Meyer M, Weyn M, Berkvens R.
    Sensors (Basel); 2020 Mar 25; 20(7):. PubMed ID: 32218353
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  • 17. Basin Scale Soil Moisture Estimation with Grid SWAT and LESTKF Based on WSN.
    Zhang Y, Hou J, Huang C.
    Sensors (Basel); 2023 Dec 20; 24(1):. PubMed ID: 38202901
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  • 18. Downscaling satellite soil moisture using geomorphometry and machine learning.
    Guevara M, Vargas R.
    PLoS One; 2019 Dec 20; 14(9):e0219639. PubMed ID: 31550248
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  • 19. Underground Wireless Data Transmission Using 433-MHz LoRa for Agriculture.
    Hardie M, Hoyle D.
    Sensors (Basel); 2019 Sep 29; 19(19):. PubMed ID: 31569493
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  • 20. Remote sensing and GIS techniques for assessment of the soil water content in order to improve agricultural practice and reduce the negative impact on groundwater: case study, agricultural area Ştefan cel Mare, Călăraşi County.
    Tevi G, Tevi A.
    Water Sci Technol; 2012 Sep 29; 66(3):580-7. PubMed ID: 22744689
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