YER VA SUV RESURSLARINI INTEGRATSIYALASHGAN BOSHQARISHDA DRONLARDAN FOYDALANISH
DOI:
https://doi.org/10.5281/zenodo.20367634Keywords:
yer va suv resurslarini integratsiyalashgan boshqarish, dron texnologiyalari, UAV (uchuvchisiz uchish apparatlari), yerlarni monitoring qilish, sug‘orish jarayonlari, GIS (Geoaxborot tizimlari) texnologiyalari, yer va suv resurslaridan oqilona foydalanishAbstract
Mazkur maqolada yer va suv resurslarini integratsiyalashgan boshqarishda dron texnologiyalaridan
foydalanishning ilmiy-amaliy jihatlari yoritilgan. Tadqiqotda UAV (uchuvchisiz uchish apparatlari) yordamida qishloq
xo‘jaligi yerlarini monitoring qilish, sug‘orish jarayonlarini nazorat qilish, tuproq namligi va vegetatsiya holatini aniqlash
masalalari tahlil qilingan. Shuningdek, GIS (Geoaxborot tizimlari) texnologiyalari bilan integratsiyalashgan dron
tizimlarining resurs tejamkorligi hamda samaradorligi tahlil qilingan. Maqolada qishloq xo‘jaligida yer va suv resurslaridan
oqilona foydalanishdagi ahamiyati hamda O‘zbekiston sharoitida qo‘llash istiqbollari ko‘rib chiqilgan
References
1. Hunt E.R., Daughtry C.S.T. (2018). What good are unmanned aircraft systems for agricultural remote sensing and
precision agriculture? International Journal of Remote Sensing, 39(15-16), 5345–5376.
2. Zhang C., Kovacs J.M. (2012). The application of small unmanned aerial systems for precision agriculture: a review.
Precision Agriculture, 13(6), 693–712.
3. Berni J.A.J., Zarco-Tejada P.J., Suarez L., Fereres E. (2009). Thermal and narrowband multispectral remote sensing
for vegetation monitoring from an unmanned aerial vehicle. IEEE Transactions on Geoscience and Remote Sensing,
47(3), 722–738.
4. Matkarimov Mansur, Sharipov Kamil. Water use and Water Consumption in Agriculture Implement Procedure.
International Journal of Biological Engineering and Agriculture 2026, 5(2), 10-15.
5. Matkarimov Mansur. Markaziy Osiyoda transchegaraviy suv resurslarini boshqarish va adolatli taqsimlashning nazariyhuquqiy
asoslari. Muhandislik va iqtisodiyot jurnali, 2026-yil, mart. № 3-son
6. Mulla D.J. (2013). Twenty five years of remote sensing in precision agriculture: Key advances and remaining knowledge
gaps. Biosystems Engineering, 114(4), 358–371.
7. Colomina I., Molina P. (2014). Unmanned aerial systems for photogrammetry and remote sensing: A review. ISPRS
Journal of Photogrammetry and Remote Sensing, 92, 79–97.
8. Matkarimov Mansur. O‘zbekistonda suvdan foydalanishning huquqiy asoslari va suvga doir munosabatlar. Iqtisodiy
taraqqiyot va tahlil jurnali, 2026 yil fevral, 2.
9. FAO. (2021). The State of the World’s Land and Water Resources for Food and Agriculture. Rome: Food and Agriculture
Organization.
10. ESRI. (2022). GIS for Agriculture. Environmental Systems Research Institute Publications.
11. QGIS Development Team. (2023). QGIS Geographic Information System User Guide. Open Source Geospatial
Foundation.
12. Google Earth Engine Team. (2022). Earth Engine Data Catalog and Remote Sensing Applications Documentation.
13. Matkarimov Mansur. Qishloq xo‘jaligida suvdan foydalanish va suv iste’moli tartibini amalga oshirish. Yashil iqtisodiyot
va taraqqiyot jurnali, 2026 yil, fevral 2-son.
14. SenseFly. (2021). eBee X Technical Specifications and Agricultural Mapping Applications. AgEagle Aerial Systems.
15. Parrot. (2020). Bluegrass Fields: Advanced Drone Solutions for Precision Agriculture. Parrot Drone SAS.
16. Gebbers R., Adamchuk V.I. (2010). Precision agriculture and food security. Science, 327(5967), 828–831.
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