O‘ZBEKISTON AGRAR SOHASIDA SAMARADORLIKNI OSHIRISH OMILI SIFATIDA PAST BALANDLIK IQTISODIYOTI
##semicolon##
https://doi.org/10.5281/zenodo.18556407##semicolon##
past balandlik iqtisodiyoti, uchuvchisiz aviatsiya tizimlari, qishloq xo‘jaligi, texnologiyani qabul qilish, operatsion samaradorlik, omonlik tahlili (survival analysis), strukturali tenglamalar modeli.##article.abstract##
Mazkur tadqiqot O‘zbekiston qishloq xo‘jaligi sohasida past balandlik iqtisodiyoti (uchuvchisiz aviatsiya
tizimlari va ularga asoslangan raqamli xizmatlar)ni joriy etish jarayonlari hamda ularning ishlab chiqarish samaradorligiga
ta’sirini empirik jihatdan baholashga qaratilgan. Tadqiqotda past balandlik iqtisodiyoti (PBI) texnologiyalarining qabul
qilinishi, qabul qilish vaqtidagi farqlar va operatsion (ishlab chiqarishni tashkil etishga oid) samaradorlik vositachiligi
o‘rtasidagi o‘zaro bog‘liqlik tahlil qilindi. Empirik tahlil 2023–2024-yillarda O‘zbekistonning Toshkent va Samarqand
viloyatlarida faoliyat yuritayotgan qishloq xo‘jaligi ishlab chiqaruvchilari orasida o‘tkazilgan so‘rovnoma va intervyu
ma’lumotlari asosida amalga oshirildi. Qabul qilish dinamikasini baholashda parametrik omonlik (survival) modellari,
samaradorlik mexanizmlarini aniqlashda esa strukturali tenglamalar modeli qo‘llanildi. Tadqiqotda PBI texnologiyalarining
qabul qilinishi, qabul qilish vaqtidagi farqlar hamda operatsion samaradorlikning vositachilik roli o‘rtasidagi o‘zaro bog‘liqlik
tahlil qilindi. Shuningdek, raqamli tayyorgarlik darajasi va operatsion ko‘lam texnologiyani qabul qilish tezligi hamda
iqtisodiy natijadorlikka sezilarli ta’sir ko‘rsatishi aniqlandi. Olingan xulosalar PBI texnologiyalarini qishloq xo‘jaligida
bosqichma-bosqich joriy etish, shuningdek, farqlangan institutsional qo‘llab-quvvatlash mexanizmlarini ishlab chiqish
zarurligini asoslaydi.
##submission.citations##
1. Mirzambetov A. (2025). UNDP strengthens agricultural service system for farmers in Aral Sea region. United Nations
Development Programme. https://www.undp.org/uzbekistan/press-releases/undp-strengthens-agricultural-servicesystem-
farmers-aral-sea-region
2. Yang J. (2024). A case study on the development and application of low-altitude economy in agriculture in China:
Based on demand-supply-environment perspective. Francis Press. https://francis-press.com/papers/16989
3. Radoglou-Grammatikis P., Sarigiannidis P., Lagkas T., et al. (2020). A compilation of UAV applications for precision
agriculture. Computer Networks, 172, 107148
4. Junwei1 Zh., Jianju Du. (2025). From traditional agriculture to smart agriculture: The enabling mechanism and
spatiotemporal effect of the low-altitude economy. Journal of China Agricultural University. https://qks.sufe.edu.cn/J/
CDXB/Article/Details/A0XJQfg5cx-wfOm-Sl1Z-Am21-2OSd3qD9Kz1H
5. Wen J., Wang Z. (2025). How does the low-altitude economy drive total factor productivity? Evidence from firm-level
data. SCILTP. https://www.sciltp.com/journals/eem/articles/2510001667
6. Liu X., Song D., Xu Z. (2024). Building a new engine of new quality productive forces development with low altitude
economy. Journal of Beijing University of Aeronautics and Astronautics (Social Science Edition), 1-12
7. Тeshaboyev O., Rasulov S. (2025). Popularizing the use of unmanned aerial vehicles in agriculture in Uzbekistan.
Economics and Rural Sociology. https://researchweb.uz/ index.php/erus/article/view/306
8. Ilyosov A. (2025). In the world and in Uzbekistan clear farming (precision agriculture). International Journal of
Agricultural Innovations. https://www.academicpublishers.org/journals/index.php/ijai/article/view/9132
9. Vafoev B., Khomidov Kh. (2021). Practice of using unmanned aerial vehicle in agriculture in Uzbekistan. TOJQI https://
tojqi.net/index.php/journal/ article/ download/4566/3169/5015
10. Mukhamediyev, R. (2025). Drones help grow crops: A new generation precision farming system in Kazakhstan. Satbayev
University. https://satbayev.university/en/news/drones-help-grow-crops
11. Kalamkar, et al. (2020). Drone technology in Central Asian agriculture. Czech University of Life Sciences Prague
Thesis. https://theses.cz/ id/pptfxl/55866942
12. Dileep, et al. (2020). UAV applications for agricultural productivity in Central Asia. Czech University of Life Sciences
Prague Thesis. https://theses.cz/ id/pptfxl/55866942
13. African Union Development Agency–NEPAD. (2018). Drones on the horizon - Transforming Africa’s agriculture.
NEPAD. https://www.nepad.org/file-download/download/public/115553
14. Xinyan Liu. (2025). An overview of low-altitude economy research. Scholink Journal of Economics and Policy Finance.
https://www.scholink.org/ojs/index.php/jepf/article/download/56403/12209
15. Dongqing Liu, Hao Dong. (2025). Research on the strategy of low-altitude economic development in Shandong
Province. AEPH. http://www.aeph.press/uploadfile/ 202501/1276cce87421830.pdf
16. Xiuli Chen, Joohan Ryoo. (2024). Sustainable agricultural innovation in Uzbekistan through the helix
model. ECSEnet. https://ecsenet.com/index.php/2576-6759/ article/download/243/99/261
17. World Bank. (2009). Reducing the vulnerability of Uzbekistan’s agricultural systems to climate change. World Bank
Documents. https://documents1.worldbank.org/curated/en/485571468318338846
##submission.downloads##
##submissions.published##
##submission.howToCite##
##issue.issue##
##section.section##
##submission.license##
##submission.copyrightStatement##
##submission.license.cc.by4.footer##