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Sumit Jaiprakash Rai, Rishabh Ajit Rai
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- Research Scholar, Research Scholar Thakur Institute of Management Studies, Career Development & Research (TIMSCDR), Mumbai, Thakur Institute of Management Studies, Career Development & Research (TIMSCDR) Maharashtra, Maharashtra India, India
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Abstract
nUnlocking the Green Revolution: A Comprehensive Exploration of Cloud Computing Integration in India’s Agricultural Landscape. The integration of cloud computing technology in the agricultural sectors of India is poised to play a pivotal role in propelling the nation’s holistic development. This paper delves into the dynamic realm of cloud computing, serving as a catalyst for innovation and efficiency in agriculture. By eliminating the need for maintaining expensive computing infrastructure, cloud computing offers a resilient commercial backbone. Operating within a network-centric framework, it promotes the collaborative use of configurable networks, servers, storage, applications, and other essential computing resources. In the contemporary landscape of cloud computing, the centralization of diverse agricultural data, encompassing soil analyses, weather patterns, research outcomes, crop specifics, farmer profiles, marketing statistics, and information on fertilizers and pesticides, proves highly advantageous. This study explores various facets of cloud computing in agriculture, encompassing computing models, distinctive characteristics, deployment models, and cloud service models. Additionally, it investigates the associated benefits and challenges, shedding light on the transformative potential of cloud computing in the agricultural sector.
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Keywords: Cloud computing, Community model, Hybrid model, Public model, Private model, Agriculture, IaaS, PaaS, SaaS, Green Revolution
n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Cheminformatics(ijci)]
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References
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- (2019, January). Watson Decision Platform for Agriculture: AI-driven insights for the agriculture ecosystem [Online Thesis]. United States of America: IBM. Retrieved from
- Li, X., Wang, X., Zhang, X., Chen, X., & Yang, J. (2017). Integrating cloud computing with the Internet of Things to monitor and control real-time agricultural conditions. Sensors, 17(8), 1871.
- Jha K, Doshi A, Patel P, Shah M. A comprehensive review on automation in agriculture using artificial intelligence. Artif Intell Agric. 2019;2(3). DOI:10.1016/j.aiia.2019.05.004. License CC BY-NC-ND.
- Vatsavai RR, Ganguly AR, Chandola V, Stefanidis A. Spatiotemporal data mining in the era of big spatial data: Algorithms and applications. Proc 1st ACM SIGSPATIAL Int Workshop Anal Big Geospat Data. 2012;1:1-10. DOI:10.1145/2447481.2447482.
- Sindakis S. The digital revolution in India: bridging the gap in rural technology adoption. J Innov Entrep. 2024;13(1). DOI:10.1186/s13731-024-00380-w. License CC BY 4.0.
- Alemu D, Jennex ME, Assefa T. Agricultural Knowledge Management System Development for Knowledge Integration. Hawaii Int Conf Syst Sci. 2018. DOI:10.24251/HICSS.2018.544.
- Choudhary SK, Jadoun RS, Mandoria HL. Role of Cloud Computing Technology in Agriculture Fields. J Agric Technol. 2016;7(3):2222-2863.
- Mignoni ME, Monteiro ES, Zagonel C, Kunst R. Artificial Intelligence and Its Tools In Pest Control For Agricultural Production. RECIMA21 – Rev Cient Multidiscip. 2024;5(5).DOI:10.47820/recima21.v5i5.5277. License CC BY 4.0.
- Debauche O, Trani JP, Saïd M, Manneback P. Data Management and Internet of Things: A Methodological Review in Smart Farming. Internet Things. 2021;14:100378. DOI:10.1016/j.iot.2021.100378.
- Anyango P. A comprehensive examination of security and privacy in precision agriculture technologies. GSC Adv Res Rev. 2024;18(1):336-363. DOI:10.30574/gscarr.2024.18.1.0026.
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| Volume | 01 | |
| [if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | 01 | |
| Received | February 29, 2024 | |
| Accepted | April 8, 2024 | |
| Published | June 13, 2024 |
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