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Abstract
Climate change has been a significant global challenge in recent years, resulting in adverse conditions for agricultural crops. Adverse climatic conditions, such as drought, flood, and extreme temperatures, have a significant impact on crop yields, resulting in food insecurity, economic losses, and environmental degradation. Agricultural experts have been working to develop innovative technologies to help farmers manage their crops better in adverse climatic conditions. One such technology is the use of Artificial Intelligence (AI) to model and manage agricultural crops. The main concern of this paper is to find the various applications of Artificial intelligence in agriculture to optimize irrigation and fertilizer application in adverse climatic conditions. By analyzing data on soil moisture levels and weather patterns, AI algorithms can determine the optimal timing and amount of irrigation and fertilizer application to maximize crop yield while minimizing water usage and fertilizer runoff. AI-based modeling and management of agricultural crops in adverse climatic conditions can help farmers improve crop yields, reduce costs, and mitigate the effects of climate change.
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
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References
Ahirwar, S., Swarnkar, R., Bhukya, S., Namwade, G., 2019. Application of drones in agriculture. Int. J. Curr. Microbiol. App. Sci. 8 (1), 2500–2505. DOI: https://doi.org/10.20546/ijcmas.2019.801.264
Arvind, G., Athira, V.G., Haripriya, H., Rani, R.A., Aravind, S., 2017. Automated irrigation with advanced seed germination and pest control. 2017 IEEE Technological Innovations in ICT for Agriculture and Rural Development (TIAR). DOI: https://doi.org/10.1109/TIAR.2017.8273687
Bochtis, D. D., Sørensen, C. G., Green, O., Zalidis, G. C., &Kittas, C. (2019). Big data in agriculture: A challenge for the future. Agriculture, 9(10), 215.
Choudhary, S., Gaurav, V., Singh, A., Agarwal, S., 2019. Autonomous crop irrigation system using artificial intelligence. International Journal of Engineering and Advanced Technology. 8 (5S), 46–51.
Hemalatha, T., Sujatha, B., 2015. Sensor based autonomous field monitoring agriculture robot providing data acquisition & wireless transmission. International Journal of Innovative Research in Computer and Communication Engineering. 3 (8), 7651–7657.
Huang, M., Liu, J., Wang, X., Chen, Y., Huang, W., & Chen, X. (2020). The applications of artificial intelligence in agriculture: A systematic review. Computers and Electronics in Agriculture, 175, 105556.
Huang, X., Li, Y., Li, H., Li, H., Huang, W., & Liu, X. (2021). A review of artificial intelligence and remote sensing techniques for precision agriculture. Remote Sensing, 13(4), 671.
Mogili, U.M.R., Deepak, B.B.V.L., 2018. Review on application of drone systems in precision agriculture. International Conference on Robotics and Smart Manufacturing. Procedia Computer Science 133, pp. 502–509. DOI: https://doi.org/10.1016/j.procs.2018.07.063
Natu, A.S., Kulkarni, S.C., 2016. Adoption and utilization of drones for advanced precision farming: a review. International Journal on Recent and Innovation Trends in Computing and Communication. 4 (5), 563–565.
Nema, S., Awasthi, M.K., Nema, R.K., 2018. Spatial crop mapping and accuracy assessment using remote sensing and GIS in Tawa command. Int. J. Curr. Microbiol. App. Sci. 7 (5), 3011–3018, 2018. DOI: https://doi.org/10.20546/ijcmas.2018.705.350
Oyinbo, O. Y., Adigun, M. O., & Oyediran, O. J. (2020). Application of artificial intelligence in agriculture: A review. Journal of Agricultural Science, 12(1), 1-12.
Sukhadia, A., Upadhyay, K., Gundeti, M., Shah, S., Shah, M., 2020. Optimization of smart traffic governance system using artificial intelligence. Augment Hum Res 5, 13 (2020). DOI: https://doi.org/10.1007/s41133-020-00035-x