Management of agriculture through artificial intelligence in adverse climatic conditions

Sheetanshu Gupta, N. Singh, Shakuli Kashyap
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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.
在恶劣气候条件下通过人工智能管理农业
近年来,气候变化已成为全球面临的重大挑战,导致农作物生长条件不利。干旱、洪水和极端温度等不利气候条件对作物产量产生重大影响,导致粮食不安全、经济损失和环境退化。农业专家一直致力于开发创新技术,帮助农民在恶劣气候条件下更好地管理作物。其中一项技术是利用人工智能(AI)对农作物进行建模和管理。本文主要关注的是寻找人工智能在农业中的各种应用,以优化恶劣气候条件下的灌溉和施肥。通过分析土壤湿度水平和天气模式的数据,人工智能算法可以确定最佳的灌溉和施肥时间和数量,以最大限度地提高作物产量,同时最大限度地减少用水量和肥料流失。在不利气候条件下,基于人工智能的农作物建模和管理可以帮助农民提高作物产量、降低成本并减轻气候变化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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