Quantum computing and natural language processing (NLP) could transform smart farming. Decision-making and resource management improve with convergence, enabling new agricultural solutions. This technique solves traditional computing's problems with large datasets and complex language processing, making it crucial for real-time decision-making. Problems include complex quantum algorithms, NLP models in quantum frameworks, and quantum hardware. This study presents Smart Agriculture Computing based on Quantum Natural Language Processing (SAC-QNLP) to overcome the aforesaid challenges. Agricultural data systems use quantum computing, data flow, and quantum-enhanced NLP algorithms. Quantum computing assesses large, complicated datasets faster than standard methods. Thus, smart agricultural strategy apps learn more and forecast better. Increased production projections from genetic and environmental factors SAC-QNLP could change farming. A simulation evaluated SAC-QNLP's performance and scalability. Older methods use more resources, produce less precise data, and are less efficient. The results show SAC-QNLP could boost farming production and sustainability.


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    Title :

    Leveraging NLP and Quantum Computing for Advanced Agricultural Solutions


    Contributors:
    Bhargavi, G (author) / Das, Manisha (author) / Banumathi, S (author) / Malarvizhi, E (author) / Surendran, R (author)


    Publication date :

    2024-11-06


    Size :

    777462 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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