AUTOMATED PEARL FARMING

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Diya Sachin Magdum; S.B Patil; Maithili Sager Jadhav; vedant Prasad  Date; Aarya Vikas Desai; Shailesh Umesh Khot

AUTOMATED PEARL FARMING

Authors: Diya Sachin Magdum, S.B Patil, Maithili Sager Jadhav, vedant Prasad Date, Aarya Vikas Desai, Shailesh Umesh Khot

Unique Paper ID: 199555
Volume: 12
Issue: 11
PageNo: 14002-14010

Keywords: No Keywords Found

Abstract:
Pearl farming plays a crucial position in aquaculture due to its high financial cost, but conventional techniques rely heavily on manual tracking and preservation, main to inefficiency and inconsistencies. The cause of this project is to increase an automated pearl farming machine that minimizes human intervention whilst making sure greatest growth situations for oysters. The proposed technique employs an ESP32 microcontroller included with numerous sensors to continuously display key water exceptional parameters including temperature, pH, and turbidity. Actuators which include an automatic feeder, water pump, and motor gadget are managed based totally on sensor statistics to maintain appropriate environmental situations. Real-time information acquisition and automated manage enhance precision and reliability in farm management. The results show advanced tracking accuracy, reduced exertions requirements, and steady oyster fitness. In end, this embedded automation machine notably enhances production performance and pearl satisfactory whilst imparting a sustainable and cost-powerful solution for cutting-edge pearl farming. Furthermore, the combination of IoT connectivity on this gadget allows faraway supervision and facts logging, which allows farmers music long-time period environmental styles and make informed decisions for destiny cultivation cycles. The computerized alerts and manipulate mechanisms ensure that sudden fluctuations in water best are addressed without delay, preventing ability damage to the oysters. This shrewd method no longer best will increase operational performance but additionally helps sustainable useful resource utilization by way of minimizing wastage of feed and immoderate water exchange. Overall, the gadget promotes a extra stable cultivation surroundings, improves pearl yield consistency, and offers a technologically advanced framework that may be scaled and adapted to numerous aquaculture settings.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{199555,
        author = {Diya Sachin Magdum and S.B Patil and Maithili Sager Jadhav and vedant Prasad  Date and Aarya Vikas Desai and Shailesh Umesh Khot},
        title = {AUTOMATED PEARL FARMING},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {11},
        pages = {14002-14010},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=199555},
        abstract = {Pearl farming plays a crucial position in aquaculture due to its high financial cost, but conventional techniques rely heavily on manual tracking and preservation, main to inefficiency and inconsistencies. The cause of this project is to increase an automated pearl farming machine that minimizes human intervention whilst making sure greatest growth situations for oysters. The proposed technique employs an ESP32 microcontroller included with numerous sensors to continuously display key water exceptional parameters including temperature, pH, and turbidity. Actuators which include an automatic feeder, water pump, and motor gadget are managed based totally on sensor statistics to maintain appropriate environmental situations. Real-time information acquisition and automated manage enhance precision and reliability in farm management. The results show advanced tracking accuracy, reduced exertions requirements, and steady oyster fitness. In end, this embedded automation machine notably enhances production performance and pearl satisfactory whilst imparting a sustainable and cost-powerful solution for cutting-edge pearl farming. Furthermore, the combination of IoT connectivity on this gadget allows faraway supervision and facts logging, which allows farmers music long-time period environmental styles and make informed decisions for destiny cultivation cycles. The computerized alerts and manipulate mechanisms ensure that sudden fluctuations in water best are addressed without delay, preventing ability damage to the oysters. This shrewd method no longer best will increase operational performance but additionally helps sustainable useful resource utilization by way of minimizing wastage of feed and immoderate water exchange. Overall, the gadget promotes a extra stable cultivation surroundings, improves pearl yield consistency, and offers a technologically advanced framework that may be scaled and adapted to numerous aquaculture settings.},
        keywords = {},
        month = {April},
        }

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Cite This Article

Magdum, D. S., & Patil, S., & Jadhav, M. S., & Date, V. P. ., & Desai, A. V., & Khot, S. U. (2026). AUTOMATED PEARL FARMING. International Journal of Innovative Research in Technology (IJIRT), 12(11), 14002–14010.

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