Authors : Dr. Ashalatha R; Pradeep Babalad; Maheshkumar Biradar; Jonty Rose; Vijay Hadapad; Mohammed Kaif

Volume/Issue : Volume 9 - 2024, Issue 11 - November

Google Scholar : https://tinyurl.com/4a8zzm2u

Scribd : https://tinyurl.com/4cv6tdpk

DOI : https://doi.org/10.38124/ijisrt/IJISRT24NOV1145

Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.

Abstract : The agriculture industry faces challenges such as resource management, unpredictable environmental factors, and security threats that limit crop productivity. The Independent Farmers project addresses these issues with an advanced agricultural monitoring system that provides real-time insights using IoT sensors. These sensors monitor essential parameters like soil moisture, toxic gas levels, and field trespass and relay data to a mobile application accessible to farmers by receiving instant alerts and analyzing trends. Farmers can make profitable and quick decisions. Soil moisture monitoring, for example, has reduced water usage by up to 30% through targeted irrigation, allowing only necessary watering and conserving this vital resource. Gas detection sensors enable early intervention, protecting crops from damage caused by harmful substances, while motion detection secures fields by notifying farmers of unauthorized access, thus enhancing crop security. In addition, farmers can track data trends over time, improving their ability to anticipate seasonal changes and adapt their practices accordingly. Through this comprehensive approach, the system develops resource efficiency and strengthens farmer's ability to respond to unforeseen challenges. Ultimately, this solution promotes sustainable agricultural practices by optimizing resource use, securing crops, and building resilience against modern farming demands, creating a robust framework for efficient, profitable, and resilient farming.

Keywords : IoT in Agriculture, Real-Time Monitoring, Soil Moisture Optimization, Gas Detection, Crop Security, Sustainable Farming.

References :

1. Dhal, Sambandh & Wyatt, Briana & Mahanta, Shikhadri & Bhattarai, Nishan & Sharma, Sadikshya & Rout, Tapas & Saud, Pradip & Acharya, Bharat. (2023). Internet of Things (IOT) in digital agriculture: An overview. Agronomy Journal. 116. 10.1002/agj2.21385.
2. Trivedi, Ayushi & Nandeha, Nirjharnee & Rajwade, Yogesh & Rao, K V. (2023). Sensors of Soil Moisture Measurement.
3. Boruah, Sushruta & Pathak, Mahesh & Sarmah, Kasturi & Sahoo, Bimal. (2024). INTERNET OF THINGS (IOT) IN PRECISION AGRICULTURE. 10.58532/V3BCAG6P1CH3.
4. Farooq, Hira & Rehman, Hafeez & Javed, Anam & Shoukat, Mehnaz & Dudely, Sandra. (2020). A Review on Smart IoT Based Farming. Annals of Emerging Technologies in Computing. 4. 17-28. 10.33166/AETiC.2020.03.003.
5. Gayathri, M & Shunmugam, D & Ishwariya, A. (2021). Smart Irrigation System using Internet of Things.International Journal of Innovative Research in Engineering and Multidisciplinary Physical Sciences. 9. 10.37082/IJIRMPS.2021.v09i03.027.