Journal of Advancement in Communication System (e-ISSN: 3048-4758)

The Pesticide Drone with Sprinkler Mechanism is an innovative technological breakthrough in contemporary agriculture that integrates the functionalities of aerial drones and accurate irrigation systems. This novel solution tackles the urgent challenges encountered by the agricultural industry, particularly in optimizing the utilization of water resources and crop administration. The drone is equipped with a bespoke sprinkler mechanism that enables extremely accurate and focused water distribution. The system incorporates sensors and real-time data analysis, allowing the drone to detect areas requiring irrigation and dispense the appropriate quantity of water. This method reduces water waste and guarantees that crops receive the ideal amount of moisture necessary for robust development. The Pesticide Drone equipped with a Sprinkler Mechanism enhances the effectiveness and long-term viability of conventional irrigation methods, while simultaneously decreasing the labor and operational expenses incurred by farmers. This innovation has the potential to transform farming practices by increasing overall productivity while minimising the environmental consequences of excessive water usage and inefficient irrigation techniques. Moreover, this technology has the potential to tackle worldwide issues surrounding water scarcity by efficiently managing water allocation in agriculture, thereby aiding in the preservation of this essential resource. By adopting this innovative solution, farmers can greatly enhance their crop production, decrease operational costs, and advocate for sustainable and environmentally friendly farming methods. The Pesticide Drone equipped with a Sprinkler Mechanism signifies a promising advancement towards a more efficient and environmentally aware future for agriculture.

Ahirwar, S., et al. "Application of drone in agriculture." International Journal of Current Microbiology and Applied Sciences 8.01 (2019): 2500-2505.

Mogili, UM Rao, and B. B. V. L. Deepak. "Review on application of drone systems in precision agriculture." Procedia computer science 133 (2018): 502-509.

Saha, Arnab Kumar, et al. "IOT-based drone for improvement of crop quality in agricultural field." 2018 IEEE 8th Annual Computing and Communication Workshop and Conference (CCWC). IEEE, 2018.

Meivel, S., and S. Maheswari. "Remote sensing analysis of agricultural drone." Journal of the Indian Society of Remote Sensing 49 (2021): 689-701.

Mohanta, Harish Chandra, et al. "An optimized PI controller-based SEPIC converter for microgrid-interactive hybrid renewable power sources." Wireless Communications and Mobile Computing 2022 (2022).

Mohanta, B., and Harish Chandra Mohanta. "Internet of things enables smart home security issue address using blockchain." Sodha Sarita Journal 7.28 (2020): 147-153.

Mohanta, Gayatri, and Harish Chandra Mohanta. "Image compression using different vector quantization algorithms and its comparison." IJITEE journal 8.9 (2019).

Dutta, Papiya, et al. "Evaluating the Efficiency of Non-Orthogonal MU-MIMO Methods in Smart Cities Technologies & 5G Communication." Sustainability 15.1 (2022): 236.

Das, Rupanita, and Harish Chandra Mohanta. "Design of a rectangular microstrip patch antenna using resonant circuit approach”." TEST Engineering and Management Journal 83 (2020): 160-163.