International Journal of Innovative Research in Computer and Communication Engineering
ISSN Approved Journal | Impact factor: 8.771 | ESTD: 2013 | Follows UGC CARE Journal Norms and Guidelines
| Monthly, Peer-Reviewed, Refereed, Scholarly, Multidisciplinary and Open Access Journal | High Impact Factor 8.771 (Calculated by Google Scholar and Semantic Scholar | AI-Powered Research Tool | Indexing in all Major Database & Metadata, Citation Generator | Digital Object Identifier (DOI) |
| TITLE | AI Based Solar Powered Agricultured E Vehicle |
|---|---|
| ABSTRACT | Agricultural mechanization improves productivity but increases greenhouse gas emissions due to fossil fuel use. To address this, this paper presents an AI-based Solar Powered Agriculture E-Vehicle that integrates electric mobility with renewable solar energy. The system uses high-efficiency solar PV panels with MPPT control to harvest energy, which is stored in batteries for reliable operation under varying sunlight conditions. Smart energy management, lightweight materials, and autonomous navigation enhance efficiency. IoT sensors enable precision agriculture by monitoring soil, crops, and energy usage, offering a sustainable and intelligent solution for modern farming. |
| TITLE | |
| AUTHOR | NIDA ANJUM, POOJA K, RAKSHITHA B, RUCHITHA K K, DR. MALATESH SH Student, Dept. of Computer Science and Engineering, MS Engineering College, Bengaluru, Karnataka, India HOD, Dept. of Computer Science and Engineering, MS Engineering College, Bengaluru, Karnataka, India |
| VOLUME | 180 |
| DOI | DOI: 10.15680/IJIRCCE.2026.1401019 |
| pdf/19_AI Based Solar Powered Agricultured.pdf | |
| KEYWORDS | |
| References | [1] Mishra, B., Nema, S., Lambert, M., & Nema, S., Leaf Disease Detection Using Image Processing, ICIECS, 2017. [2] Amer, G., Mudassir, S.M.M., & Malik, M.A., Wi- Fi Based Agribot System, ICIC, 2015. [3] Rahul, D.S. et al., IoT Solar Powered Agribot for Irrigation and Monitoring, ICISC, 2018. [4] Gowrishankar, V., & Venkatachalam, IoT Based Precision Agriculture Using Agribot, GRD Journal of Engineering, 2016. [5] Rahul, D.S. et al., Agribot for Irrigation and Farm Monitoring, ICISC, 2018. [6] Wei, Q., Zhong, C., Yu, J., Luo, C., & Chen, L., Agricultural Robotics for Farm Tasks, IEEE IMCEC, 2018. [7] Ozgul, E., & Celik, U., Wheeled Mobile Robot Navigation in Agriculture, ICEEE, 2018. [8] Gao, X. et al., Robot Manipulator Design for Strawberry Harvesting, IEEE Access, vol. 6, 2018. [9] Fan, Z., Qiu, Q., & Meng, Z., AGRIFA: Intelligent Agricultural Robot Platform, YAC, 2017. [10] Dr. Malatesh S.H., S. Kattimani, P. Pallabavi, V.A.P., and D.M.G., “Ai Based Solar Powered Agricultured E Vehicle” International Journal of Innovative Research in Technology (IJIRT), vol. 8, no. 12, p. 6285, May 2025, ISSN: 2349-6002 |
