Multifunctional Solar Seed and Agro-Sprayer
Keywords:
Arduino Nano, Seed Dispersal, Blower Mechanism, Bluetooth Control, LCD Display, Automated Farming.Abstract
The seed spraying system is an automated agricultural apparatus designed to effectively disseminate seeds over a field. An Arduino Nano serves as the core controller, connecting with other components including motors, relays, a blower, and a servo motor to facilitate accurate seed dissemination. Seeds are preserved in a transparent receptacle, enabling easy observation of seed quantities. A motor driver controls two motors that move the system across the field, guaranteeing it encompasses the intended area for seed sowing. When operational, the blower mechanism disseminates seeds from the container into the field. The relay controls the blower's operation, whilst the servo motor guarantees precise seed dispersion. The use of Bluetooth connection offers a wireless interface for immediate management and oversight of the system. Users may remotely engage with the system, facilitating accurate functioning without physical involvement. The system has an LCD display that indicates the machine's current working condition, including seed levels and any possible malfunctions. This feature guarantees that the user is consistently apprised of the system's operation, allowing prompt actions when necessary. The voltage regulator guarantees a consistent power supply from the battery to all components, preserving the system's efficiency and dependability. This groundbreaking seed spraying technology represents a progression towards more intelligent agriculture by automating laborious chores. Utilizing components like a blower for seed distribution and Bluetooth for wireless control, it offers an effective and scalable solution for contemporary farming techniques. This technique enhances efficiency and precision in seed dispersal, resulting in improved agricultural yields and resource management.
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References
Prof. Chandrashekhar Padole et al (2024), SOLAR POWERED SEED SPRAYING MACHINE, IRJMETS, Volume:06/Issue:10
Bhushan Deshmukh & Durgesh Verma2 (2018), “Fabrication And Implementation Of Automatic Seed Sowing Machine.” Research Id, volume 3: 274-281.
J P Sinha, J K Singh, Adarsh Kumar, K N Agarwal (2018), “Development of solar powered knapsack sprayer”. Researchgate, volume 2: 590-595.
M.W. andure, rajiv indani, Nikesh jadhab, baibhav kawde, rahul khamankar (2018), “Design and Fabrication of Manual Seed Sowing Machine with Fertilizer”. International Journal for Research in Applied Science & Engineering Technology, Volume 45.98:515-519.
Kiran K. Jadha1, Avdhoot S.Narote, Pavan U.Shelke, Vishal N.Alladwar, Akshay S.Dhuldhule, Dipak S.Vishwambhare (2019), “Design and Fabrication of Manually Operated Seed Sowing Machine”. International Research Journal of Engineering and Technology, Volume 6:3006-3011.
B. Annapurna, B. Anusha, S.V.S Prasad, B. Somanaidu (2019), “Automated Seed Sowing Machine”. International Journal of Innovative Technology and Exploring Engineering, Volume 8:300-302.
Jerosheja BR, Mythili C (2020) Solar Powered automated multi-tasking agricultural robot. In: 2020 International Conference on Innovative Trends in Information Technology (ICITIIT), Kottayam, India, pp 1–5.
Rafath F, Rana S, Ahmed SZ, Begum JR, et al (2020) Obstacle detecting multifunctional AGRIBOT driven by solar power. In: 2020 4th International Conference on Trends in Electronics and Informatics (ICOEI) (48184), Tirunelveli, India, pp 196–201.
Madiwalar S, Patil S, Meti S, Domanal N, Ugare K (2020) A survey on solar powered autonomous multipurpose agricultural robot. In: 2020 2nd International Conference on Innovative Mechanisms for Industry Applications (ICIMIA), 2020, pp 184–189.
Coronado E, et al (2021) Towards a modular and distributed end-user development framework for human-robot interaction. IEEE Access 9:12675–12692.
Hasan M, Uddin KN, Sayeed A, Tasneem T (2021) Smart agriculture robotic system based on internet of things to boost crop production. In: 2021 2nd International Conference on Robotics, Electrical and Signal Processing Techniques (ICREST), pp 157–162.
Prof. Yayati shinde, Shantanu chandane, akash mandave, shweta nehete, Prerna vishe, international research journal may-2021.
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