Research and Applications: Embedded System (e-ISSN:2582-2993)

Clamoring human progress is the vein through which present day development is worked. Every day, energy is used to its fullest potential to achieve the goals and desires of the entire population. Each side of our life is confined with different layers of obstacle and in this reaction; energy is turning into a key element. Therefore, in order to propel this enormous population forward, the energy source must be inexhaustible or everlasting. People being developmental in nature are maybe the best making of nature is consistently in the race of imagining the likely and accessible solaces and advantages in each conceivable point in this hazardous world. Our aphorism is to attempt in sending such honourable objective of energy protection. Taking a gander at the current situation it is obvious that regular wellsprings of energy like coal, petroleum gas, oil, and so on are on the verge of disappearing. The demand for these energy resources has reached its zenith due to the fact that they are fighting a losing battle with time itself to meet each and every demand for energy. The ordinary utilization of energies because of the consuming of petroleum derivatives like coal, oil and flammable gas, the entire climate is getting dirtied. As a result, the components of the current project, such as the LDR module, DC motor, photovoltaic array, and others, are coordinated. According to which, in contrast to other conventional energy uses, the functioning of would not produce any pollution and serve as a reservoir for the Sun's energy.

Hsiao, Y. T., & Chen, C. H. (2002, October). Maximum power tracking for photovoltaic power system. In Conference record of the 2002 IEEE industry applications conference. 37th IAS Annual Meeting (Cat. No. 02CH37344) (Vol. 2, pp. 1035-1040). IEEE.

Pillai, A. G. (2023). AUTOMATIC SOLAR TRACKING SYSTEM. Journal of Pharmaceutical Negative Results, 1849-1855.

Hamilton, S. J. (1999). Sun-tracking solar cell array system. University of Queensland Department of Computer Science and Electrical Engineering, Bachelors Thesis.

Furkan, D., & Mehmet Emin, M. (2010). Critical factors that affecting efficiency of solar cells. smart grid and renewable energy, 2010.

Wang, R., & Ge, T. (Eds.). (2016). Advances in solar heating and cooling. Woodhead Publishing.

Bas, L. (2010). Thin Film vs. Crystalline Silicon PV Modules. CivicSolar, Inc.

Panait, M. A., & Tudorache, T. (2008, March). A simple neural network solar tracker for optimizing conversion efficiency in off-grid solar generators. In International Conference on Renewable Energies and Power Quality (pp. 256-260).

Reca-Cardeña, J., & López-Luque, R. (2018). Chapter 9-Design Principles of Photovoltaic Irrigation Systems,“Advances in Renewable Energies and Power Technologies”.

Chang, C. (2016). Tracking solar collection technologies for solar heating and cooling systems. In Advances in solar heating and cooling (pp. 81-93). Woodhead Publishing.

Chowdhury, K. I., Alam, M., & Bakshi, P. S. (2017). Performance comparison between fixed panel, single-axis and dual-axis sun tracking solar panel system (Doctoral dissertation, BARC University).