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Proceedings of the International Conference on Digital Manufacturing –
Volume 2
energy generation that demonstrates the potential of nature-
inspired engineering.
REFERENCES
Alnaieli, H. A., Jadallah, A. A., & Numan, A. H. (2024). Design,
fabrication, and experimental analysis of a PV panel for a
smart sunflower system. Tikrit Journal of Engineering
Sciences, 31(1), 113–126.
Arif, R. (2024). Solar panel uptake: A savior or a recipe for
disaster?
Chaudhry, Q. U. Z. (2017). Climate change profile of Pakistan.
International Climate Technology Expert, 51, 62–68.
He, J., R. Z., & Chen, Y. (2023). SunBOT: Nature-inspired sun
tracking for enhanced solar efficiency. Digital for Good, 90–
91, 2000–2019.
Kakade, S. S., & A. M. Umbarkar. (2023). Harnessing solar power
with a smart flower prototype: Design and fabrication.
Journal for Research in Applied Science and Engineering
Technology, 11(4), 2277–2291.
Mei, X., Liu, C., & Li, Z. (2024). Research progress on functional,
structural and material design of plant-inspired green bionic
buildings. Energy and Buildings, 114357.
Qin, J. C., Huang, Y., Zhu, X., Hofkens, J., He, G., Parkin, I., Lai,
F., & Liu, T. (2021). The bionic sunflower: A bio-inspired
autonomous light tracking photocatalytic system. Energy &
Environmental Science, 14(10).
Rauf, S., & Nasrullah. (2017). Application of DC-AC hybrid grid
and solar photovoltaic generation with battery storage using
smart grid. International Journal of Photoenergy, 2017, 1–16.
Rome, M. F. (2019). Sunflower, the solar panel that follows the
sun and can be integrated into building structures.
Roy, P. C., Bannerjee, R., Mondal, S., Hazra, N., & Sudhir, D.
(2024). Biomimetic dual-axis solar tracker (modeled after
sunflower). Recent Research in Engineering and
Technology.
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