Advancing Green Communications: The Role of Radio Frequency Engineering in Sustainable Infrastructure Design

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Damilare Samson Olaleye
Veritas University, Nigeria
Abiodun Charles Oloye.
Veritas University, Nigeria
Akinkunle Olanrewaju Akinloye
Veritas University, Nigeria
Oladayo Tosin Akinwande
Veritas University, Nigeria
Published: Jun 11, 2024

A thorough examination of the role of radio frequency (RF) engineering is crucial for promoting sustainability in communications infrastructure. This review explores the complex interplay between environmental concerns in communication systems and RF engineering. It examines RF engineering approaches and strategies that support the design, implementation, and preservation of environmentally friendly infrastructure, including the integration of renewable energy sources into RF systems, and the prospects and challenges associated with employing RF technologies for fostering sustainable actions in the communications industry. The major findings revealed the importance of RF engineering as it relates to reducing carbon footprints, lowering energy consumption, and enabling environmental sustainability in communication networks. RF engineering is an essential driver of sustainability in the communications industry, considering that it supports the integration of renewable energy sources, optimization of power usage, and improvement of spectrum efficiency. Therefore, the adoption of eco-friendly practices and utilization of RF technological innovations can potentially support a more sustainable and greener digital ecosystem.

Advancing Green Communications: The Role of Radio Frequency Engineering in Sustainable Infrastructure Design. (2024). International Journal of Latest Technology in Engineering Management & Applied Science, 13(5), 113-121. https://doi.org/10.51583/IJLTEMAS.2024.130511

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Advancing Green Communications: The Role of Radio Frequency Engineering in Sustainable Infrastructure Design. (2024). International Journal of Latest Technology in Engineering Management & Applied Science, 13(5), 113-121. https://doi.org/10.51583/IJLTEMAS.2024.130511

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