6G and Sustainable Connectivity

We investigate and develop sustainable 6G network architectures that prioritize energy efficiency, minimize waste, and support the growth of eco-friendly digital applications. Our research explores innovative network topologies and resource management strategies that can reduce the energy consumption and environmental impact of 6G networks while maintaining high levels of performance and reliability.

To further enhance the sustainability of 6G networks, we study energy harvesting techniques that can power communication devices and infrastructure using renewable energy sources. Our research investigates various energy harvesting technologies, such as solar, wind, and vibration energy, and their integration into 6G networks. By leveraging renewable energy sources, we aim to create more sustainable communication networks that minimize their reliance on non-renewable power sources.

Our research explores advanced communication techniques that can improve the energy efficiency of 6G networks. We delve into technologies such as network slicing, which allows for the dynamic allocation of network resources based on specific application requirements, and beamforming, which focuses the transmission of radio signals in specific directions to improve signal strength and reduce interference. These techniques enable 6G networks to operate more efficiently, reducing energy consumption and minimizing the environmental impact of wireless communication.