A5067044713- Advanced MIMO Systems Optimization
- Advanced Wireless Communication Technologies
- Millimeter-Wave Propagation and Modeling
- Telecommunications and Broadcasting Technologies
- Software-Defined Networks and 5G
- Energy Harvesting in Wireless Networks
- Digital Transformation in Industry
University of Mauritius
2023-2025
5G, the fifth-generation mobile network, is predicted to significantly increase traditional trajectory of energy consumption. It now uses four times as much 4G, fourth-generation network. As a result, compared previous generations, 5G’s increased cell density makes efficiency top priority. The objective this paper formulate end-to-end power consumption models for three different 5G radio access network (RAN) deployment architectures, namely distributed RAN, centralized RAN with dedicated...
Abstract A considerable rise in the conventional trajectory of energy consumption is expected to be introduced by 5G which already consumes four times more than 4G. Consequently, efficiency a major concern contrast earlier generations due further densification cells. This paper proposes end-to-end power models for three different RAN deployment architectures, namely distributed RAN, centralised with dedicated hardware and Cloud Centralised-RAN. The modelling complete system obtained...
Emerging 5G networks feature lower latency, higher capacity, and increased bandwidth compared to 4G have far reaching impacts on several applications such as transportation Industry 4.0. However, energy efficiency constitutes the Achilles' heel of technology. This paper analyses key metrics for with focus Base Station applying massive MIMO technology in a dense urban scenario. More specifically, impact data throughput is investigated through two metrics, namely mobile network metric, EE <inf...