Users First: A Robust Two-Level Learning of Power Control in Uplink Ultra-Dense HetNets

Abstract: In this article, power control of uplink connection in the ultra-dense heterogeneous networks (HetNets), which are studied as different types of access points (APs), is investigated. It is demonstrated that an efficient performance of users during the uplink transmission is limited to the issue of per-user power control. Although the per-user power control allows users to transmit with full power to maintain a stable connection, it also causes a higher outage probability during the uplink transmission. In ligh… Show more

“…In [143], [149], deep CNN was used to predict the data and pilot power based on large-scale fading coefficients in order to achieve maximum sum spectral efficiency. Similarly, in [144], [147], [148], the geographical location information of the UTs was exploited for power control based on distance-dependent path loss. The results from these works show the ability to use ML techniques to achieve near-optimum performance without necessarily performing complex channel estimation.…”

Intelligent Massive MIMO Systems for Beyond 5G Networks: An Overview and Future Trends

“…In [143], [149], deep CNN was used to predict the data and pilot power based on large-scale fading coefficients in order to achieve maximum sum spectral efficiency. Similarly, in [144], [147], [148], the geographical location information of the UTs was exploited for power control based on distance-dependent path loss. The results from these works show the ability to use ML techniques to achieve near-optimum performance without necessarily performing complex channel estimation.…”

Intelligent Massive MIMO Systems for Beyond 5G Networks: An Overview and Future Trends

Online Energy Efficiency Learning for Uplink Transmission in Dynamic H-CRAN

Energy-Delay-Aware Power Control for Reliable Transmission of Dynamic Cell-Free Massive MIMO