Litcius/Paper detail

Robust Channel Estimation in Multiuser Downlink 5G Systems Under Channel Uncertainties

Azadeh Pourkabirian, Mohammad Hossein Anisi

2021IEEE Transactions on Mobile Computing33 citationsDOI

Abstract

In wireless communication, the performance of the network highly relies on the accuracy of channel state information (CSI). On the other hand, the channel statistics are usually unknown, and the measurement information is lost due to the fading phenomenon. Therefore, we propose a channel estimation approach for downlink communication under channel uncertainty. We apply the Tobit Kalman filter (TKF) method to estimate the hidden state vectors of wireless channels. To minimize the maximum estimation error, a robust minimax minimum estimation error (MSE) estimation approach is developed while the QoS requirements of wireless users is taken into account. We then formulate the minimax problem as a non-cooperative game to find an optimal filter and adjust the best behavior for the worst-case channel uncertainty. We also investigate a scenario in which the actual operating point is not exactly known under model uncertainty. Finally, we investigate the existence and characterization of a saddle point as the solution of the game. Theoretical analysis verifies that our work is robust against the uncertainty of the channel statistics and able to track the true values of the channel states. Additionally, simulation results demonstrate the superiority of the model in terms of MSE value over related techniques.

Topics & Concepts

Computer scienceChannel (broadcasting)FadingChannel state informationTelecommunications linkKalman filterMinimaxWirelessWireless networkMathematical optimizationControl theory (sociology)TelecommunicationsMathematicsArtificial intelligenceControl (management)Advanced MIMO Systems OptimizationCooperative Communication and Network CodingWireless Networks and Protocols