Conventional MIMO precoding relying on a predefined codebook exhibits significantly poor performance in terms of bit error ratio (BER). This is because traditionally codebooks are designed relying on the simplifying assumption of having fixed channel probability distribution. However, owing to both hardware imperfections arising due to non-linear components and channel estimation imperfections, as well as channel aging, the fixed channel probability assumption is unrealizable in practical MIMO systems. Therefore, in this paper, we first propose a data-driven minimum BER (MBER) based precoder using deep reinforcement learning (DRL) without relying on channel model distribution. Then to facilitate the finite-rate MIMO feedback systems, we propose a data-driven user-specific codebook design for downlink users (UE), where UE populates MBER precoders and constructs the codebook by invoking an unsupervised clustering based quantizer. We demonstrate by simulations that our proposed precoder selection relying on data-driven codebook performs similarly to that of genie-aided channel state information (CSI), whilst our data-driven precoder design outperforms the conventional MIMO precoding by more than 5 dB for BER of 1$0^{-3}$ with CSI error variance of 0.02.
Data-Driven Precoder Codebook Design for SU-MIMO Systems
2022-06-01
364306 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch