QA-P-MMSE Scalable and High-Performance Receiver for Cell-Free Massive MIMO with Quantized Fronthaul

Authors

  • Lokesh Kumar Sadrani LNCT University Bhopal
  • Rakesh Singh Rajput LNCT University Bhopal

Abstract

Cell-free Massive MIMO systems promise unprecedented spectral efficiency by coherently serving users with a large number of distributed Access Points (APs). A key practical challenge, however, is the high capacity required for the fronthaul links connecting these APs to a central processing unit. To reduce cost and power, these links must employ low-resolution quantization, which introduces distortion that can severely degrade system performance. This paper tackles this problem by proposing a novel, scalable receiver scheme: the Quantization-Aware Partial MMSE (QA-P-MMSE) receiver. Unlike conventional methods that either ignore quantization effects or require non-scalable centralized processing, our proposed receiver explicitly incorporates the statistics of the quantization noise into its design. We demonstrate through simulations that the QA-P-MMSE receiver significantly outperforms other scalable schemes, such as Maximum-Ratio (MR) and Partial-MMSE (P-MMSE), in terms of both average spectral efficiency and user fairness. Crucially, it approaches the performance of an ideal, non-scalable MMSE receiver with unquantized fronthaul, proving its efficacy as a practical and high-performance solution for next-generation cell-free networks.

Author Biography

Rakesh Singh Rajput, LNCT University Bhopal

Associate Professor

Department of Electronics and Communication

Additional Files

Published

2026-07-17

Issue

Section

Wireless and Mobile Communications