Information Rates for Channels with Fading, Side Information and Adaptive Codewords

TL;DR

This paper uses generalized mutual information to analyze achievable rates for fading channels with various channel state information scenarios, proposing models and policies that optimize capacity with adaptive codewords.

Contribution

It introduces new auxiliary channel models and power control policies for fading channels with partial or full CSIT, enhancing capacity analysis and optimization methods.

Findings

GMI-based achievable rates increase with channel output partitioning

Adaptive codewords improve capacity in fading channels

Power control policies optimize performance with partial CSIR

Abstract

Generalized mutual information (GMI) is used to compute achievable rates for fading channels with various types of channel state information at the transmitter (CSIT) and receiver (CSIR). The GMI is based on variations of auxiliary channel models with additive white Gaussian noise (AWGN) and circularly-symmetric complex Gaussian inputs. One variation uses reverse channel models with minimum mean square error (MMSE) estimates that give the largest rates but are challenging to optimize. A second variation uses forward channel models with linear MMSE estimates that are easier to optimize. Both model classes are applied to channels where the receiver is unaware of the CSIT and for which adaptive codewords achieve capacity. The forward model inputs are chosen as linear functions of the adaptive codeword's entries to simplify the analysis. For scalar channels, the maximum GMI is then achieved by a conventional codebook, where the amplitude and phase of each channel symbol are modified based on the CSIT. The GMI increases by partitioning the channel output alphabet and using a different auxiliary model for each partition subset. The partitioning also helps to determine the capacity scaling at high and low signal-to-noise ratios. A class of power control policies is described for partial CSIR, including a MMSE policy for full CSIT. Several examples of fading channels with AWGN illustrate the theory, focusing on on-off fading and Rayleigh fading. The capacity results generalize to block fading channels with in-block feedback, including capacity expressions in terms of mutual and directed information.