Asymmetric Transmitter Cooperation in Multiuser Wireless Networks: Achievable Rate Regions

TL;DR

This paper derives achievable rate regions for three-user interference channels with asymmetric transmitter cooperation, exploring message sharing schemes and decoding capabilities to improve understanding of multiuser wireless network performance.

Contribution

It introduces two novel message sharing schemes for three-user channels and employs advanced coding techniques to characterize achievable rates.

Findings

Cumulative message sharing outperforms primary-only sharing in certain scenarios.

Decoding capabilities significantly impact achievable rate regions.

Simulation results illustrate the benefits of message-splitting and cooperation strategies.

Abstract

In this work, we derive achievable rate regions for the three-user interference channels with asymmetric transmitter cooperation and various decoding capabilities at the receivers. The three-user channel facilitates different ways of message sharing between the transmitters. We introduce two natural ways of extending the concept of unidirectional message sharing from two users to three users - (i) cumulative message sharing and (ii) primary-only message sharing. In addition, we define several cognitive interference channels based on the decoding capability of the receivers. We employ a coding technique, which is a combination of superposition and Gel'fand-Pinsker coding techniques, to derive an achievable rate region for each of the cognitive interference channels. Simulation results, by considering the Gaussian channel case, enables a visual comparison of the two message-sharing schemes considered in this paper. It also provides useful insights into the effect of message-splitting at the transmitters and the decoding capability of the receivers on the achievable rates.