Combined Decode-Forward and Layered Noisy Network Coding Schemes for Relay Channels

TL;DR

This paper introduces two innovative coding schemes that combine decode-forward and layered noisy network coding techniques to enhance relay channel communication, outperforming individual methods through analysis and simulation.

Contribution

The paper presents novel combined DF-NNC and layered NNC schemes for relay channels, integrating multiple strategies to improve performance over existing methods.

Findings

Both schemes outperform individual DF or NNC schemes.

The combined schemes achieve higher rates in relay channels.

Simulation results confirm the advantages of the proposed methods.

Abstract

We propose two coding schemes combining decode-forward (DF) and noisy network coding (NNC) with different flavors. The first is a combined DF-NNC scheme for the one-way relay channel which includes both DF and NNC as special cases by performing rate splitting, partial block Markov encoding and NNC. The second combines two different DF strategies and layered NNC for the two-way relay channel. One DF strategy performs coherent block Markov encoding at the source at the cost of power splitting at the relay, the other performs independent source and relay encoding but with full relay power, and layered NNC allows a different compression rate for each destination. Analysis and simulation show that both proposed schemes supersede each individual scheme and take full advantage of both DF and NNC.