Abstract
Network Coding (NC) constitutes a promising technique of improving the throughput of relay-aided networks. In this context, we propose a cross-layer design for both amplifyand- forward (AF-) and decode-and-forward two-way relaying (DF-TWR) based on the NC technique invoked for improving the achievable throughput under specific Quality of Service (QoS) requirements, such as the maximum affordable delay and error rate.We intrinsically amalgamate adaptive Analog Network Coding (ANC) and Network Coded Modulation (NCM) with truncated Automatic Repeat reQuest (ARQ) operating at the different OSI layers. At the data-link layer, we design a pair of improved NC-based ARQ strategies based on the Stop-andwait and the Selective-repeat ARQ protocols. At the physical layer, adaptive ANC/NCM are invoked based on our approximate packet error ratio (PER). We demonstrate that the adaptive ANC design can be readily amalgamated with the proposed protocols. However, adaptive NC-QAM suffers from an SNR-loss, when the transmit rates of the pair of downlink (DL) channels spanning from the relay to the pair of destinations are different. Therefore we develop a novel transmission strategy for jointly selecting the optimal constellation sizes for both of the relay-to-destination links that have to be adapted to both pair of channel conditions. Finally, we analyze the attainable throughput, demonstrating that our truncated ARQ-aided adaptive ANC/NCM schemes attain considerable throughput gains over the schemes dispensing with ARQ, whilst our proposed scheme is capable of supporting bidirectional NC scenarios.
Highlights
The number of mobile users supported by wireless communication networks has increased dramatically, resulting in a booming market for the mobile Internet
Automatic Repeat reQuest (ARQ)-aided adaptive analog network coding (ANC)/network coded mod6 ulation (NCM) schemes attain considerable throughput gains over the schemes dispensing with ARQ, while our proposed scheme is capable of supporting bidirectional Network coding (NC) scenarios
We developed a powerful cross-layer design for asymmetric AF-Two-way relaying (TWR) and DF-TWR networks, which amalgamates adaptive ANC/NCM at the physical layer and NC-based truncated ARQ at the data link layer, with the objective of improving the attainable system throughput and enhancing the achievable system integrity
Summary
The number of mobile users supported by wireless communication networks has increased dramatically, resulting in a booming market for the mobile Internet. Alouini and Goldsmith [10] and Goldsmith and Chua [11] conceived adaptive modulation schemes for flat-fading channels, where both the data rate and the transmitter power were near-instantaneously adapted for the sake of maximizing the throughput Another alternative technique of achieving high reliability for networks is to rely on the ARQ protocol at the data link layer [12]–[17].
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