Relay-Assisted Partial Packet Recovery with IDMA Method in CDMA Wireless Network

TL;DR

This paper proposes a relay-assisted partial packet recovery scheme using IDMA in CDMA wireless networks, significantly improving throughput by selectively retransmitting unreliable bits and leveraging relay diversity.

Contribution

It introduces a novel partial packet recovery method with relay assistance and IDMA, enhancing throughput and reliability in CDMA wireless networks.

Findings

Significant throughput improvement over traditional ARQ.

Effective detection of unreliable bits using confidence values.

Relay location impacts performance, as shown in simulations.

Abstract

Automatic Repeat Request (ARQ) is an effective technique for reliable transmission of packets in wireless networks. In ARQ, however, only a few erroneous bits in a packet will cause the entire packet to be discarded at the receiver. In this case, it's wasteful to retransmit the correct bit in the received packet. The partial packet recovery only retransmits the unreliable decoded bits in order to increase the throughput of network. In addition, the cooperative transmission based on Interleave-division multiple-access (IDMA) can obtain diversity gains with multiple relays with different locations for multiple sources simultaneously. By exploring the diversity from the channel between relay and destination, we propose a relay-assisted partial packet recovery in CDMA wireless network to improve the performance of throughput. In the proposed scheme, asynchronous IDMA iterative chip-by-chip multiuser detection is utilized as a method of multiple partial recovery, which can be a complementarity in a current CDMA network. The confidence values' concept is applied to detect unreliable decoded bits. According to the result of unreliable decoded bits' position, we use a recursive algorithm based on cost evaluation to decide a feedback strategy. Then the feedback request with minimum cost can be obtained. The simulation results show that the performance of throughput can be significantly improved with our scheme, compared with traditional ARQ scheme. The upper bound with our scheme is provided in our simulation. Moreover, we show how relays' location affects the performance.