2016
DOI: 10.1186/s13634-016-0305-7
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OFDMA-based network-coded cooperation: design and implementation using software-defined radio nodes

Abstract: Benefits of network coding towards enhancing communication quality, both in terms of robustness or data transmission rates, make it a significant candidate as a future networking technology. Conventionally, network coding is mostly used in wired infrastructures, where transmission errors between nodes are negligible. Capturing the provided benefits of network coding via straightforward extension from wired networks to wireless networks is not trivial. In addition to the challenges introduced through the wirele… Show more

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Cited by 12 publications
(4 citation statements)
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“…In this module, real‐time information transmitted and received with the flexibility of changing the protocols, with two error correction codes implemented with three digital modulation techniques, with different pulse shaping filters. Gökceli et al implemented a six node network‐coded cooperation based OFDM system is implemented in real time using LabVIEW software, NI USRP 2921, and NI PXI hardware components. Their bit error rate and error vector magnitude measurement results show that the implemented system operates successfully in real time, outperforming point‐to‐point communication links.…”
Section: Related Workmentioning
confidence: 99%
“…In this module, real‐time information transmitted and received with the flexibility of changing the protocols, with two error correction codes implemented with three digital modulation techniques, with different pulse shaping filters. Gökceli et al implemented a six node network‐coded cooperation based OFDM system is implemented in real time using LabVIEW software, NI USRP 2921, and NI PXI hardware components. Their bit error rate and error vector magnitude measurement results show that the implemented system operates successfully in real time, outperforming point‐to‐point communication links.…”
Section: Related Workmentioning
confidence: 99%
“…Hence, the NC scheme brings performance gain in downlink two-way relaying system. However, conventional two-way relaying do not apply the NOMA scheme to the uplink [13], [14], which did not reach their full potential in improving system capacity.…”
Section: Introductionmentioning
confidence: 99%
“…The most well-known PLNC protocols are amplify-andforward, where the relay just amplifies the received signal and forwards it; decode-and-forward, where the relay decodes the individual messages one-by-one by treating the other messages as noise and then forwards them; and the most recent one, compute-and-forward, where the relay computes (an approximation of ) a deterministic function of the messages (without decoding them first) and forwards the function. The authors of [11] went beyond the TWRC and developed a hardware testbed for a wireless network-coded cooperation system (with three source nodes, one relay, and two destination nodes) using orthogonal frequency division multiple access (OFDMA), in which different messages are assigned to the different subcarriers, allowing both the broadcast and the relaying phases to overlap in time, which is typical in PLNC relay networks. Noticeably, this approach differs from "pure" PLNC (which is a non-orthogonal multiple access scheme), given that OFDMA still guarantees orthogonality.…”
Section: Hardware Testbedsmentioning
confidence: 99%