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Paper detail

Joint Data and Active User Detection for Grant-free FTN-NOMA in Dynamic Networks

Both faster than Nyquist (FTN) signaling and non-orthogonal multiple access (NOMA) are promising next generation wireless communications techniques as a benefit of their capability of improving the system's spectral efficiency. This paper considers an uplink system that combines the advantages of FTN and NOMA. Consequently, an improved spectral efficiency is achieved by deliberately introducing both inter-symbol interference (ISI) and inter-user interference (IUI). More specifically, we propose a grant-free transmission scheme to reduce the signaling overhead and transmission latency of the considered NOMA system. To distinguish the active and inactive users, we develop a novel message passing receiver that jointly estimates the channel state, detects the user activity, and performs decoding. We conclude by quantifying the significant spectral efficiency gain achieved by our amalgamated FTN-NOMA scheme compared to the orthogonal transmission system, which is up to 87.5%.

preprint2020arXivOpen access
Weijie YuanNan WuJinhong YuanDerrick Wing Kwan NgLajos Hanzo
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Weijie YuanNan WuJinhong YuanDerrick Wing Kwan NgLajos Hanzo

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