2020
DOI: 10.1109/ojvt.2020.3020228
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Channel Estimation and User Activity Identification in Massive Grant-Free Multiple-Access

Abstract: Grant-free multiple-access (GFMA) allows to significantly reduce the overhead of granted multiple-access. However, information detection in GFMA is challenging, as it has to be executed along with the activity detection of user equipments (UEs) and channel estimation. In this paper, we study the channel estimation and propose the UE activity identification (UAI) algorithms for the massive connectivity supporting GFMA (mGFMA) systems. For these purposes, the channel estimation is studied from several aspects by… Show more

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Cited by 14 publications
(4 citation statements)
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“…When multiple users attempt random access simultaneously, multiple packets are transmitted using the same time/frequency channel. At the base station, first the received preamble signal is used to detect the set of active users and estimate its channel [24]. In random access, the user index (user ID) of the user who transmits a packet is unknown in advance, and active user detection means detecting the set of RAIDs, M det , each of which is used in a received packet.…”
Section: Noma-based Random Access For Multi-packet Reception and Its ...mentioning
confidence: 99%
See 1 more Smart Citation
“…When multiple users attempt random access simultaneously, multiple packets are transmitted using the same time/frequency channel. At the base station, first the received preamble signal is used to detect the set of active users and estimate its channel [24]. In random access, the user index (user ID) of the user who transmits a packet is unknown in advance, and active user detection means detecting the set of RAIDs, M det , each of which is used in a received packet.…”
Section: Noma-based Random Access For Multi-packet Reception and Its ...mentioning
confidence: 99%
“…In NOMA-based random access, the base station can recognize the RAID of the received packet through active user detection and channel estimation [24,25] using a RAID-specific preamble added to the received packet. However, the user index (user ID) is written in the data part of the packet, so it will be recognized only when the received packet is correctly decoded.…”
Section: Introductionmentioning
confidence: 99%
“…In random access, to suppress the packet loss due to collision and to achieve multi-packet reception, accurate active RAID (user) detection, in which the set of RAIDs that are used in the transmitted packets is identified, and channel estimation for detected RAIDs are essential [18]. The active RAID detection and channel estimation are conducted by using a preamble attached to the packet.…”
Section: Introductionmentioning
confidence: 99%
“…In particular, BiMSGAMP updates messages according to the activity user detection (AUD) and the residual belief propagation (RBP), metrics already available in the factor graph. Additionally, we examine the mMTC overhead issues described before by considering in our framework non-orthogonal pilots and investigate the asynchronous mMTC scenario [65], [68], [69], [56], [70]. Therefore, BiMSGAMP departs from the common synchronous transmissions and addresses the problem without requiring frame-level synchronization.…”
Section: Introductionmentioning
confidence: 99%