Grant-Free Access via Bilinear Inference for Cell-Free MIMO With Low-Coherence Pilots

Iimori, Hiroki; Takahashi, Takumi; Ishibashi, Koji; Abreu, Giuseppe; Yu, Wei

doi:10.1109/twc.2021.3088125

Cited by 20 publications

(16 citation statements)

References 74 publications

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“…As described in [25], this granting procedure results in a latency of around 9.5 millisecond (ms), which hinders meeting the strict latency requirements of some IoT use cases [26]. Hence, grant-free access techniques such as 𝐾-repetition [27], variants of diversity slotted ALOHA [28][29][30] and code-domain GF-NOMA [25,[31][32][33][34] have been actively investigated to meet these low-latency re-quirements. Code-domain GF-NOMA can allow more users to transmit simultaneously without the BS's granting pro-cess and can theoretically achieve the most powerefficient communications [35].…”

Section: Grant-free Noma For Low-latency Massive Accessmentioning

confidence: 99%

User-Centric Design of Millimeter Wave Communications for Beyond 5G and 6G

Ishibashi

Hara

Uchimura

et al. 2022

IEICE Trans. Commun.

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In this paper, we propose new radio access network (RAN) architecture for reliable millimeter-wave (mmWave) communications, which has the flexibility to meet users' diverse and fluctuating requirements in terms of communication quality. This architecture is composed of multiple radio units (RUs) connected to a common distributed unit (DU) via fronthaul links to virtually enlarge its coverage. We further present grant-free non-orthogonal multiple access (GF-NOMA) for lowlatency uplink communications with a massive number of users and robust coordinated multi-point (CoMP) transmission using blockage prediction for uplink/downlink communications with a high data rate and a guaranteed minimum data rate as the technical pillars of the proposed RAN. The numerical results indicate that our proposed architecture can meet completely different user requirements and realize a user-centric design of the RAN for beyond 5G/6G.

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Section: Grant-free Noma For Low-latency Massive Accessmentioning

confidence: 99%

User-Centric Design of Millimeter Wave Communications for Beyond 5G and 6G

Ishibashi

Hara

Uchimura

et al. 2022

IEICE Trans. Commun.

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“…Thus, exact message passing based on the sum-product rule is too complicated to implement, while the computational cost is impractical for the mMTC scenario. Thus, an alternative applied in recent years [65], [71], [72] is to approximate these quantities using loopy belief propagation (LBP) [73]. In LBP, beliefs about the random variables are exchanged between the nodes of the factor graph until they converge.…”

Section: Problem Formulationmentioning

confidence: 99%

“…P(x, c, s) N c (x|ζ, ν q ) dx dζ,(72) and h = h P(h; ρ) N c (h|ζ, ν r ) dh (h|ρ) N c (h|ζ, ν r ) dh dζ.…”

mentioning

confidence: 99%

Joint Channel Estimation, Activity Detection and Decoding using Dynamic Message-Scheduling for Machine-Type Communications

Renna¹,

Lamare²

2022

Preprint

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In this work, we present a joint channel estimation, activity detection and data decoding scheme for massive machinetype communications. By including the channel and the a priori activity factor in the factor graph, we present the bilinear message-scheduling GAMP (BiMSGAMP), a message-passing solution that uses the channel decoder beliefs to refine the activity detection and data decoding. We include two messagescheduling strategies based on the residual belief propagation and the activity user detection in which messages are evaluated and scheduled in every new iteration. An analysis of the convergence of BiMSGAMP along with a study of its computational complexity is carried out. Numerical results show that BiMSGAMP outperforms state-of-the-art algorithms, highlighting the gains achieved by using the dynamic scheduling strategies and the effects of the channel decoding part in the system.

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“…The decision rule of (24) can be derived using certain approximations. First, according to (8), γ t,n can be approximated as…”

Section: Appendixmentioning

confidence: 99%

“…To overcome this difficulty, schemes exploiting the inherent sparsity in sporadic traffic have been actively investigated. For instance, approaches based on message passing mechanisms have been proposed [4]- [8], performing AUD and CE with low computational complexity. However, many of these approaches, e.g., multiple measurement vector approximate message passing (MMV-AMP) [4]- [6], require large-scale fading (LSF) coefficients of all users as prior knowledge of the wireless channels that is likely to be unavailable at the BS ahead of the uplink transmission.…”

Section: Introductionmentioning

confidence: 99%

Blind Multiple Measurement Vector AMP Based on Expectation Maximization for Grant-Free NOMA

Hara

Ishibashi

2022

IEEE Wireless Commun. Lett.

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We consider a new approach to perform active user detection and channel estimation in massive grant-free access without requiring prior knowledge of the wireless channels, such as information on large-scale fading coefficients. To this end, we propose a multiple measurement vector approximate message passing (MMV-AMP) with expectation-maximization (EM)-based hyperparameter update, i.e., EM-MMV-AMP. Moreover, we revisited the decision rule for active user detection for EM-MMV-AMP. The numerical results indicate that the performance of the proposed scheme is superior to those of conventional schemes.

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Grant-Free Access via Bilinear Inference for Cell-Free MIMO With Low-Coherence Pilots

Cited by 20 publications

References 74 publications

User-Centric Design of Millimeter Wave Communications for Beyond 5G and 6G

User-Centric Design of Millimeter Wave Communications for Beyond 5G and 6G

Joint Channel Estimation, Activity Detection and Decoding using Dynamic Message-Scheduling for Machine-Type Communications

Blind Multiple Measurement Vector AMP Based on Expectation Maximization for Grant-Free NOMA

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