Robust Transmission in Downlink Multiuser MISO Systems: A Rate-Splitting Approach

Joudeh, Hamdi; Clerckx, Bruno

doi:10.1109/tsp.2016.2591501

Cited by 207 publications

(181 citation statements)

References 52 publications

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“…Though originally introduced for the two-user Single-Input Single-Output Interference Channel (IC) in [2], RS has become an underpinning communication-theoretic strategy to tackle modern interference-related problems and has recently been successfully investigated in several Multiple-Input Single-Output (MISO) Broadcast Channel (BC) settings, namely, unicast-only transmission with perfect Channel State Information at the Transmitter (CSIT) [3], [4] and imperfect CSIT [5]- [13], (multigroup) multicast-only transmission [14], as well as superimposed unicast and multicast transmission [15]. Results highlight that RS provides significant benefits in terms of spectral efficiency [3], [6], [7], [9], [13]- [15], energy efficiency [4], robustness [8], and CSI feedback overhead reduction [6], [12] over conventional strategies used in LTE-A/5G that rely on fully treating interference as noise (e.g. conventional multiuser linear precoding and Space Division Multiple Access -SDMA) or fully decoding interference (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…This is the first paper to show analytically how RS unifies, outperforms, and specializes to SDMA, OMA, NOMA, and multicasting as a function of the disparity of the user channel strengths and the angle between the user channel directions. To that end, the paper differs from, and nicely complements, past works that analytically studied the rate performance of RS with imperfect CSIT [6], [9], [12] or looked at RS from an optimization perspective [3], [7], [8].…”

Section: Introductionmentioning

confidence: 99%

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Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Clerckx

Mao

Schober

et al. 2020

IEEE Wireless Commun. Lett.

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253

174

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Considering a two-user multi-antenna Broadcast Channel, this paper shows that linearly precoded Rate-Splitting (RS) with Successive Interference Cancellation (SIC) receivers is a flexible framework for non-orthogonal transmission that generalizes, and subsumes as special cases, four seemingly different strategies, namely Space Division Multiple Access (SDMA) based on linear precoding, Orthogonal Multiple Access (OMA), Non-Orthogonal Multiple Access (NOMA) based on linearly precoded superposition coding with SIC, and physical-layer multicasting. The paper studies the sum-rate and shows analytically how RS unifies, outperforms, and specializes to SDMA, OMA, NOMA, and multicasting as a function of the disparity of the channel strengths and the angle between the user channel directions.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Clerckx

Mao

Schober

et al. 2020

IEEE Wireless Commun. Lett.

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253

174

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“…The maximum value of the numerator is achieved when w (12) where β j is the angle between w k and r k,j . The sum rate performance can be found by using (12) in (7) and in (8).…”

Section: B Maximum Ratio Combiningmentioning

confidence: 99%

“…Substituting (26) and (27) in (10) we obtain the SINR, which can be used in (7) and (8) to obtain the sum rate.…”

Section: Private Ratementioning

confidence: 99%

Linear Precoding and Stream Combining for Rate Splitting in Multiuser MIMO Systems

2020

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This paper develops stream combining techniques for rate-splitting (RS) multiple-antenna systems with multiple users to enhance the common rate. We propose linear combining techniques based on the Min-Max, the maximum ratio and the minimum mean-square error criteria along with Regularized Block Diagonalization (RBD) precoders for RS-based multiuser multiple-antenna systems. An analysis of the sum rate performance is carried out, leading to closed-form expressions. Simulations show that the proposed combining schemes offer a significant sum rate performance gain over conventional linear precoding schemes.Index Terms-Multiuser MIMO, ergodic sum rate, ratesplitting, regularized block diagonalization.

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“…In contrast to NOMA that relies on some users to fully decode the messages of other users (i.e. fully decode interference), Rate-Splitting (RS) also exploits SIC but exploits a more flexible framework of non-orthogonal transmission, which enables to partially decode interference and partially treat remaining interference as noise, and hence provide significant benefits in terms of spectral efficiency [13], [15]- [20], energy efficiency [21], robustness [22], and CSI feedback overhead reduction [15], [23]. In addition, on the standpoint of encoding structure, the combination of a common stream decoded by all users and private streams dedicated to each user also provides a fundamental compatibility with other advanced techniques [24].…”

mentioning

confidence: 99%

Cooperative Rate Splitting for MISO Broadcast Channel With User Relaying, and Performance Benefits Over Cooperative NOMA

Zhang

Clerckx

et al. 2019

IEEE Signal Process. Lett.

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Due to its promising performance in a wide range of practical scenarios, Rate-Splitting Multiple Access (RSMA) has recently received significant attention in academia for the downlink of communication systems. In this letter, we propose and analyse a Cooperative Rate-Splitting (CRS) strategy based on the three-node relay channel where the transmitter is equipped with multiple antennas. By splitting user messages and linearly precoding common and private streams at the transmitter, and opportunistically asking the relaying user to forward its decoded common message, CRS can efficiently cope with a wide range of propagation conditions (disparity of user channel strengths and directions) and compensate for performance degradation due to deep fading. The precoder design and resource allocation scheme are optimized by solving the Weighted Sum Rate (WSR) maximization problem. Numerical results demonstrate that our proposed CRS scheme can achieve an explicit rate region improvement compared to its non-cooperative counterpart and other cooperative strategies (such as cooperative NOMA). Index Termsrate-splitting, resource allocation, relay broadcast channel, rate region, WMMSE algorithm.

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Robust Transmission in Downlink Multiuser MISO Systems: A Rate-Splitting Approach

Cited by 207 publications

References 52 publications

Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Linear Precoding and Stream Combining for Rate Splitting in Multiuser MIMO Systems

Cooperative Rate Splitting for MISO Broadcast Channel With User Relaying, and Performance Benefits Over Cooperative NOMA

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