Rate splitting for MIMO wireless networks: a promising PHY-layer strategy for LTE evolution

Clerckx, Bruno; Joudeh, Hamdi; Hao, Chenxi; Dai, Mingbo; Rassouli, Borzoo

doi:10.1109/mcom.2016.7470942

Cited by 356 publications

(344 citation statements)

References 17 publications

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“…SUM-RATE ANALYSIS Our objective is to derive tractable and insightful sumrate expressions to illustrate the flexibility of RS in unifying SDMA, OMA, NOMA, and multicasting. To that end, we do not optimize the precoding directions jointly with the power allocation as in [3], [7] but rather fix the precoding directions using ZF for the private streams, and adjust the power allocation among all the streams 1…”

Section: System Model: Rate-splitting Architecturementioning

confidence: 99%

“…Linearly precoded Rate-Splitting (RS) with Successive Interference Cancellation (SIC) receivers has recently appeared as a powerful non-orthogonal transmission and robust interference management strategy for multi-antenna wireless networks [1]. 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].…”

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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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: System Model: Rate-splitting Architecturementioning

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.

Self Cite

249

174

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“…The system employs the RS scheme, which splits the messages into a common part and a private part [18], [9]. Since we focus on the sum rate analysis, it suffices to consider that only one stream is split.…”

Section: System Model and Linear Precodingmentioning

confidence: 99%

Linearly Precoded Rate-Splitting Techniques with Block Diagonalization for Multiuser MIMO Systems

Flores

Lamare

2019

2019 IEEE International Conference on Communications Workshops (ICC Workshops)

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In this work, we investigate Block Diagonalization (BD) techniques for multiuser multiple-antenna systems using rate-splitting (RS) multiple access. In RS multiple access the messages of the users are split into a common part and a private part in order to mitigate multiuser interference. We present the system model for a RS multiple access system operating in a broadcast channel scenario where the receivers are equipped with multiple antennas. We also develop linear precoders based on BD for the RS multiple access systems along with combining techniques, such as the min-max criterion and the maximum ratio combining criterion, to enhance the common rate. Closed-form expressions to describe the sum rate performance of the proposed scheme are also derived. The performance of the system is evaluated via simulations considering imperfect channel state information at the transmitter. The results show that the proposed schemes outperform conventional linear precoding methods. Index TermsMultiple-antenna systems, ergodic sum-rate, rate-splitting, block diagonalization .

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“…In consequence, rate splitting multiple access (RSMA) has been recently proposed as an effective approach to provide more general and robust transmission framework compared to non-orthogonal multiple access (NOMA) [3]- [8] and space-division multiple access (SDMA). However, implementing RSMA in wireless networks also faces several challenges [9] such as decoding order design and resource management for message transmission.…”

Section: Introductionmentioning

confidence: 99%

Sum-Rate Maximization of Uplink Rate Splitting Multiple Access (RSMA) Communication

Yang

Chen

Saad

et al. 2019

2019 IEEE Global Communications Conference (GLOBECOM)

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In this paper, the problem of maximizing the wireless users' sum-rate for uplink rate splitting multiple access (RSMA) communications is studied. In the considered model, each user transmits a superposition of two messages to a base station (BS) with separate transmit power and the BS uses a successive decoding technique to decode the received messages. To maximize each user's transmission rate, the users must adjust their transmit power and the BS must determine the decoding order of the messages transmitted from the users to the BS. This problem is formulated as a sum-rate maximization problem with proportional rate constraints by adjusting the users' transmit power and the BS's decoding order. However, since the decoding order variable in the optimization problem is discrete, the original maximization problem with transmit power and decoding order variables can be transformed into a problem with only the rate splitting variable. Then, the optimal rate splitting of each user is determined.Given the optimal rate splitting of each user and a decoding order, the optimal transmit power of each user is calculated. Next, the optimal decoding order is determined by an exhaustive search method. To further reduce the complexity of the optimization algorithm used for sum-rate maximization in RSMA, a user pairing based algorithm is introduced, which enables two users to use RSMA in each pair and also enables the users in different pairs to be allocated with orthogonal frequency. For comparisons, the optimal sum-rate maximizing solutions with proportional rate constraints are obtained in closed A preliminary version of this work was submitted to IEEE Globecom 2019 [1]. . 2 form for non-orthogonal multiple access (NOMA), frequency division multiple access (FDMA), and time division multiple access (TDMA). Simulation results show that RSMA can achieve up to 10.0%, 22.2%, and 83.7% gains in terms of sum-rate compared to NOMA, FDMA, and TDMA. Index TermsRate splitting multiple access (RSMA), decoding order, power management, resource allocation.

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Rate splitting for MIMO wireless networks: a promising PHY-layer strategy for LTE evolution

Cited by 356 publications

References 17 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

Linearly Precoded Rate-Splitting Techniques with Block Diagonalization for Multiuser MIMO Systems

Sum-Rate Maximization of Uplink Rate Splitting Multiple Access (RSMA) Communication

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