Outage and ergodic sum‐rate performance of cooperative MIMO‐NOMA with imperfect CSI and SIC

Aldababsa, Mahmoud; Kucur, Oğuz

doi:10.1002/dac.4405

Cited by 20 publications

(15 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Since SIC is not employed at the f th UE, its received SINR will be the same as in (1). However, with imperfect SIC, the received SINR at the n th UE can be modified as 31‐33

γ_{n} = \frac{a_{n}^{2} {| g_{n} |}^{2}}{β {| g_{f} |}^{2} + \frac{1}{ρ}},

where

β

0 \leq β \leq 1

, is the level of residual interference due to imperfect SIC at the n th UE. By using the value of

γ_{n}

in (35) and following the steps in Section 3.2, the sum‐rate and achievable rates can be evaluated numerically for the imperfect SIC case.…”

Section: Resultsmentioning

confidence: 99%

Performance analysis for user selection‐based downlink non‐orthogonal multiple access system over generalized fading channels

SharmaPriyank

KumarAtul

BansalMatadeen

2021

Trans Emerging Tel Tech

View full text Add to dashboard Cite

In this study, user selection‐based downlink power domain‐non‐orthogonal multiple access (NOMA) system is investigated over generalized fading channels, that is, η‐μ and κ‐μ fading channels. In particular, this system considers multiple users and out of which two users are selected to serve with NOMA principle in perfect channel state information scenario. The outage probability expressions of the system are derived with respect to the fixed target rate and the orthogonal multiple access (OMA) rate. In addition, the average sum‐rate and rate of paired users of the system are derived and compared with that of OMA. Further, the optimum power allocation coefficients are derived for the system to ensure fixed and dynamic rate requirements. The impact of imperfect successive interference cancelation on the system performance is discussed. The paper also investigates the effect of various parameters on the performance of the system. The extensive simulations show the accuracy of the derived expressions.

show abstract

“…Since SIC is not employed at the f th UE, its received SINR will be the same as in (1). However, with imperfect SIC, the received SINR at the n th UE can be modified as 31‐33

γ_{n} = \frac{a_{n}^{2} {| g_{n} |}^{2}}{β {| g_{f} |}^{2} + \frac{1}{ρ}},

where

β

0 \leq β \leq 1

, is the level of residual interference due to imperfect SIC at the n th UE. By using the value of

γ_{n}

in (35) and following the steps in Section 3.2, the sum‐rate and achievable rates can be evaluated numerically for the imperfect SIC case.…”

Section: Resultsmentioning

confidence: 99%

Performance analysis for user selection‐based downlink non‐orthogonal multiple access system over generalized fading channels

SharmaPriyank

KumarAtul

BansalMatadeen

2021

Trans Emerging Tel Tech

View full text Add to dashboard Cite

show abstract

“…It is quite obvious that the aforementioned studies do not consider channel estimation error (CEE), feedback delay (FBD), and imperfect SIC (ipSIC) which are crucial not to be ignored although they comprise of multiple antenna and relaying techniques. Nevertheless, there are some investigations on MIMO-NOMA with/without relaying techniques considering practical impairments (such as CEE, FBD, and ipSIC) [34][35][36][37][38][39] to demonstrate the effects on the system performance, but still remain limited. In particular, in Reference 34, the system considered in Reference 25 is generalized to all STBC schemes, and OP and ergodic capacity (EC) performances are investigated by taking into account CEE, FBD and imperfect SIC.…”

Section: Motivation and Contributionsmentioning

confidence: 99%

“…In Reference 36, OP performance of NOMA based dual‐hop network, where transmit antenna selection (TAS) and MRC techniques are applied at the BS and users respectively, is analyzed for channel state information (CSI) based relay by considering the effect of CEE over Nakagami‐ m fading channels. In Reference 37, the system in Reference 36 is jointly analyzed for both CSI based and fixed gain relay in the presence of CEE and ipSIC. In Reference 38, hybrid MRT/RAS scheme is investigated in both hops of a cooperative MIMO‐NOMA system over Nakagami‐ m fading channels under the consideration of CEE.…”

Section: Introductionmentioning

confidence: 99%

Performance analyses of TAS/Alamouti‐MRC NOMA system with channel estimation error, feedback delay, and imperfect SIC

Toka

Kucur

2021

Trans Emerging Tel Tech

Self Cite

View full text Add to dashboard Cite

In this article, the performance of a power domain downlink multiple-input multiple-output non-orthogonal multiple access system, where the base station (BS) equipped with three antennas communicates simultaneously with three mobile users equipped with multiple antennas, is analyzed over Nakagami-m fading channels in the presence of channel estimation error (CEE), feedback delay (FBD), and imperfect successive interference cancellation. In the considered system, the BS applies transmit antenna selection (TAS)/Alamouti-space-time block coding (STBC) scheme while mobile users are assumed to adopt maximum-ratio combining technique in order to take advantage of the combination of transmit and receive diversities. In particular, in order to apply Alamouti-STBC scheme at the BS, one of the transmit antennas is determined randomly while the other one is selected according to decision of the majority of mobile users. For performance metrics, closed-form outage probability (OP) and ergodic capacity (EC) expressions derived with the help of moment generating function approach. Moreover, asymptotic analyses are maintained to demonstrate the effects of CEE and FBD in terms of diversity order and array gain. We show that the proposed system provides better OP and EC performance than the system without antenna selection for different users and conditions.

show abstract

“…Also, the transmit antenna selection (TAS) and maximal ratio combining (MRC) schemes are applied at the BS and users, respectively. Then, the work [3] is extended to [4]- [9] for the fixed-gain AF relay with perfect CSI (pCSI) [4], for the CSI based gain AF relay with imperfect CSI (ipCSI) [5], and for both CSI based and fixed-gain AF relay in the ipCSI and imperfect successive interference cancellation (ipSIC) cases [6]. The OP and ergodic sum-rate are studied in [7] under Rayleigh fading channels for the dual-hop NOMA network, where joint transmit receive antenna selection (JTRAS) and receive It is worth to mention that [11]- [23] use a relay with single transmit and single receive antenna while [24] uses a relay with single transmit and multiple receive antennas.…”

Section: Introductionmentioning

confidence: 99%

Joint Transmit-and-Receive Antenna Selection System for MIMO-NOMA With Energy Harvesting

Aldababsa

Başar

2022

IEEE Systems Journal

Self Cite

View full text Add to dashboard Cite

In this paper, outage probability (OP) of a joint transmit and receive antenna selection (JTRAS) scheme is analyzed in multiple-input multiple-output non-orthogonal multiple access based downlink energy harvesting (EH) relaying networks. In this dual-hop and amplify-andforward relaying based network, since the first and second hops are types of single-user and multi-user systems, respectively, the optimal JTRAS and suboptimal majority-based JTRAS schemes are employed in the first and second hops. The theoretical OP analysis is carried out over Nakagami-m fading channels in the cases of perfect and imperfect successive interference cancellation. Finally, Monte Carlo simulations are performed to substantiate the accuracy of the theoretical analysis. It is shown that the optimal power splitting ratios at the EH relay are different for users and the users with good channel conditions have minimum optimal ratios.

show abstract

Outage and ergodic sum‐rate performance of cooperative MIMO‐NOMA with imperfect CSI and SIC

Cited by 20 publications

References 47 publications

Performance analysis for user selection‐based downlink non‐orthogonal multiple access system over generalized fading channels

Performance analysis for user selection‐based downlink non‐orthogonal multiple access system over generalized fading channels

Performance analyses of TAS/Alamouti‐MRC NOMA system with channel estimation error, feedback delay, and imperfect SIC

Joint Transmit-and-Receive Antenna Selection System for MIMO-NOMA With Energy Harvesting

Contact Info

Product

Resources

About