2022
DOI: 10.1109/jsac.2022.3143237
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Optimal Power Allocation in Downlink Multicarrier NOMA Systems: Theory and Fast Algorithms

Abstract: In this work, we propose globally optimal power allocation strategies to maximize the users sum-rate (SR), and system energy efficiency (EE) in the downlink of single-cell multicarrier non-orthogonal multiple access (MC-NOMA) systems. Each NOMA cluster includes a set of users in which the wellknown superposition coding (SC) combined with successive interference cancellation (SIC) technique is applied among them. By obtaining the closed-form expression of intra-cluster power allocation, we show that MC-NOMA can… Show more

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Cited by 53 publications
(15 citation statements)
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References 65 publications
(180 reference statements)
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“…Substituting (41) back into (40b), problem P1 can be converted into the following equivalent minimization problem, denoted by P2, as follows:…”
Section: A Minimizing the Decoding Error Probabilitymentioning
confidence: 99%
“…Substituting (41) back into (40b), problem P1 can be converted into the following equivalent minimization problem, denoted by P2, as follows:…”
Section: A Minimizing the Decoding Error Probabilitymentioning
confidence: 99%
“…In the NOMA system, the feasible set of Equation ( 15) is the intersection of closedboxes along with the affine cluster power constraint [15], i.e., q g ∈ [Q min g , P mask g ], ∀g ∈ G, the lower bound constraint is given by:…”
Section: Power Allocation Solutionmentioning
confidence: 99%
“…The researchers in [14] proposed an optimal power allocation scheme for a two-user NOMA system to maximize the spectral efficiency, but the work is limited to a two-user NOMA system and does not consider the minimum rate constraint of the users. The researchers in [15] proposed a global optimal power allocation scheme with minimum rate constraint in the K-user NOMA system that is further proposed to maximize the system performance, but the work is not extended to the mmWave mMIMO system. The researchers in [16] proposed a sub-optimal power allocation scheme to improve the energy efficiency in the mmWave mMIMO-NOMA system, but the research does not consider the mathematical methods to derive the closed-form solutions for the power allocation.…”
Section: Introductionmentioning
confidence: 99%
“…In a cognitive radio scenario, QoS of the primary user has to be ensured and hence transmit power of PU will be much larger than that of SU. Assuming similar channel gains for both PU and SU, we can consider that 𝑑 ≫ 𝑑 in equation (24). Hence, equation ( 26) can be approximately written as,…”
Section: Pdfmentioning
confidence: 99%
“…Majority of the existing works are focused only on one of the following aspects -power allocation, outage analysis or error rate analysis. Optimization of power allocation among different users has been carried out considering factors like interference [7], [20], throughput [14], [20]- [24], outage probability [22], BER performance [25], coverage fairness [26] and energy efficiency [20], [24]. Mostly, power allocation schemes consider the interference constraint with respect to primary system, but do not ensure minimum throughput at PU.…”
Section: Introductionmentioning
confidence: 99%