Ant-colony and nature-inspired heuristic models  for NOMA systems: a review

Liyn, Law Poh; Ghani, Hadhrami Ab.; Roslim, Farah Najwa; Hamzah, Nur Asyiqin Amir; Mohammed, Saeed Mohammed Abdulghani; Aziz, Nor Hidayati Abdul; Aziz, Azlan Abd; Geok, Tan Kim; Azizan, Azızul

doi:10.12928/telkomnika.v18i4.14995

Cited by 5 publications

(5 citation statements)

References 49 publications

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“…Based on the configuration discussed in the previous section, a NOMA system is considered with 19 cells, each of which consists of three sectors. The input data values, including the channel gain values, are chosen based on the 3GPP standard values which are widely applied in literature, such as in [20], [26]. The objective of the simulation run in this section is to group the users based on the proposed DPSO scheme and other state-of-the-art schemes before the performance is measured in terms of the mean throughput and the average mean square error per user, which are formulated based on equations given in (1) to (7).…”

Section: Results and Analysismentioning

confidence: 99%

5G NOMA user grouping using discrete particle swarm optimization approach

et al. 2021

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Non-orthogonal multiple access (NOMA) technology meets the increasing demand for high-seed cellular networks such as 5G by offering more users to be accommodated at once in accessing the cellular and wireless network. Moreover, the current demand of cellular networks for enhanced user fairness, greater spectrum efficiency and improved sum capacity further increase the need for NOMA improvement. However, the incurred interference in implementing NOMA user grouping constitutes one of the major barriers in achieving high throughput in NOMA systems. Therefore, this paper presents a computationally lower user grouping approach based on discrete particle swarm intelligence in finding the best user-pairing for 5G NOMA networks and beyond. A discrete particle swarm optimization (DPSO) algorithm is designed and proposed as a promising scheme in performing the user-grouping mechanism. The performance of this proposed approach is measured and demonstrated to have comparable result against the existing state-of-the art approach.

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Section: Results and Analysismentioning

confidence: 99%

5G NOMA user grouping using discrete particle swarm optimization approach

et al. 2021

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“…The quadratic method in sequential format is used as the algorithm, and the results validates the theoretical study. A comparison of different heuristic models for optimization in case of PA is covered in [15]. The ant colony mode, which is a nature-inspired method outperforms all other methods.…”

Section: Related Workmentioning

confidence: 99%

Differential Evolution Optimized Non-Orthogonal Multiple Access for Sum Rate Maximization

Rayaroth,

Kumaravelu,

John Kennedy

et al. 2023

RAiSE-2023

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“…Mainly classified into code-domain, power domain, and multiple domain NOMA [10]. The power domain NOMA is a single carrier technique multiplexing various users in the same resource block (RB) by varying their power levels based on individual channel conditions [11] separated at the receiver through successive interference cancellation (SIC) technique [12]. Code domain NOMA includes multi-carrier techniques and can accommodate multiple users within the same RB based on codes.…”

Section: Introductionmentioning

confidence: 99%

A review of codebook design methods for sparse code multiple access

Hussain¹,

Ahmad²,

Shayea³

et al. 2021

IJEECS

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<span lang="EN-GB">The progressions in telecommunication beyond the 5<sup>th</sup> generation have created a need to improve research drifts. The current 5G study has an important focus on non-orthogonal multiple access (NOMA) technology. sparse code multiple access (SCMA) is a promising technique within NOMA, enhancing the multi-user handling capability of next-generation communication. In the SCMA sphere, codebook designing and optimisation are essential research matters. This study conversed with different codebook design practises existing in the literature, analysing them for numerous parameters, including bit error rate (BER), an optimisation technique, and channel settings. From the analysis, the paper presents the efficiency of different approaches. The article also discusses the prospects and challenges of SCMA optimisation in practical implementation in various domains.</span>

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Ant-colony and nature-inspired heuristic models for NOMA systems: a review

Cited by 5 publications

References 49 publications

5G NOMA user grouping using discrete particle swarm optimization approach

5G NOMA user grouping using discrete particle swarm optimization approach

Differential Evolution Optimized Non-Orthogonal Multiple Access for Sum Rate Maximization

A review of codebook design methods for sparse code multiple access

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