Optimal power allocation for non‐orthogonal multiple access enabled full‐duplex underlay cognitive relay networks under partial relay selection

Aswathi, V; Babu, A. V.

doi:10.1002/ett.4569

Cited by 4 publications

(3 citation statements)

References 69 publications

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“…This system enables multiple SUs to send and receive signals concurrently while still adhering to primary interference power limitations. The work in [13] explores the performance of a NOMA based underlay CR framework with partial relay selection (PRS). In this setup, the secondary network employs NOMA, utilizing K half-duplex (HD), decode-and-forward (DF) relays to assist the SBS in serving SUs.…”

Section: A Related Workmentioning

confidence: 99%

Investigations on Secrecy Performance of Downlink Overlay CR-NOMA System With SIC Imperfections

Godugu,

Vappangi

2024

IEEE Access

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Cognitive radio (CR) and non-orthogonal multiple access (NOMA) are two technologies witnessed to offer tremendous possibilities for the next generation wireless networks to maximise their usage of available spectrum. In this work, we evaluate the performance of a downlink overlay secure CR-NOMA system while the secondary transmitter (ST) is used as a decode-and-forward (DF) relay to assist the primary transmitter (PT) to transmit information to the destination i.e., primary user (PU), while covertly transmitting its own information to the secondary user (SU) against the eavesdropper (Eve) of PT. The secrecy performance comparison between two users i.e., PU and SU are obtained under perfect and imperfect successive interference cancellation (SIC), respectively. Furthermore, this paper investigates the secrecy performance comparison between the proposed overlay downlink CR-NOMA system comprising of single antenna (SA) and multiple antennas (MA) in terms of various performance metrics such as secrecy sum rate (SSR), the average secrecy rate (ASR), the average secrecy sum rate (ASSR), strictly positive secrecy rate (SPSC) and secrecy outage probability (SOP). It is to be noted that in our proposed system, MAs are equipped at both PT and ST with the main purpose to provide cooperative diversity and we employ both maximal ratio combining (MRC) and selection combining (SC) diversity techniques for processing the received signals at the PU/Eve which further improves the system's capacity and enhances the secrecy performance. In addition, for characterizing the secrecy performance of the proposed overlay CR-NOMA network, we present thoroughly the derivations of novel closed-form analytical expressions of the performance metrics such as SOP, SPSC and the ASR by taking into account both perfect SIC (pSIC) and imperfect SIC (ipSIC) scenarios. Based on the analytical frameworks, the numerical and simulation results are obtained under different network parameters. Towards this end, the outcomes of the simulation are shown to prove both the reliability of the mathematical analysis and the accuracy of the suggested technique.INDEX TERMS Non-orthogonal multiple access, physical layer security, overlay cognitive radio, secrecy rate, average secrecy rate, strictly positive secrecy rate.

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Section: A Related Workmentioning

confidence: 99%

Investigations on Secrecy Performance of Downlink Overlay CR-NOMA System With SIC Imperfections

Godugu,

Vappangi

2024

IEEE Access

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“…Moreover, regarding merging the three techniques in one system, that is, MIMO, NOMA, and CR, the performance of the cooperative sensing on the conventional and superior selective reporting types are investigated in reference 18, in which the error probability of the false alarm is derived and optimization constraints are studied for the sake of enhancing the sum rates of the proposed schemes. In reference 19, NOMA with underlay cognitive radio based on in‐band full duplex is proposed and investigated, where a scheme of partial selection of decode‐and‐forward relays is considered, and expressions for obtaining the optimal coefficients of the power allocation are evaluated for maximizing the throughput of the secondary network. Furthermore, the authors in reference 20 suggest the utilization of multiple carrier filter‐band‐based spectral sensing of cooperative NOMA‐CR networks.…”

Section: Introductionmentioning

confidence: 99%

Algorithms and throughput analysis of cognitive radio‐based MIMO‐NOMA for the next generation of wireless communications

Saeed,

Ahmed

2024

Trans Emerging Tel Tech

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In this paper, multi‐users (MU) communications are considered based on the cognitive ratio (CR) technique. Multiple‐input multiple‐output (MIMO) and non‐orthogonal multiple access (NOMA) are proposed to be merged with CR for the sake of improving the achievable throughput and satisfying user fairness. Moreover, utilizing MIMO‐NOMA enables the CR users to be served in the coverage network without the need for spectral sensing. Three scenarios are assumed in this paper to investigate the performance of each CR secondary user (SU) in the presence of single or multiple primary users (PUs). Pairing algorithms are proposed and applied to obtain optimum throughputs and outage probabilities, in which the algorithms are employed to select a PU with an SU to be coupled in a pair, depending on allocating the required power for each user, taking into account that any PU has the priority to reach its required throughput. Moreover, mathematical expressions have been derived for each case to evaluate the required power allocation factor and the achievable throughput for each user. Furthermore, the proposed algorithms show successful and satisfactory achievable rates and outage probabilities.

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“…The obtained results demonstrated that the system performance can be enhanced using multiple relays. An optimal power allocation scheme using partial relay selection was considered in [51] for the sake of enhancing the performance of underlay CRNs. In this work, NOMA was used for transmission and one relay was selected among several DF relays.…”

Section: Introductionmentioning

confidence: 99%

Best Relay Selection Strategy in Cooperative Spectrum Sharing Framework with Mobile-Based End User

et al. 2023

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In this work, a cognitive relay network (CRN) with interference constraint from the primary user (PU) with a mobile end user is studied. The proposed system model employs a half-duplex transmission between a single PU and a single secondary user (SU). In addition, an amplify and forward (AF) relaying technique is employed between the SU source and SU destination. In this context, the mobile end user (SU destination) is assumed to move at high vehicular speeds, whereas other nodes (SU Source, SU relays and PU) are assumed to be stationary. The proposed scheme dynamically determines the best relay for transmission based on the highest signal-to-noise (SNR) ratio by deploying selection combiner at the SU destination, thereby achieving diversity. All channels connected with the stationary nodes are modelled using Rayleigh distribution, whereas all other links connected with the mobile end user are modelled using Nakagami-m fading distribution (m<1). The outage probabilities (OPs) are obtained considering several scenarios and Monte Carlo simulation is used to verify the numerical results. The obtained results show that a variety of factors, including the number of SU relays, the severity of the fading channels, the position of the PU, the fading model, and the mobile end user speed, might influence the CRN’s performance.

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Optimal power allocation for non‐orthogonal multiple access enabled full‐duplex underlay cognitive relay networks under partial relay selection

Cited by 4 publications

References 69 publications

Investigations on Secrecy Performance of Downlink Overlay CR-NOMA System With SIC Imperfections

Investigations on Secrecy Performance of Downlink Overlay CR-NOMA System With SIC Imperfections

Algorithms and throughput analysis of cognitive radio‐based MIMO‐NOMA for the next generation of wireless communications

Best Relay Selection Strategy in Cooperative Spectrum Sharing Framework with Mobile-Based End User

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