Estimating optimal joint user cluster pair transmission power using black widow optimization technique
By: Thiyagarajan, S
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Contributor(s): Kumar, K.
Publisher: USA Springer 2023Edition: Vol.104(5), Oct.Description: 1069-1077p.Subject(s): Humanities and Applied SciencesOnline resources: Click here
In:
Journal of the institution of engineers (India): Series BSummary: Energy harvesting system computation technologies have been extensively studied by non-orthogonal multiple access cognitive radio network (NOMA-CRN) researchers. Use an asymptotic method for estimating ergodic capacity of closed network in terms of average interference power and outage probability. In this paper, a nature-inspired metaheuristic approach is used to optimistically estimate the energy constraints for the Secondary Users (SUs) are completed using the joint user cluster pairing (J-UCP) scheme. Thus, the Primary User (PU) frequency can be used efficiently for signal transmission while also ensuring proper operation of the signal interference cancellation, which occurs at the receiver end, by keeping near-gain user pairs from forming. The energy harvesting strategy of the NOMA-CRN under the principle of joint user cluster pairing can be examined using the black widow optimization technique. An outage probability is reduced, and the optimal joint user cluster pair transmission power is determined.
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School of Engineering & Technology Archieval Section | Not for loan | 2024-0116 |
Energy harvesting system computation technologies have been extensively studied by non-orthogonal multiple access cognitive radio network (NOMA-CRN) researchers. Use an asymptotic method for estimating ergodic capacity of closed network in terms of average interference power and outage probability. In this paper, a nature-inspired metaheuristic approach is used to optimistically estimate the energy constraints for the Secondary Users (SUs) are completed using the joint user cluster pairing (J-UCP) scheme. Thus, the Primary User (PU) frequency can be used efficiently for signal transmission while also ensuring proper operation of the signal interference cancellation, which occurs at the receiver end, by keeping near-gain user pairs from forming. The energy harvesting strategy of the NOMA-CRN under the principle of joint user cluster pairing can be examined using the black widow optimization technique. An outage probability is reduced, and the optimal joint user cluster pair transmission power is determined.
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