Optimal Time Allocation for Energy Harvesting Cognitive Radio Networks with Multichannel Spectrum Sensing

Liu, Xiaoying; Xia, Ming; Hu, Ping; Zheng, Kechen; Zhang, Shubin

doi:10.1155/2022/3940132

Cited by 4 publications

(1 citation statement)

References 36 publications

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“…The proposed scheme is exploited cooperative communication for designing the CRNs. In Reference 15, authors have presented frequency and time domain‐based energy harvesting cognitive radio networks with the multichannel (EH‐CRNsM) technique. In the suggested technique, the SUs consume harvested energy to access licensed subchannels opportunistically.…”

Section: Related Workmentioning

confidence: 99%

Cooperation and energy harvesting based spectrum sensing schemes for green cognitive radio networks

Srivastava

Kaur

2022

Trans Emerging Tel Tech

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Cognitive radio network (CRNs) with energy harvesting approach to identify unused spectrum bands and utilize them opportunistically is observed as an evolving technology to handle spectrum scarcity problems. In CRNs, the secondary users (SUs) continuously sense the primary user's (PUs) spectrum to secure the data transmission of PUs and to access the vacant PU's spectrum for their data transmission. For designing future green networks, it is essential that the spectrum sensing process must be accurate, rapid, and energy‐efficient. Therefore, in this work, three sensing schemes are proposed. The first is a cooperation‐based joint cooperation spectrum sensing (JCSS) scheme in which the cooperative CRNs permit the SUs, working in an identical band, to cooperate, and this cooperation approach decreases sensing time and improves sensing probability for vacant spectrum. The result shows that the sensing probability for a vacant spectrum is increased by 34%. The proposed JCSS scheme considers the inherent asymmetry property of the network; therefore, it helps to improve the overall rapidity gain of the networks. The other two proposed sensing schemes, preset spectrum sensing (PSS) and viscous spectrum sensing (VSS), are based on energy harvesting that analyzes the percentage of energy‐saving for various states. The suggested schemes are better in terms of scalability because, in these schemes, it is not essential to sense all spectrums, which leads to a reduction in sensing time.

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Section: Related Workmentioning

confidence: 99%

Cooperation and energy harvesting based spectrum sensing schemes for green cognitive radio networks

Srivastava

Kaur

2022

Trans Emerging Tel Tech

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Enhancing spectral efficiency of green metric cognitive radio network using an adaptive optimization and communication protocol

Kumar,

Kumari

2024

Int J Communication

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SummaryInformation technology enables the process of spectral sensing and spectral efficiency (SE) with the help of different strategies attracted by researchers in cooperative cognitive radio networks (CCRN). Compared with other wireless technologies, spectral sharing in green metric CCRN (GMCCRN) is an effective strategy. Due to the collaboration between the unlicensed and licensed customers, the spectral sharing between the cooperative customers possesses various challenges. Here, the effectiveness of green CCRN is demonstrated through a variety of useful techniques. The proposed work designed a channel using Markov Gaussian wideband distribution (MGWD), and for communication, dynamic optimal relay‐based protocol (DORP) is used. Also, an effective optimization known as adaptive dynamic group‐based optimization algorithm (ADGCO) is used to examine the false alarm detection and finest spectral sensing. Finally, the effectiveness of GMCCRN is validated in terms of outage probability, spectral efficiency, energy efficiency, and throughput. Furthermore, the results revealed that the proposed method in CCRN reduces power consumption at both the secondary user (SU) and primary user (PU) sides. Also, the method maximized the throughput compared with existing schemes and achieved 0.3 as error prospect and 92.6% as accuracy.

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A Hybrid Communication Scheme for Throughput Maximization in Backscatter-Aided Energy Harvesting Cognitive Radio Networks

Zheng

Wang

Liu

et al. 2023

IEEE Internet Things J.

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Optimal Time Allocation for Energy Harvesting Cognitive Radio Networks with Multichannel Spectrum Sensing

Cited by 4 publications

References 36 publications

Cooperation and energy harvesting based spectrum sensing schemes for green cognitive radio networks

Cooperation and energy harvesting based spectrum sensing schemes for green cognitive radio networks

Enhancing spectral efficiency of green metric cognitive radio network using an adaptive optimization and communication protocol

A Hybrid Communication Scheme for Throughput Maximization in Backscatter-Aided Energy Harvesting Cognitive Radio Networks

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