Generalized Buffer-State-Based Relay Selection in Cooperative Cognitive Radio Networks

Zhang, Ruichao; Nakai, Ryota; Sezaki, Kaoru; Sugiura, Shinya

doi:10.1109/access.2020.2965742

Cited by 14 publications

(23 citation statements)

References 31 publications

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“…Similar to [30], under i.i.d. fading, the BSB relaying scheme in the scenario of a cooperative radio network (CRN), supporting both primary and secondary networks, was proposed in [32]. In this scheme, by presenting a flexible link selection algorithm in the secondary network, the impacts of both fading and inter‐network interference were eliminated.…”

Section: Review Of Buffer State Based Relay Selection Policy and Compmentioning

confidence: 99%

“…The selection consists of the concept of BSB relay selection, to avoid empty/full buffers, and to increase the number of available links by giving priority for the links selected. The proposed scheme attains better system performance in terms of OP and APD, compared with those of the conventional max‐ratio‐based scheme in BA cognitive radio network [32].…”

Section: Review Of Buffer State Based Relay Selection Policy and Compmentioning

confidence: 99%

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Buffer‐aided relaying: a survey on relay selection policies

2020

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Ever since the idea of buffers was incorporated in wireless communications, buffer‐aided relaying has become an emerging breakthrough in the world of transmitting and receiving signals. Equipping the relays with buffers adds a new degree of freedom capable of enhancing numerous quality‐of‐service (QoS) metrics including throughput, outage probability, power efficiency and physical‐layer security. The QoS enhancement is achieved by compromising the end‐to‐end delay that is inflicted by storing the packets in the relays' buffers until a suitable source–relay or relay–destination link is selected. In this context, the selection of a relay for transmission/reception is important since it governs the QoS‐delay trade‐off that can be contemplated. In this survey, the authors review and analyse various link selection protocols in buffer‐aided relaying systems. These relaying strategies are categorised and contrasted according to their performance levels, limitations, applications, system model assumptions and complexity. Finally, they discuss current challenges, and highlight future research directions.

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Section: Review Of Buffer State Based Relay Selection Policy and Compmentioning

confidence: 99%

Section: Review Of Buffer State Based Relay Selection Policy and Compmentioning

confidence: 99%

Buffer‐aided relaying: a survey on relay selection policies

2020

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“…Other research works have included other factors, such as constraint on the resources of the relay node [14][15][16][17][18][19][20][21][22][23][24]. In [14], a relay selection method was proposed to consider the power consumption of each relay node during helping other nodes.…”

Section: Introductionmentioning

confidence: 99%

Effect of controlling maximum-SNR-based relay selection strategy in cooperative wireless communication systems

Altubaishi

2021

IJEECS

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<span>Relay selection strategy under maximum-signal-to-noise ratio (MAX-SNR) criterion was proven to maximize performance but at the expense of losing fairness among the cooperative relays. In this work, the effect of controlling the MAX-SNR criterion on the spectral efficiency of cooperative wireless communication system with adaptive modulation is investigated. Specifically, the probability density function (PDF) of the end-to-end SNR for the considered system is derived when the controlled selection criterion is considered. Base on that PDF, the average spectral efficiency is then derived and investigated. The results show how the spectral efficiency of the system deteriorates as controlling the selection of a relay. Furthermore, the results of Monte Carlo simulation validate the derived expression.</span>

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“…Moreover, in [25][26][27][28][29][30], broadcasting an information packet from a source node to multiple relay nodes was introduced in the context of the aforementioned buffer-aided cooperative communications; this allows relay nodes to share a common information packet, hence increasing the degree of freedom in buffer states. As a result, the source-to-destination (SD) communication delay was kept at the minimum while achieving the high reliability of buffer-aided relay selection.…”

mentioning

confidence: 99%

“…Such broadcasting-and buffer-state-based (BBSB) relay selection schemes were developed in the context of decode-and-forward (DF) [25] and amplify-and-forward (AF) relaying scenarios [26]. Furthermore, the cooperative beamforming mode was incorporated into BBSB relay selection in [27], while BBSB relay selection was introduced to physical-layer security [28], NOMA [29], and cognitive radio networks [30]. Note that, the conventional BBSB schemes of [25][26][27][28] does not rely on NOMA.…”

mentioning

confidence: 99%

Hybrid NOMA/OMA Broadcasting-and-Buffer-State-Based Relay Selection

Kochi

Nakai

Sugiura

2021

IEEE Trans. Veh. Technol.

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In this paper, we propose a novel buffer-aided relay selection scheme that is capable of amalgamating the concepts of non-orthogonal multiple access (NOMA) and orthogonal multiple access (OMA) in the context of two-hop cooperative networks supporting multiple relays. This is enabled by allowing relay nodes to share a common information packet in their buffers with the aid of a source-to-relay broadcasting mode. Hence, the proposed relay selection scheme switches between diverse modes of uplink NOMA, downlink NOMA, unicast, source broadcasting, and cooperative beamforming. The theoretical bounds of the outage probability, throughput, average delay, and diversity order are derived for the proposed scheme, based on a Markov chain model. Through our analytical and numerical results, it is demonstrated that the proposed scheme is capable of switching to one of the best modes in an adaptive manner while outperforming the conventional buffer-aided cooperative schemes.

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Generalized Buffer-State-Based Relay Selection in Cooperative Cognitive Radio Networks

Cited by 14 publications

References 31 publications

Buffer‐aided relaying: a survey on relay selection policies

Buffer‐aided relaying: a survey on relay selection policies

Effect of controlling maximum-SNR-based relay selection strategy in cooperative wireless communication systems

Hybrid NOMA/OMA Broadcasting-and-Buffer-State-Based Relay Selection

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