Optimal Relay Selection Scheme with Multiantenna Power Beacon for Wireless-Powered Cooperation Communication Networks

Messadi, Oussama; Sali, Aduwati; Khodamoradi, Vahid; Salah, Asem$AAUP$Palestinian; Pan, Gaofeng; Hashim, Shaiful Jahari; Noordin, N.K.

doi:10.3390/s21010147

Cited by 15 publications

(7 citation statements)

References 34 publications

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“…However, the wireless charging rates for RF-based wireless powered sensors are usually unstable and low because of the time-varying characteristics of wireless channels and health concerns. To improve system performance of a wireless powered sensor network (WPSN), multi-antenna beamforming technologies [ 12 , 13 , 14 , 15 ], multi-source energy transfer schemes [ 10 , 16 , 17 , 18 ], and energy-aware medium access control (MAC) protocols [ 19 ] have been proposed recently.…”

Section: Introductionmentioning

confidence: 99%

On-Demand Energy Transfer and Energy-Aware Polling-Based MAC for Wireless Powered Sensor Networks

Fang

Ferng

2022

Sensors

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To improve the performance of the wireless powered sensor network (WPSN), this paper proposes a frequency division duplex (FDD)-based on-demand energy transfer protocol and an energy-aware polling-based medium access control (MAC) protocol, called composite energy and data first (CEDF), by using the numbers of data packets and energy packets to determine polling priorities. The performance of the proposed MAC protocol, i.e., CEDF, along with the on-demand energy transfer protocol was evaluated through simulations, with comparison to the closely related protocols such as the round robin (RR) and data first (DF) polling protocols. Compared with RR and DF, our proposed CEDF performs much better in terms of throughput, data packet loss rate, and delay. Additionally, the doubly near–far problem in WPSNs under our proposed on-demand energy transfer protocol and CEDF was investigated to come up with good solutions to alleviate such a problem.

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Section: Introductionmentioning

confidence: 99%

On-Demand Energy Transfer and Energy-Aware Polling-Based MAC for Wireless Powered Sensor Networks

Fang

Ferng

2022

Sensors

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“…Because of the low-cost transceiver equipment, wireless sensor nodes fall victim to hardware limitations due to amplifier nonlinearities and phase noise [24,26,35,36,43]. The performance degradation can be recovered using a cooperative relaying algorithm.…”

Section: Introductionmentioning

confidence: 99%

“…In [35], the effect of hardware failures on Nakagami-m fading channels in dual-hop relaying networks was investigated. In [36], in underlay CR networks, the performance of two-way relaying systems with hardware faults using EH relays were examined.…”

Section: Introductionmentioning

confidence: 99%

An Optimized Distributed Routing Protocol for Energy Management Systems Based on Wireless Sensor Networks in Intelligent and Smart Structures

Hammad

Mohamed

Abdel-Atty

2022

Int. j. electr. comput. eng. syst. (Online)

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Energy and spectrum efficiency for energy management systems based on wireless sensor networks in intelligent structures and powered by ambient energy harvesting (EH) are the main problems in wireless sensor networks. Herein, we consider relay selection methods. To address this issue, we proposed the optimal multiantenna power beacon opportunistic relay selection (OMPB-ORS) protocol, which uses decoding and forward methods, in which the relay wireless sensor nodes and the second source are energy-restricted and can harvest energy from a power beacon (PB) multiantenna to transmit aggregated information data from source to destination. The proposed protocol based on specific s witching t ime r eceiver a rchitecture e nhances e nd-to-end p erformance f or m aximum h ardware impairments and interference for the transceiver. To evaluate the performance, we compared our proposed protocol with best ORS (B-ORS), conventional ORS (C-ORS), and hybrid partial relay selection (H-PRS) protocols. Using the Rayleigh-fading channel, the simulation is driven based on asymptotic and exact form expressions of throughput (TP) and outage probability (OP). Simulation results show that the OMPB-ORS protocol achieves a higher TP and OP than all compared protocols.

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“…As cooperative communication can effectively improve network throughput and enlarge the coverage, it is integrated with the SWIPT in wireless powered cooperative communication networks (WPCNs), which has been extensively studied in [11][12][13][14][15][16][17][18][19][20]. For a WPCN, the ergodic capacity of TS-based and PS-based relaying protocols was analyzed in [11][12][13] and then the TS and PS parameters were optimized in [14,15] to maximize the network throughput.…”

Section: Introductionmentioning

confidence: 99%

“…For a WPCN, the ergodic capacity of TS-based and PS-based relaying protocols was analyzed in [11][12][13] and then the TS and PS parameters were optimized in [14,15] to maximize the network throughput. Meanwhile, the relay selection and scheduling policies for a wireless powered multirelay network were investigated in [16][17][18][19][20]. While the potential of buffer-aided communication has not been fully exploited in all these works.…”

Section: Introductionmentioning

confidence: 99%

Throughput Maximization for Wireless Powered Buffer-Aided Successive Relaying Networks

Liu

Chen

Cai

2022

Wireless Communications and Mobile Computing

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In this paper, we consider a wireless powered cooperative network, where two energy-constrained buffer-aided relays harvest energy from the source to assist the information delivery to the destination. To improve the spectral efficiency, a wireless powered successive relaying (WPSR) protocol is proposed to allow both relays to receive the information from the source and forward the buffered data to the destination, taking into consideration of the inter-relay-interference (IRI). We first reveal the impact of data buffers and energy storages at the relays by the achievable throughput comparison of the WPSR scheduling schemes with and without considering data buffers and energy storages. Our analysis validates the great potential of the buffer-and-forward data transmission and the harvest-store-use energy management strategies. Then, the network throughput is maximized via adaptive time and power allocation subject to the stability constraints of data buffers and energy buffers, and an adaptive wireless powered buffer-aided successive relaying (WPBSR) scheduling scheme is proposed. The proposed scheme approaches the optimal throughput of the wireless powered successive relaying network with bounded delay and finite length of data and energy buffers. Numerical results validate the analysis and noticeable spectral efficiency gain.

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Optimal Relay Selection Scheme with Multiantenna Power Beacon for Wireless-Powered Cooperation Communication Networks

Cited by 15 publications

References 34 publications

On-Demand Energy Transfer and Energy-Aware Polling-Based MAC for Wireless Powered Sensor Networks

On-Demand Energy Transfer and Energy-Aware Polling-Based MAC for Wireless Powered Sensor Networks

An Optimized Distributed Routing Protocol for Energy Management Systems Based on Wireless Sensor Networks in Intelligent and Smart Structures

Throughput Maximization for Wireless Powered Buffer-Aided Successive Relaying Networks

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