2021
DOI: 10.3390/s21196599
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Minimum Length Scheduling for Multi-Cell Full Duplex Wireless Powered Communication Networks

Abstract: Wireless powered communication networks (WPCNs) will be a major enabler of massive machine type communications (MTCs), which is a major service domain for 5G and beyond systems. These MTC networks will be deployed by using low-power transceivers and a very limited set of transmission configurations. We investigate a novel minimum length scheduling problem for multi-cell full-duplex wireless powered communication networks to determine the optimal power control and scheduling for constant rate transmission model… Show more

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Cited by 4 publications
(1 citation statement)
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“…In the second phase, the H-AP estimates the UL channels and uses the channel estimates to design the transmit beamformer for DL transmission to all cellular users, while receiving information from sensors. Iqbal et al [319] investigate a minimum length scheduling scheme for multicell FD-WPCNs to determine the optimal power control and scheduling for a constant rate transmission model. In [320], an IoT network with FD wireless power is considered, and it supports simultaneous data collection from devices in the UL and WPT of an H-AP in the DL.…”
Section: A Full-duplex With Wpcnmentioning
confidence: 99%
“…In the second phase, the H-AP estimates the UL channels and uses the channel estimates to design the transmit beamformer for DL transmission to all cellular users, while receiving information from sensors. Iqbal et al [319] investigate a minimum length scheduling scheme for multicell FD-WPCNs to determine the optimal power control and scheduling for a constant rate transmission model. In [320], an IoT network with FD wireless power is considered, and it supports simultaneous data collection from devices in the UL and WPT of an H-AP in the DL.…”
Section: A Full-duplex With Wpcnmentioning
confidence: 99%