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3 results on '"Fernandez, Evelio M. Garcia"'

1. Massive Wireless Energy Transfer: Enabling Sustainable IoT Towards 6G Era

Author

López, Onel L. Alcaraz, Alves, Hirley, Souza, Richard Demo, Montejo-Sánchez, Samuel, Fernández, Evelio M. García, and Latva-aho, Matti

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Performance
Abstract

Recent advances on wireless energy transfer (WET) make it a promising solution for powering future Internet of Things (IoT) devices enabled by the upcoming sixth generation (6G) era. The main architectures, challenges and techniques for efficient and scalable wireless powering are overviewed in this paper. Candidates enablers such as energy beamforming (EB), distributed antenna systems (DAS), advances on devices' hardware and programmable medium, new spectrum opportunities, resource scheduling and distributed ledger technology are outlined. Special emphasis is placed on discussing the suitability of channel state information (CSI)-limited/free strategies when powering simultaneously a massive number of devices. The benefits from combining DAS and EB, and from using average CSI whenever available, are numerically illustrated. The pros and cons of the state-of-the-art CSI-free WET techniques in ultra-low power setups are thoroughly revised, and some possible future enhancements are outlined. Finally, key research directions towards realizing WET-enabled massive IoT networks in the 6G era are identified and discussed in detail., Comment: 19 pags, 15 figures, 5 tables, submitted to IEEE Internet of Things Journal

Published
2019

2. Rate Control for Wireless-Powered Communication Network with Reliability and Delay Constraints

Author

López, Onel L. Alcaraz, Alves, Hirley, Souza, Richard Demo, Montejo-Sánchez, Samuel, and Fernández, Evelio M. García

Subjects
Computer Science - Information Theory, Computer Science - Networking and Internet Architecture
Abstract

We consider a two-phase Wireless-Powered Communication Network under Nakagami-m fading, where a wireless energy transfer process first powers a sensor node that then uses such energy to transmit its data in the wireless information transmission phase. We explore a fixed transmit rate scheme designed to cope with the reliability and delay constraints of the system while attaining closed-form approximations for the optimum wireless energy transfer and wireless information transmission blocklength. Then, a more-elaborate rate control strategy exploiting the readily available battery charge information is proposed and the results evidence its outstanding performance when compared with the fixed transmit rate, for which no battery charge information is available. It even reaches an average rate performance close to that of an ideal scheme requiring full Channel State Information at transmitter side. Numerical results show the positive impact of a greater number of antennas at the destination, and evidence that the greater the reliability constraints, the smaller the message sizes on average, and the smaller the optimum information blocklengths. Finally, we corroborate the appropriateness of using the asymptotic blocklength formulation as an approximation of the non-asymptotic finite blocklength results., Comment: 14 pages, 8 figures, accepted for publication in IEEE TWC

Published
2019

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