Ngan Nguyen scite author profile

A novel wireless sensor network node (WSNN) is presented in this paper where the solar energy harvester system is used as an autonomous power solution for endless battery lifetime. In this sensor node, the meander-line Inverted-F-Antenna (MIFA) is proposed and integrated in a single-CC2650 chip of Texas Instrument. The simple structure, low cost, compact size, high efficiency and low power consumption are advantages of this single-chip WSNN. The experimental results show that MIFA antenna is promising solution to enhance communication performance in WSN. In addition, the investigated single-chip WSNN with multi-wireless technologies including Bluetooth Low Energy and Zigbee as well as 6LowPAN is an attractive device for internet of thing (IoT) applications.

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The System Performance of Half-Duplex Relay Network under Effect of Interference Noise

Vozňák

Tran

Nguyen

2018

J. ADV. ENG. COMPUT.

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In recent years, harvesting energy from radio frequency (RF) signals has drawn significant research interest as a promising solution to solve the energy problem. In this paper, we analyze the effect of the interference noise on the wireless energy harvesting performance of a decode-and-forward (DF) relaying network. In this analysis, the energy and information are transferred from the source to the relay nodes in the delay-limited transmission and Delay-tolerant transmission modes by two methods: i) time switching protocol and ii) power splitting protocol. Firstly, due to the constraint of the wireless energy harvesting at the relay node, the analytical mathematical expressions of the achievable throughput, outage probability and ergodic capacity of both schemes were proposed and demonstrated. After that, the effect of various system parameters on the system performance is rigorously studied with closed-form expressions for system throughput, outage probability, and ergodic capacity. Finally, the analytical results are also demonstrated by Monte-Carlo simulation. The results show that the analytical mathematical and simulated results agree with each other. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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A Broadband High-Efficiency Rectifier for Mid-Field Wireless Power Transfer

Nguyen

et al. 2021

IEEE Microw. Wireless Compon. Lett.

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Ngan Nguyen

Multiband Ambient RF Energy Harvesting for Autonomous IoT Devices

Midfield Wireless Power Transfer for Deep-Tissue Biomedical Implants

A novel autonomous wireless sensor node for IoT applications

The System Performance of Half-Duplex Relay Network under Effect of Interference Noise

A Broadband High-Efficiency Rectifier for Mid-Field Wireless Power Transfer

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