Jeremy Gillbanks scite author profile

Jeremy Gillbanks

5Publications

8Citation Statements Received

122Citation Statements Given

How they've been cited

How they cite others

204

Affiliations

University of Western Australia

Publications

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A Power Control Algorithm Based on Chicken Game Theory in Multi-Hop Networks

Wang

Gillbanks

et al. 2019

Symmetry

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With the development of modern society, there are not only many voice calls being made over wireless communication systems, but there is also a great deal of demand for data services. There are increasing demands from the general public for more information data, especially for high-speed services with elevated Gbps levels. As is well known, higher sending power is needed once data rates increase. In order to solve this problem, virtual cellular networks (VCNs) can be employed in order to reduce these peak power shifts. If a VCN works well, mobile ports will receive their own wireless signals via individual cells, and then, the signals will access core networks with the help of a central terminal. Power control can improve the power capacity in multi-hop networks. However, the use of power control will also have a negative impact on network connectivity, delay, and capacity. In order to address the problem, this paper compares specific control methods and capacities in multi-hop networks. Distributed chicken game algorithm power control (DCGAPC) methods are presented in order to reach acceptable minimum levels of network delay and maximum network capacity and connectivity. Finally, a computer simulation is implemented, and the results are shown.

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XPS/NEXAFS spectroscopic and conductance studies of glycine on AlGaN/GaN transistor devices

Myers

Khir

Home

et al. 2018

Applied Surface Science

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Dynamic Pressure/Temperature Behaviour of GaN-Based Chemical Sensors

et al. 2021

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Research on High-Throughput Crop Root Phenotype 3D Reconstruction Using X-ray CT in 5G Era

et al. 2023

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Currently, the three-dimensional detection of plant root structure is one of the core issues in studies on plant root phenotype. Manual measurement methods are not only cumbersome but also have poor reliability and damage the root. Among many solutions, X-ray computed tomography (X-ray CT) can help us observe the plant root structure in a three-dimensional and non-destructive form under the condition of underground soil in situ. Therefore, this paper proposes a high-throughput method and process for plant three-dimensional root phenotype and reconstruction based on X-ray CT technology. Firstly, this paper proposes a high-throughput transmission for the root phenotyping and utilizing the imaging technique to extract the root characteristics; then, the study adopts a moving cube algorithm to reconstruct the 3D (three-dimensional) root. Finally, this research simulates the proposed algorithm, and the simulation results show that the presented method in this paper works well.

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AC Excitation to Mitigate Drift in AlGaN/GaN HEMT-Based Sensors

et al. 2023

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