Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype
The Intelligent Reflection Surface (IRS) is a crucial technology for the development of next-generation wireless mobile networks. However, its deployment is usually limited to Line-of-Sight (LoS) transmission paths of Base Stations (BSs) due to path-loss and beamforming restrictions. LoS wireless ch...
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2023
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sg-ntu-dr.10356-1649592024-01-08T02:41:29Z Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype Zhao, Yufei Guan, Yong Liang Yang, Zhaojie Ju, Gaohua Lu, Yilong School of Electrical and Electronic Engineering 2023 IEEE International Conference on Communications (ICC 2023) Transport Research Centre @ NTU Engineering::Electrical and electronic engineering::Wireless communication systems Intelligent Reflection Surfaces Vortex Beam Metasurface Wireless Communication Channel Capacity Experiment Prototype The Intelligent Reflection Surface (IRS) is a crucial technology for the development of next-generation wireless mobile networks. However, its deployment is usually limited to Line-of-Sight (LoS) transmission paths of Base Stations (BSs) due to path-loss and beamforming restrictions. LoS wireless channels are known to have low-rank characteristics, which significantly reduce the capacity of IRS-assisted communication links. To overcome this issue, we propose a new IRS transmission scheme using vortex beams. These beams have low correlation properties between different modes, thus improving the channel capacity for served users. In this paper, we detail the channel capacity comparison of IRS systems using vortex beams and conventional plane waves. Additionally, a 2-bit phase quantized IRS prototype is designed and tested through full-wave Electro-Magnetic (EM) simulations and actual transmission experiments, allowing for the conversion of mode 1 vortex beams and plane waves at a pre-determined reflection angle (e.g., ${30^\circ }$). Our simulation results and prototype tests show that this design is effective in manipulating reflected vortex beams and plane waves in 3D space, meeting the demands of future intelligent wireless communications. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) Submitted/Accepted version This research is supported by the National Research Foundation under its Future Communications Research & Development Programme Grant No. FCP-NTU-RG-2021-015. It was also supported by A*STAR under its RIE2020 Advanced Manufacturing and Engineering (AME) Industry Alignment Fund - Pre Positioning (IAF-PP) Grant No. A19D6a0053. 2023-09-08T06:37:38Z 2023-09-08T06:37:38Z 2023 Conference Paper Zhao, Y., Guan, Y. L., Yang, Z., Ju, G. & Lu, Y. (2023). Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype. 2023 IEEE International Conference on Communications (ICC 2023), 883-888. https://dx.doi.org/10.1109/ICC45041.2023.10279703 978-1-5386-7462-8 1938-1883 https://hdl.handle.net/10356/164959 10.1109/ICC45041.2023.10279703 https://icc2023.ieee-icc.org/program/technical-symposium-program/symposia-monday-29-may-2023 883 888 en FCP-NTU-RG-2021-015 A19D6a0053 © 2023 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/ICC45041.2023.10279703. application/pdf |
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Engineering::Electrical and electronic engineering::Wireless communication systems Intelligent Reflection Surfaces Vortex Beam Metasurface Wireless Communication Channel Capacity Experiment Prototype |
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Engineering::Electrical and electronic engineering::Wireless communication systems Intelligent Reflection Surfaces Vortex Beam Metasurface Wireless Communication Channel Capacity Experiment Prototype Zhao, Yufei Guan, Yong Liang Yang, Zhaojie Ju, Gaohua Lu, Yilong Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| description |
The Intelligent Reflection Surface (IRS) is a crucial technology for the development of next-generation wireless mobile networks. However, its deployment is usually limited to Line-of-Sight (LoS) transmission paths of Base Stations (BSs) due to path-loss and beamforming restrictions. LoS wireless channels are known to have low-rank characteristics, which significantly reduce the capacity of IRS-assisted communication links. To overcome this issue, we propose a new IRS transmission scheme using vortex beams. These beams have low correlation properties between different modes, thus improving the channel capacity for served users. In this paper, we detail the channel capacity comparison of IRS systems using vortex beams and conventional plane waves. Additionally, a 2-bit phase quantized IRS prototype is designed and tested through full-wave Electro-Magnetic (EM) simulations and actual transmission experiments, allowing for the conversion of mode 1 vortex beams and plane waves at a pre-determined reflection angle (e.g., ${30^\circ }$). Our simulation results and prototype tests show that this design is effective in manipulating reflected vortex beams and plane waves in 3D space, meeting the demands of future intelligent wireless communications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhao, Yufei Guan, Yong Liang Yang, Zhaojie Ju, Gaohua Lu, Yilong |
| format |
Conference or Workshop Item |
| author |
Zhao, Yufei Guan, Yong Liang Yang, Zhaojie Ju, Gaohua Lu, Yilong |
| author_sort |
Zhao, Yufei |
| title |
Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| title_short |
Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| title_full |
Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| title_fullStr |
Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| title_full_unstemmed |
Vortex beams enhance IRS-aided low-rank channel transmission: principle and prototype |
| title_sort |
vortex beams enhance irs-aided low-rank channel transmission: principle and prototype |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164959 https://icc2023.ieee-icc.org/program/technical-symposium-program/symposia-monday-29-may-2023 |
| _version_ |
1787590737400954880 |