Xi Yang scite author profile

Optical non-linear phenomena are typically observed in natural materials interacting with light at high intensities, and they benefit a diverse range of applications from communication to sensing. However, controlling harmonic conversion with high efficiency and flexibility remains a major issue in modern optical and radio-frequency systems. Here, we introduce a dynamic time-domain digital-coding metasurface that enables efficient manipulation of spectral harmonic distribution. By dynamically modulating the local phase of the surface reflectivity, we achieve accurate control of different harmonics in a highly programmable and dynamic fashion, enabling unusual responses, such as velocity illusion. As a relevant application, we propose and realize a novel architecture for wireless communication systems based on the time-domain digital-coding metasurface, which largely simplifies the architecture of modern communication systems, at the same time yielding excellent performance for real-time signal transmission. The presented work, from new concept to new system, opens new pathways in the application of metamaterials to practical technology.

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Synergistic Operation of Electricity and Natural Gas Networks via ADMM

Wen

et al. 2018

IEEE Trans. Smart Grid

184

107

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Capacity Analysis of a Multi-Cell Multi-Antenna Cooperative Cellular Network with Co-Channel Interference

Huang

Wang

et al. 2011

IEEE Trans. Wireless Commun.

170

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Characterization and modeling of co-channel interference is critical for the design and performance evaluation of realistic multi-cell cellular networks. In this paper, based on alpha stable processes, an analytical co-channel interference model is proposed for multi-cell multiple-input multi-output (MIMO) cellular networks. The impact of different channel parameters on the new interference model is analyzed numerically. Furthermore, the exact normalized downlink average capacity is derived for a multi-cell MIMO cellular network with co-channel interference. Moreover, the closed-form normalized downlink average capacity is derived for cell-edge users in multi-cell multipleinput single-output (MISO) cooperative cellular networks with co-channel interference. From the new co-channel interference model and capacity formulas, the impact of cooperative antennas and base stations on cell-edge user performance in the multicell multi-antenna cellular network is investigated by numerical methods. Numerical results show that cooperative transmission can improve the capacity performance of multi-cell multi-antenna cooperative cellular networks, especially in a scenario with a high density of interfering base stations. The capacity performance gain is degraded with the increased number of cooperative antennas or base stations.

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Analysis and design considerations of a load and line independent zero voltage switching full bridge DC/DC converter topology

Jain

Kang

Soin³

et al. 2002

IEEE Trans. Power Electron.

217

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Conserved water use improves the yield performance of soybean (Glycine max (L.) Merr.) under drought

Wang

et al. 2017

Agricultural Water Management

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Xi Yang

Programmable time-domain digital-coding metasurface for non-linear harmonic manipulation and new wireless communication systems

Synergistic Operation of Electricity and Natural Gas Networks via ADMM

Capacity Analysis of a Multi-Cell Multi-Antenna Cooperative Cellular Network with Co-Channel Interference

Analysis and design considerations of a load and line independent zero voltage switching full bridge DC/DC converter topology

Conserved water use improves the yield performance of soybean (Glycine max (L.) Merr.) under drought

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