We stand with Ukraine

We stand with Ukraine

Ruoqi Deng

Orcid: 0000-0003-3510-8452

According to our database¹, Ruoqi Deng authored at least 19 papers between 2018 and 2023.

Collaborative distances:

Dijkstra number² of four.
Erdős number³ of four.

Timeline

Legend:

Book

In proceedings

Article

PhD thesis

Dataset

Other

Links

Online presence:

on orcid.org

On csauthors.net:

Bibliography

2023

Holographic Beamforming for LEO Satellites.

[BibT_eX]

[DOI]

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Hongliang Zhang

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IEEE Commun. Lett., October, 2023

Reconfigurable Holographic Surfaces for Ultra-Massive MIMO in 6G: Practical Design, Optimization and Implementation.

[BibT_eX]

[DOI]

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,

Hongliang Zhang

,

H. Vincent Poor

,

IEEE J. Sel. Areas Commun., August, 2023

Reconfigurable Holographic Surface: A New Paradigm to Implement Holographic Radio.

[BibT_eX]

[DOI]

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Hongliang Zhang

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IEEE Veh. Technol. Mag., March, 2023

Multi-target Detection for Reconfigurable Holographic Surfaces Enabled Radar.

[BibT_eX]

[DOI]

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Proceedings of the IEEE Global Communications Conference, 2023

2022

Reconfigurable Holographic Surface-Enabled Multi-User Wireless Communications: Amplitude-Controlled Holographic Beamforming.

[BibT_eX]

[DOI]

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,

Hongliang Zhang

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IEEE Trans. Wirel. Commun., 2022

HDMA: Holographic-Pattern Division Multiple Access.

[BibT_eX]

[DOI]

,

,

Hongliang Zhang

,

IEEE J. Sel. Areas Commun., 2022

Holographic MIMO for LEO Satellite Communications Aided by Reconfigurable Holographic Surfaces.

[BibT_eX]

[DOI]

,

,

Hongliang Zhang

,

H. Vincent Poor

,

IEEE J. Sel. Areas Commun., 2022

Holographic Beamforming for Ultra Massive MIMO With Limited Radiation Amplitudes: How Many Quantized Bits Do We Need?

[BibT_eX]

[DOI]

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,

,

Hongliang Zhang

,

IEEE Commun. Lett., 2022

2021

Reconfigurable Holographic Surfaces for Future Wireless Communications.

[BibT_eX]

[DOI]

,

,

Hongliang Zhang

,

,

,

H. Vincent Poor

,

IEEE Wirel. Commun., 2021

Ultra-Dense LEO Satellite Constellations: How Many LEO Satellites Do We Need?

[BibT_eX]

[DOI]

,

,

Hongliang Zhang

,

,

IEEE Trans. Wirel. Commun., 2021

Reconfigurable Holographic Surface: Holographic Beamforming for Metasurface-Aided Wireless Communications.

[BibT_eX]

[DOI]

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,

Hongliang Zhang

,

,

IEEE Trans. Veh. Technol., 2021

Ultra-Dense LEO Satellite Based Formation Flying.

[BibT_eX]

[DOI]

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,

IEEE Trans. Commun., 2021

2020

Ultra-Dense LEO Satellite Offloading for Terrestrial Networks: How Much to Pay the Satellite Operator?

[BibT_eX]

[DOI]

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IEEE Trans. Wirel. Commun., 2020

How Capacity is Influenced by Ultra-dense LEO Topology in Multi-terminal Satellite Systems?

[BibT_eX]

[DOI]

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Proceedings of the 2020 IEEE Wireless Communications and Networking Conference, 2020

Ultra-Dense LEO Satellite Constellation Design for Global Coverage in Terrestrial-Satellite Networks.

[BibT_eX]

[DOI]

,

,

Hongliang Zhang

,

Proceedings of the IEEE Global Communications Conference, 2020

2019

Cooperative Collision Avoidance for Overtaking Maneuvers in Cellular V2X-Based Autonomous Driving.

[BibT_eX]

[DOI]

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IEEE Trans. Veh. Technol., 2019

Dialogue between Satellite and Cellular Networks: Pricing Game for Data Offloading Assisted by Ultra-dense LEO Constellations.

[BibT_eX]

[DOI]

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,

Proceedings of the Twentieth ACM International Symposium on Mobile Ad Hoc Networking and Computing, 2019

Pricing Mechanism Design for Data Offloading in Ultra-Dense LEO-Based Satellite-Terrestrial Networks.

[BibT_eX]

[DOI]

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,

Proceedings of the 2019 IEEE Global Communications Conference, 2019

2018

Cooperative Collision Avoidance Scheme Design and Analysis in V2X-Based Driving Systems.

[BibT_eX]

[DOI]

,

,

Proceedings of the IEEE Global Communications Conference, 2018

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